We previously reported that cyclin D3‐null mice display a shift toward the slow, oxidative phenot... more We previously reported that cyclin D3‐null mice display a shift toward the slow, oxidative phenotype in skeletal muscle, improved exercise endurance, and increased energy expenditure. Here, we explored the role of cyclin D3 in the physiologic response of skeletal muscle to external stimuli and in a model of muscle degenerative disease. We show that cyclin D3‐null mice exhibit a further transition from glycolytic to oxidative muscle fiber type in response to voluntary exercise and an improved response to fasting. Since fast glycolytic fibers are known to be more susceptible to degeneration in Duchenne muscular dystrophy (DMD), we examined the effects of cyclin D3 inactivation on skeletal muscle phenotype in the mdx mouse model of DMD. Compared with control mdx mice, cyclin D3‐deficient mdx mice display a higher proportion of slower and more oxidative myofibers, reduced muscle degenerative/regenerative processes, and reduced myofiber size variability, indicating an attenuation of dystrophic histopathology. Furthermore, mdx muscles lacking cyclin D3 exhibit reduced fatigability during repeated electrical stimulations. Notably, cyclin D3‐null mdx mice show enhanced performance during recurrent trials of endurance treadmill exercise, and post‐exercise muscle damage results decreased while the regenerative capacity is boosted. In addition, muscles from exercised cyclin D3‐deficient mdx mice display increased oxidative capacity and increased mRNA expression of genes involved in the regulation of oxidative metabolism and the response to oxidative stress. Altogether, our findings indicate that depletion of cyclin D3 confers benefits to dystrophic muscle, suggesting that cyclin D3 inhibition may represent a promising therapeutic strategy against DMD.
Previous studies demonstrated that opiate inhibition of adenylate cyclase (AC) in striatal membra... more Previous studies demonstrated that opiate inhibition of adenylate cyclase (AC) in striatal membranes is related to an opiate-stimulated GTPase with a low Km. Dopamine (DA) also dose-dependently activates a high affinity GTPase, with a pattern of stimulation and a receptor selectivity (D1 type) similar to those observed in DA activation of striatal AC. Moreover, the DA- and the opiate-sensitive GTPase activities have different sensitivities to agents that affect the inhibition of AC, such as Na+ and N-ethylmaleimide (NEM), or the stimulation, such as cholera toxin (CTX). Thus, the impairment of opiate-dependent inhibition of AC in the absence of Na+ ions or after NEM pretreatment of the membranes is parallel with preferential impairment of the opiate-dependent GTPase. On the contrary, selective blocking by CTX of the DA-dependent GTPase leads to the enhancement of AC stimulation by DA. These results suggest that DA activation of striatal AC is related to a GTPase that is specifically stimulated by DA and is associated with the Ns protein. A distinct Ni protein seems to be responsible for the opiate effect on AC and GTPase.
LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats wer... more LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats were assayed 1 month after streptozotocin injection and compared with values in controls either fed ad libitum or offered a restricted diet. Plasma LH was also assayed after stimulation with exogenous LHRH or naloxone. In diabetic males, the median eminence LHRH content and the plasma LH response to exogenous LHRH were unaltered, pituitary LH was increased, and plasma LH was decreased under basal conditions and after naloxone treatment. In diabetic females, while the median eminence LHRH content and the plasma LH response to exogenous LHRH or naloxone were reduced, pituitary and plasma LH levels were not different. Measurements made in undernourished rats excluded the possibility that the alterations found in diabetic animals were nutrition dependent. In parallel experiments, hypothalami and pituitaries were examined morphologically. In diabetic animals, degenerate axons, mainly of the LHRH type, were found in the arcuate nucleus and median eminence, and LH gonadotrophs were altered and more numerous. Strong differences between control males and females were revealed by morphometry; moreover, diabetic females had higher brain weights and fewer LH gonadotroph changes than diabetic males. These studies indicate that 1) the hypothalamo-pituitary changes that occur early in our streptozotocin-treated rats are unrelated to undernourishment and are possibly caused by insulin deficiency; 2) the LHRH axonal lesions might play a primary pathogenic role in the hypothalamo-pituitary disorder; 3) some anatomical data indicate that the brain and pituitary are less severely affected by diabetes in female than in male animals; and 4) differences between control males and females may account for some of the dissimilarities between the sexes observed under diabetic conditions.
Adult neurogenesis in the dentate gyrus plays a critical role in hippocampus-dependent spatial le... more Adult neurogenesis in the dentate gyrus plays a critical role in hippocampus-dependent spatial learning. It remains unknown, however, how new neurons become functionally integrated into spatial circuits and contribute to hippocampus-mediated forms of learning and memory. To investigate these issues, we used a mouse model in which the differentiation of adult-generated dentate gyrus neurons can be anticipated by conditionally expressing the prodifferentiative gene PC3 (Tis21/BTG2) in nestin-positive progenitor cells. In contrast to previous studies that affected the number of newly generated neurons, this strategy selectively changes their timing of differentiation. New, adultgenerated dentate gyrus progenitors, in which the PC3 transgene was expressed, showed accelerated differentiation and significantly reduced dendritic arborization and spine density. Functionally, this genetic manipulation specifically affected different hippocampus-dependent learning and memory tasks, including contextual fear conditioning, and selectively reduced synaptic plasticity in the dentate gyrus. Morphological and functional analyses of hippocampal neurons at different stages of differentiation, following transgene activation within defined time-windows, revealed that the new, adult-generated neurons up to 3-4 weeks of age are required not only to acquire new spatial information but also to use previously consolidated memories. Thus, the correct unwinding of these key memory functions, which can be an expression of the ability of adult-generated neurons to link subsequent events in memory circuits, is critically dependent on the correct timing of the initial stages of neuron maturation and connection to existing circuits.
Aging is a multi-faceted process caused by the accumulation of cellular damage over time, associa... more Aging is a multi-faceted process caused by the accumulation of cellular damage over time, associated with a gradual reduction of physiological activities in cells and organs. This degeneration results in a reduced ability to adapt to homeostasis perturbations and an increased incidence of illnesses such as cognitive decline, neurodegenerative and cardiovascular diseases, cancer, diabetes, and skeletal muscle pathologies. Key features of aging include a chronic low-grade inflammation state and a decrease of the autophagic process. The Mediterranean diet has been associated with longevity and ability to counteract the onset of age-related disorders. Extra virgin olive oil, a fundamental component of this diet, contains bioactive polyphenolic compounds as hydroxytyrosol (HTyr) and oleuropein (OLE), known for their antioxidant, anti-inflammatory, and neuroprotective properties. This review is focused on brain, skeletal muscle, and gut microbiota, as these systems are known to interact a...
Neuron generation persists throughout life in the hippocampus but is altered in animal models of ... more Neuron generation persists throughout life in the hippocampus but is altered in animal models of neurological and neuropsychiatric diseases, suggesting that disease‐associated decline in cognitive and emotional hippocampal‐dependent behaviours might be functionally linked with dysregulation of postnatal neurogenesis. Depletion of the adult neural stem/progenitor cell (NSPCs) pool and neurogenic decline have been recently described in mice expressing synaptic susceptibility genes associated with autism spectrum disorder (ASDs). To gain further insight into mechanisms regulating neurogenesis in mice carrying mutations in synaptic genes related to monogenic ASDs, we used the R451C Neuroligin3 knock‐in (Nlgn3 KI) mouse, which is characterized by structural brain abnormalities, deficits in synaptic functions and reduced sociability. We show that the number of adult‐born neurons, but not the size of the NSPC pool, was reduced in the ventral dentate gyrus in knock‐in mice. Notably, this ne...
Genetic modifications during development of paediatric groups 3 and 4 medulloblastoma are respons... more Genetic modifications during development of paediatric groups 3 and 4 medulloblastoma are responsible for their highly metastatic properties and poor patient survival rates. PRUNE1 is highly expressed in metastatic medulloblastoma group 3, which is characterized by TGF-β signalling activation, c-MYC amplification, and OTX2 expression. We describe the process of activation of the PRUNE1 signalling pathway that includes its binding to NME1, TGF-β activation, OTX2 upregulation, SNAIL (SNAI1) upregulation, and PTEN inhibition. The newly identified small molecule pyrimido-pyrimidine derivative AA7.1 enhances PRUNE1 degradation, inhibits this activation network, and augments PTEN expression. Both AA7.1 and a competitive permeable peptide that impairs PRUNE1/NME1 complex formation, impair tumour growth and metastatic dissemination in orthotopic xenograft models with a metastatic medulloblastoma group 3 cell line (D425-Med cells). Using whole exome sequencing technology in metastatic medull...
LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats wer... more LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats were assayed 1 month after streptozotocin injection and compared with values in controls either fed ad libitum or offered a restricted diet. Plasma LH was also assayed after stimulation with exogenous LHRH or naloxone. In diabetic males, the median eminence LHRH content and the plasma LH response to exogenous LHRH were unaltered, pituitary LH was increased, and plasma LH was decreased under basal conditions and after naloxone treatment. In diabetic females, while the median eminence LHRH content and the plasma LH response to exogenous LHRH or naloxone were reduced, pituitary and plasma LH levels were not different. Measurements made in undernourished rats excluded the possibility that the alterations found in diabetic animals were nutrition dependent. In parallel experiments, hypothalami and pituitaries were examined morphologically. In diabetic animals, degenerate axons, mainly of the LHRH type, were found in the arcuate nucleus and median eminence, and LH gonadotrophs were altered and more numerous. Strong differences between control males and females were revealed by morphometry; moreover, diabetic females had higher brain weights and fewer LH gonadotroph changes than diabetic males. These studies indicate that 1) the hypothalamo-pituitary changes that occur early in our streptozotocin-treated rats are unrelated to undernourishment and are possibly caused by insulin deficiency; 2) the LHRH axonal lesions might play a primary pathogenic role in the hypothalamo-pituitary disorder; 3) some anatomical data indicate that the brain and pituitary are less severely affected by diabetes in female than in male animals; and 4) differences between control males and females may account for some of the dissimilarities between the sexes observed under diabetic conditions.
Porcine BM88 is a neuron-specific protein that enhances neuroblastoma cell differentiation in vit... more Porcine BM88 is a neuron-specific protein that enhances neuroblastoma cell differentiation in vitro and may be involved in neuronal differentiation in vivo. Here we report the identification, by Western blotting, of homologous proteins in human and mouse brain and the isolation of their respective cDNAs. Several human and mouse clones were identified in the EST database using porcine BM88 cDNA as a query. A human and a mouse EST clone were chosen for sequencing and were found both to predict a protein of 149 amino acids, with 79.9% reciprocal identity, and 76.4% and 70.7% identities to the porcine protein, respectively. This indicated that the clones corresponded to the human and mouse BM88homologues. In vitro expression in a cell-free system as well as transient expression in COS7 cells yielded polypeptide products that were recognized by anti-BM88 antibodies and were identical in size to the native BM88 protein. Northern-blot analysis showed a wide distribution of the gene in huma...
We have previously generated a mouse model (Ptch1+/−/Tis21KO), which displays high frequency spon... more We have previously generated a mouse model (Ptch1+/−/Tis21KO), which displays high frequency spontaneous medulloblastoma, a pediatric tumor of the cerebellum. Early postnatal cerebellar granule cell precursors (GCPs) of this model show, in consequence of the deletion of Tis21, a defect of the Cxcl3-dependent migration. We asked whether this migration defect, which forces GCPs to remain in the proliferative area at the cerebellar surface, would be the only inducer of their high frequency transformation. In this report we show, by further bioinformatic analysis of our microarray data of Ptch1+/−/Tis21KO GCPs, that, in addition to the migration defect, they show activation of the PI3K/AKT/mTOR pathway, as the mRNA levels of several activators of this pathway (e.g., Lars, Rraga, Dgkq, Pdgfd) are up-regulated, while some inhibitors (e.g. Smg1) are down-regulated. No such change is observed in the Ptch1+/− or Tis21KO background alone, indicating a peculiar synergy between these two genoty...
The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where neur... more The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where neural stem and progenitor cells replicate throughout life to generate new neurons. The Btg1 gene maintains the stem cells of the neurogenic niches in quiescence. The deletion of Btg1 leads to an early transient increase of stem/progenitor cells division, followed, however, by a decrease during adulthood of their proliferative capability, accompanied by apoptosis. Since a physiological decrease of neurogenesis occurs during aging, the Btg1 knockout mouse may represent a model of neural aging. We have previously observed that the defective neurogenesis of the Btg1 knockout model is rescued by the powerful neurogenic stimulus of physical exercise (running). To identify genes responsible for stem and progenitor cells maintenance, we sought here to find genes underlying this premature neural aging, and whose deregulated expression could be rescued by running. Through RNA sequencing we analyzed t...
The dentate gyrus of the hippocampus is one of two brain areas generating throughout life new neu... more The dentate gyrus of the hippocampus is one of two brain areas generating throughout life new neurons, which contribute to the formation of episodic/associative memories. During aging, the production of new neurons decreases and a cognitive decline occurs. Dietary factors influence neuronal function and synaptic plasticity; among them the phenolic compound hydroxytyrosol (HTyr), present in olive oil, displays neuroprotective effects. As age impacts primarily on the hippocampus‐dependent cognitive processes, we wondered whether HTyr could stimulate hippocampal neurogenesis in vivo in adult and aged wild‐type mice as well as in the B‐cell translocation 1 gene (Btg1) knockout mouse model of accelerated neural aging. We found that treatment with HTyr activates neurogenesis in the dentate gyrus of adult, aged, and Btg1‐null mice, by increasing survival of new neurons and decreasing apoptosis. Notably, however, in the aged and Btg1‐null dentate gyrus, HTyr treatment also stimulates the proliferation of stem and progenitor cells, whereas in the adult dentate gyrus HTyr lacks any proliferative effect. Moreover, the new neurons generated in aged mice after HTyr treatment are recruited to existing circuits, as shown by the increase of BrdU+/c‐fos+ neurons. Finally, HTyr treatment also reduces the markers of aging lipofuscin and Iba1. Overall, our findings indicate that HTyr treatment counteracts neurogenesis decline during aging.
1303 B-cell precursor acute lymphoblastic leukemia (BCP-ALL) is the most common form of cancer in... more 1303 B-cell precursor acute lymphoblastic leukemia (BCP-ALL) is the most common form of cancer in children, characterized by genetic aberrations affecting master regulators of lymphoid differentiation, such as RUNX1, IKZF1, TCF3, and PAX5, as well as tumor suppressor genes that control the cell cycle, including RB1 and CDKN2A. Another gene frequently altered in BCP-ALL is BTG1, which displays highly clustered mono-allelic deletions in childhood BCP-ALL (9%) and adult ALL (6%). The frequency of BTG1 deletions is two- to three-fold higher in ETV6-RUNX1- and BCR-ABL1-positive leukemias. BTG1, and its close homologue BTG2 regulate gene expression, for instance by associating with protein arginine methyltransferase 1 (PRMT1), affecting the activity of a variety of transcription factors, including several nuclear hormone receptors and HoxB9. In addition, BTG1 and BTG2 have been implicated in regulating mRNA stability by interacting with the Ccr4-Not complex. Recent studies have also ident...
In B cell neoplasia, many transcription factors known to be involved in B cell differentiation an... more In B cell neoplasia, many transcription factors known to be involved in B cell differentiation and commitment, like E2A, EBF1 and PAX5, are frequently targeted by focal deletions, mutations or chromosomal aberrations. Recent studies have shown that the human genes BTG1 and BTG2 are commonly affected by gene alterations in different B cell malignancies, but their role in normal B cell development has not been established. BTG1 and BTG2 can act as transcriptional cofactors through recruitment of the protein arginine N-methyltransferase PRMT1, which mediates arginine methylation of transcription factors, like RUNX1, and on histone 4 arginine 3 (H4R3). Here we report that Btg1 and Btg2 display unique and overlapping functions during mouse B cell development. We observed a reduction in the fraction of B220+ progenitor cells in the bone marrow compartment of the different knockout animals, ranging from a 10% decrease in the Btg2-/-, 20% in Btg1-/- , and 40% in the Btg1-/-;Btg2-/- mice rel...
In the subventricular zone (SVZ) of the adult brain, the neural stem cells (NSCs) ensure a contin... more In the subventricular zone (SVZ) of the adult brain, the neural stem cells (NSCs) ensure a continuous supply of new neurons to the olfactory bulb (OB), playing a key role in its plasticity and olfactory-related behavior. The activation and expansion of NSCs within the SVZ are finely regulated by environmental and intrinsic factors. Running represents one of the most powerful neurogenic stimuli, although is ineffective in enhancing SVZ neurogenesis. The cell cycle inhibitor p21 is an intrinsic inhibitor of NSCs' expansion through the maintenance of their quiescence and the restrain of neural progenitor proliferation. In this work, we decided to test whether running unveils the intrinsic neurogenic potential of p21-lacking NSCs. To test this hypothesis, we examined the effect of three different paradigms of voluntary running (5, 12, and 21 days) on SVZ neurogenesis of p21 knockout (KO) male mice at two different stages of development, 2 and 12 months of age. In vivo and in vitro data clearly demonstrate that physical activity is consistent with the activation and expansion of NSCs and with the enhancement of SVZ neurogenesis in p21 KO mice. We also found that 12 days of running contribute to the increase in the number of new neurons functionally active within the OB, which associates with an improvement in olfactory performance strictly dependent on adult SVZ neurogenesis, i.e., the odor detection threshold and short-term olfactory memory. These data suggest that in the adult SVZ of p21 KO mice, NSCs retain a high neurogenic potential, triggered by physical activity, with long-term consequences in olfactory-related behavior.
The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where the ... more The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where the production of new neurons from glia-like stem cells continues throughout adult life. It is not clear whether the pool of stem cells is fated to be exhausted or is conserved until old age. We observed that the antiproliferative gene Btg1 maintains the quiescence of stem cells, and its ablation causes an increase of stem/progenitor cells proliferation in neonatal mice followed by progressive loss of proliferation during adulthood. Fluoxetine is an antidepressant, which exerts a powerful neurogenic effect on dentate gyrus progenitor cells, but is ineffective on stem cells. Here we show that adult dentate gyrus stem cells in the Btg1 knockout mice, with reduced self-renewal and proliferative capability, can be reactivated by fluoxetine, which increases their number greatly above the level of control or fluoxetine-treated wild-type mice. The increase of mitotic index above wild-type in Btg1 k...
Highlights We review the correlation between depression/anxiety and adult neurogenesis Focus ... more Highlights We review the correlation between depression/anxiety and adult neurogenesis Focus is on the antidepressant action of two neurogenic stimuli, fluoxetine and running Evidence pros and cons adult neurogenesis in humans and its role in depression The activation of neural stem cells by neurogenic stimuli is analyzed Fluoxetine or running effectiveness against depression in brain diseases and aging 2 ABSTRACT Of wide interest for health is the relation existing between depression, a very common psychological illness, accompanied by anxiety and reduced ability to concentrate, and adult neurogenesis. We will focus on two neurogenic stimuli, fluoxetine and physical exercise, both endowed with the ability to activate adult neurogenesis in the dentate gyrus of the hippocampus, known to be required for learning and memory, and both able to counteract depression. Fluoxetine belongs to the class of selective serotonin reuptake inhibitor (SSRI) antidepressants, which represent the most used pharmacological therapy; physical exercise has also been shown to effectively counteract depression symptoms in rodents as well as in humans. While there is evidence that the antidepressant effect of fluoxetine requires its pro-neurogenic action, exerted by promoting proliferation, differentiation and survival of progenitor cells of the hippocampus, on the other hand fluoxetine exerts also neurogenesis-independent antidepressant effects by influencing the plasticity of the new neurons generated. Similarly, the antidepressant action of running also correlates with an increase of hippocampal neurogenesis and plasticity, although the gene pathways involved are only partially coincident with those of fluoxetine, such as those involved in serotonin metabolism and synapse formation. We further discuss how extra-neurogenic actions are also suggested by the fact that, unlike running, fluoxetine is unable to stimulate neurogenesis during aging, but still displays antidepressant effects. Moreover, in specific conditions, fluoxetine or running activate not only progenitor but also stem cells, which normally are not stimulated; this fact reveals how stem cells have a long-term, hidden ability to self-renew and, more generally, that neurogenesis is subject to complex controls that may play a role in depression, such as the type of neurogenic stimulus or the state of the local niche. Finally, we discuss how fluoxetine or running are effective in counteracting depression originated from stress or neurodegenerative diseases.
Adult neurogenesis occurs throughout life in the dentate gyrus (DG) and the subventricular zone (... more Adult neurogenesis occurs throughout life in the dentate gyrus (DG) and the subventricular zone (SVZ), where glia-like stem cells generate new neurons. Voluntary running is a powerful neurogenic stimulus triggering the proliferation of progenitor cells in the DG but, apparently, not in the SVZ. The antiproliferative gene Btg1 maintains the quiescence of DG and SVZ stem cells. Its ablation causes intense proliferation of DG and SVZ stem/progenitor cells in young mice, followed, during adulthood, by progressive decrease of the proliferative capacity. We have previously observed that running can rescue the deficit of DG Btg1-null neurogenesis. Here, we show that in adult Btg1-null SVZ stem and neuroblast cells, the reduction of proliferation is associated with a longer cell cycle and a more frequent entry into quiescence. Notably, running increases proliferation in Btg1-null SVZ stem cells highly above the levels of sedentary wild-type mice and restores normal values of cell cycle leng...
Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research, 1995
PC4 (pheochromocytoma cell-4) is an immediate early gene related to IFN-gamma, the mRNA of which ... more PC4 (pheochromocytoma cell-4) is an immediate early gene related to IFN-gamma, the mRNA of which is induced during the course of neuronal differentiation by nerve growth factor in the PC12 cell line. Here we report that PC4 mRNA is also expressed in the myoblast C2C12 cell line and is regulated during differentiation; its expression decreases within 6 h from the onset of differentiation, attains a minimum after 12 h, and returns to basal level within 36 h. This transient down-regulation of PC4 expression in C2C12 myoblasts is prevented by transforming growth factor beta, a molecule which inhibits the differentiation of muscle. Sense and antisense PC4 cDNA transfection strategies in C2C12 cells were then used to clarify the role of PC4 in muscle differentiation. While no effect was seen by over-expression of PC4, stable transfectants underexpressing PC4 exhibited a delay in attaining the differentiated phenotype, with an impairment of myogenin and myosin expression. Myogenin was also...
We previously reported that cyclin D3‐null mice display a shift toward the slow, oxidative phenot... more We previously reported that cyclin D3‐null mice display a shift toward the slow, oxidative phenotype in skeletal muscle, improved exercise endurance, and increased energy expenditure. Here, we explored the role of cyclin D3 in the physiologic response of skeletal muscle to external stimuli and in a model of muscle degenerative disease. We show that cyclin D3‐null mice exhibit a further transition from glycolytic to oxidative muscle fiber type in response to voluntary exercise and an improved response to fasting. Since fast glycolytic fibers are known to be more susceptible to degeneration in Duchenne muscular dystrophy (DMD), we examined the effects of cyclin D3 inactivation on skeletal muscle phenotype in the mdx mouse model of DMD. Compared with control mdx mice, cyclin D3‐deficient mdx mice display a higher proportion of slower and more oxidative myofibers, reduced muscle degenerative/regenerative processes, and reduced myofiber size variability, indicating an attenuation of dystrophic histopathology. Furthermore, mdx muscles lacking cyclin D3 exhibit reduced fatigability during repeated electrical stimulations. Notably, cyclin D3‐null mdx mice show enhanced performance during recurrent trials of endurance treadmill exercise, and post‐exercise muscle damage results decreased while the regenerative capacity is boosted. In addition, muscles from exercised cyclin D3‐deficient mdx mice display increased oxidative capacity and increased mRNA expression of genes involved in the regulation of oxidative metabolism and the response to oxidative stress. Altogether, our findings indicate that depletion of cyclin D3 confers benefits to dystrophic muscle, suggesting that cyclin D3 inhibition may represent a promising therapeutic strategy against DMD.
Previous studies demonstrated that opiate inhibition of adenylate cyclase (AC) in striatal membra... more Previous studies demonstrated that opiate inhibition of adenylate cyclase (AC) in striatal membranes is related to an opiate-stimulated GTPase with a low Km. Dopamine (DA) also dose-dependently activates a high affinity GTPase, with a pattern of stimulation and a receptor selectivity (D1 type) similar to those observed in DA activation of striatal AC. Moreover, the DA- and the opiate-sensitive GTPase activities have different sensitivities to agents that affect the inhibition of AC, such as Na+ and N-ethylmaleimide (NEM), or the stimulation, such as cholera toxin (CTX). Thus, the impairment of opiate-dependent inhibition of AC in the absence of Na+ ions or after NEM pretreatment of the membranes is parallel with preferential impairment of the opiate-dependent GTPase. On the contrary, selective blocking by CTX of the DA-dependent GTPase leads to the enhancement of AC stimulation by DA. These results suggest that DA activation of striatal AC is related to a GTPase that is specifically stimulated by DA and is associated with the Ns protein. A distinct Ni protein seems to be responsible for the opiate effect on AC and GTPase.
LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats wer... more LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats were assayed 1 month after streptozotocin injection and compared with values in controls either fed ad libitum or offered a restricted diet. Plasma LH was also assayed after stimulation with exogenous LHRH or naloxone. In diabetic males, the median eminence LHRH content and the plasma LH response to exogenous LHRH were unaltered, pituitary LH was increased, and plasma LH was decreased under basal conditions and after naloxone treatment. In diabetic females, while the median eminence LHRH content and the plasma LH response to exogenous LHRH or naloxone were reduced, pituitary and plasma LH levels were not different. Measurements made in undernourished rats excluded the possibility that the alterations found in diabetic animals were nutrition dependent. In parallel experiments, hypothalami and pituitaries were examined morphologically. In diabetic animals, degenerate axons, mainly of the LHRH type, were found in the arcuate nucleus and median eminence, and LH gonadotrophs were altered and more numerous. Strong differences between control males and females were revealed by morphometry; moreover, diabetic females had higher brain weights and fewer LH gonadotroph changes than diabetic males. These studies indicate that 1) the hypothalamo-pituitary changes that occur early in our streptozotocin-treated rats are unrelated to undernourishment and are possibly caused by insulin deficiency; 2) the LHRH axonal lesions might play a primary pathogenic role in the hypothalamo-pituitary disorder; 3) some anatomical data indicate that the brain and pituitary are less severely affected by diabetes in female than in male animals; and 4) differences between control males and females may account for some of the dissimilarities between the sexes observed under diabetic conditions.
Adult neurogenesis in the dentate gyrus plays a critical role in hippocampus-dependent spatial le... more Adult neurogenesis in the dentate gyrus plays a critical role in hippocampus-dependent spatial learning. It remains unknown, however, how new neurons become functionally integrated into spatial circuits and contribute to hippocampus-mediated forms of learning and memory. To investigate these issues, we used a mouse model in which the differentiation of adult-generated dentate gyrus neurons can be anticipated by conditionally expressing the prodifferentiative gene PC3 (Tis21/BTG2) in nestin-positive progenitor cells. In contrast to previous studies that affected the number of newly generated neurons, this strategy selectively changes their timing of differentiation. New, adultgenerated dentate gyrus progenitors, in which the PC3 transgene was expressed, showed accelerated differentiation and significantly reduced dendritic arborization and spine density. Functionally, this genetic manipulation specifically affected different hippocampus-dependent learning and memory tasks, including contextual fear conditioning, and selectively reduced synaptic plasticity in the dentate gyrus. Morphological and functional analyses of hippocampal neurons at different stages of differentiation, following transgene activation within defined time-windows, revealed that the new, adult-generated neurons up to 3-4 weeks of age are required not only to acquire new spatial information but also to use previously consolidated memories. Thus, the correct unwinding of these key memory functions, which can be an expression of the ability of adult-generated neurons to link subsequent events in memory circuits, is critically dependent on the correct timing of the initial stages of neuron maturation and connection to existing circuits.
Aging is a multi-faceted process caused by the accumulation of cellular damage over time, associa... more Aging is a multi-faceted process caused by the accumulation of cellular damage over time, associated with a gradual reduction of physiological activities in cells and organs. This degeneration results in a reduced ability to adapt to homeostasis perturbations and an increased incidence of illnesses such as cognitive decline, neurodegenerative and cardiovascular diseases, cancer, diabetes, and skeletal muscle pathologies. Key features of aging include a chronic low-grade inflammation state and a decrease of the autophagic process. The Mediterranean diet has been associated with longevity and ability to counteract the onset of age-related disorders. Extra virgin olive oil, a fundamental component of this diet, contains bioactive polyphenolic compounds as hydroxytyrosol (HTyr) and oleuropein (OLE), known for their antioxidant, anti-inflammatory, and neuroprotective properties. This review is focused on brain, skeletal muscle, and gut microbiota, as these systems are known to interact a...
Neuron generation persists throughout life in the hippocampus but is altered in animal models of ... more Neuron generation persists throughout life in the hippocampus but is altered in animal models of neurological and neuropsychiatric diseases, suggesting that disease‐associated decline in cognitive and emotional hippocampal‐dependent behaviours might be functionally linked with dysregulation of postnatal neurogenesis. Depletion of the adult neural stem/progenitor cell (NSPCs) pool and neurogenic decline have been recently described in mice expressing synaptic susceptibility genes associated with autism spectrum disorder (ASDs). To gain further insight into mechanisms regulating neurogenesis in mice carrying mutations in synaptic genes related to monogenic ASDs, we used the R451C Neuroligin3 knock‐in (Nlgn3 KI) mouse, which is characterized by structural brain abnormalities, deficits in synaptic functions and reduced sociability. We show that the number of adult‐born neurons, but not the size of the NSPC pool, was reduced in the ventral dentate gyrus in knock‐in mice. Notably, this ne...
Genetic modifications during development of paediatric groups 3 and 4 medulloblastoma are respons... more Genetic modifications during development of paediatric groups 3 and 4 medulloblastoma are responsible for their highly metastatic properties and poor patient survival rates. PRUNE1 is highly expressed in metastatic medulloblastoma group 3, which is characterized by TGF-β signalling activation, c-MYC amplification, and OTX2 expression. We describe the process of activation of the PRUNE1 signalling pathway that includes its binding to NME1, TGF-β activation, OTX2 upregulation, SNAIL (SNAI1) upregulation, and PTEN inhibition. The newly identified small molecule pyrimido-pyrimidine derivative AA7.1 enhances PRUNE1 degradation, inhibits this activation network, and augments PTEN expression. Both AA7.1 and a competitive permeable peptide that impairs PRUNE1/NME1 complex formation, impair tumour growth and metastatic dissemination in orthotopic xenograft models with a metastatic medulloblastoma group 3 cell line (D425-Med cells). Using whole exome sequencing technology in metastatic medull...
LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats wer... more LHRH (median eminence) and LH (pituitary and plasma) from male and female Sprague-Dawley rats were assayed 1 month after streptozotocin injection and compared with values in controls either fed ad libitum or offered a restricted diet. Plasma LH was also assayed after stimulation with exogenous LHRH or naloxone. In diabetic males, the median eminence LHRH content and the plasma LH response to exogenous LHRH were unaltered, pituitary LH was increased, and plasma LH was decreased under basal conditions and after naloxone treatment. In diabetic females, while the median eminence LHRH content and the plasma LH response to exogenous LHRH or naloxone were reduced, pituitary and plasma LH levels were not different. Measurements made in undernourished rats excluded the possibility that the alterations found in diabetic animals were nutrition dependent. In parallel experiments, hypothalami and pituitaries were examined morphologically. In diabetic animals, degenerate axons, mainly of the LHRH type, were found in the arcuate nucleus and median eminence, and LH gonadotrophs were altered and more numerous. Strong differences between control males and females were revealed by morphometry; moreover, diabetic females had higher brain weights and fewer LH gonadotroph changes than diabetic males. These studies indicate that 1) the hypothalamo-pituitary changes that occur early in our streptozotocin-treated rats are unrelated to undernourishment and are possibly caused by insulin deficiency; 2) the LHRH axonal lesions might play a primary pathogenic role in the hypothalamo-pituitary disorder; 3) some anatomical data indicate that the brain and pituitary are less severely affected by diabetes in female than in male animals; and 4) differences between control males and females may account for some of the dissimilarities between the sexes observed under diabetic conditions.
Porcine BM88 is a neuron-specific protein that enhances neuroblastoma cell differentiation in vit... more Porcine BM88 is a neuron-specific protein that enhances neuroblastoma cell differentiation in vitro and may be involved in neuronal differentiation in vivo. Here we report the identification, by Western blotting, of homologous proteins in human and mouse brain and the isolation of their respective cDNAs. Several human and mouse clones were identified in the EST database using porcine BM88 cDNA as a query. A human and a mouse EST clone were chosen for sequencing and were found both to predict a protein of 149 amino acids, with 79.9% reciprocal identity, and 76.4% and 70.7% identities to the porcine protein, respectively. This indicated that the clones corresponded to the human and mouse BM88homologues. In vitro expression in a cell-free system as well as transient expression in COS7 cells yielded polypeptide products that were recognized by anti-BM88 antibodies and were identical in size to the native BM88 protein. Northern-blot analysis showed a wide distribution of the gene in huma...
We have previously generated a mouse model (Ptch1+/−/Tis21KO), which displays high frequency spon... more We have previously generated a mouse model (Ptch1+/−/Tis21KO), which displays high frequency spontaneous medulloblastoma, a pediatric tumor of the cerebellum. Early postnatal cerebellar granule cell precursors (GCPs) of this model show, in consequence of the deletion of Tis21, a defect of the Cxcl3-dependent migration. We asked whether this migration defect, which forces GCPs to remain in the proliferative area at the cerebellar surface, would be the only inducer of their high frequency transformation. In this report we show, by further bioinformatic analysis of our microarray data of Ptch1+/−/Tis21KO GCPs, that, in addition to the migration defect, they show activation of the PI3K/AKT/mTOR pathway, as the mRNA levels of several activators of this pathway (e.g., Lars, Rraga, Dgkq, Pdgfd) are up-regulated, while some inhibitors (e.g. Smg1) are down-regulated. No such change is observed in the Ptch1+/− or Tis21KO background alone, indicating a peculiar synergy between these two genoty...
The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where neur... more The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where neural stem and progenitor cells replicate throughout life to generate new neurons. The Btg1 gene maintains the stem cells of the neurogenic niches in quiescence. The deletion of Btg1 leads to an early transient increase of stem/progenitor cells division, followed, however, by a decrease during adulthood of their proliferative capability, accompanied by apoptosis. Since a physiological decrease of neurogenesis occurs during aging, the Btg1 knockout mouse may represent a model of neural aging. We have previously observed that the defective neurogenesis of the Btg1 knockout model is rescued by the powerful neurogenic stimulus of physical exercise (running). To identify genes responsible for stem and progenitor cells maintenance, we sought here to find genes underlying this premature neural aging, and whose deregulated expression could be rescued by running. Through RNA sequencing we analyzed t...
The dentate gyrus of the hippocampus is one of two brain areas generating throughout life new neu... more The dentate gyrus of the hippocampus is one of two brain areas generating throughout life new neurons, which contribute to the formation of episodic/associative memories. During aging, the production of new neurons decreases and a cognitive decline occurs. Dietary factors influence neuronal function and synaptic plasticity; among them the phenolic compound hydroxytyrosol (HTyr), present in olive oil, displays neuroprotective effects. As age impacts primarily on the hippocampus‐dependent cognitive processes, we wondered whether HTyr could stimulate hippocampal neurogenesis in vivo in adult and aged wild‐type mice as well as in the B‐cell translocation 1 gene (Btg1) knockout mouse model of accelerated neural aging. We found that treatment with HTyr activates neurogenesis in the dentate gyrus of adult, aged, and Btg1‐null mice, by increasing survival of new neurons and decreasing apoptosis. Notably, however, in the aged and Btg1‐null dentate gyrus, HTyr treatment also stimulates the proliferation of stem and progenitor cells, whereas in the adult dentate gyrus HTyr lacks any proliferative effect. Moreover, the new neurons generated in aged mice after HTyr treatment are recruited to existing circuits, as shown by the increase of BrdU+/c‐fos+ neurons. Finally, HTyr treatment also reduces the markers of aging lipofuscin and Iba1. Overall, our findings indicate that HTyr treatment counteracts neurogenesis decline during aging.
1303 B-cell precursor acute lymphoblastic leukemia (BCP-ALL) is the most common form of cancer in... more 1303 B-cell precursor acute lymphoblastic leukemia (BCP-ALL) is the most common form of cancer in children, characterized by genetic aberrations affecting master regulators of lymphoid differentiation, such as RUNX1, IKZF1, TCF3, and PAX5, as well as tumor suppressor genes that control the cell cycle, including RB1 and CDKN2A. Another gene frequently altered in BCP-ALL is BTG1, which displays highly clustered mono-allelic deletions in childhood BCP-ALL (9%) and adult ALL (6%). The frequency of BTG1 deletions is two- to three-fold higher in ETV6-RUNX1- and BCR-ABL1-positive leukemias. BTG1, and its close homologue BTG2 regulate gene expression, for instance by associating with protein arginine methyltransferase 1 (PRMT1), affecting the activity of a variety of transcription factors, including several nuclear hormone receptors and HoxB9. In addition, BTG1 and BTG2 have been implicated in regulating mRNA stability by interacting with the Ccr4-Not complex. Recent studies have also ident...
In B cell neoplasia, many transcription factors known to be involved in B cell differentiation an... more In B cell neoplasia, many transcription factors known to be involved in B cell differentiation and commitment, like E2A, EBF1 and PAX5, are frequently targeted by focal deletions, mutations or chromosomal aberrations. Recent studies have shown that the human genes BTG1 and BTG2 are commonly affected by gene alterations in different B cell malignancies, but their role in normal B cell development has not been established. BTG1 and BTG2 can act as transcriptional cofactors through recruitment of the protein arginine N-methyltransferase PRMT1, which mediates arginine methylation of transcription factors, like RUNX1, and on histone 4 arginine 3 (H4R3). Here we report that Btg1 and Btg2 display unique and overlapping functions during mouse B cell development. We observed a reduction in the fraction of B220+ progenitor cells in the bone marrow compartment of the different knockout animals, ranging from a 10% decrease in the Btg2-/-, 20% in Btg1-/- , and 40% in the Btg1-/-;Btg2-/- mice rel...
In the subventricular zone (SVZ) of the adult brain, the neural stem cells (NSCs) ensure a contin... more In the subventricular zone (SVZ) of the adult brain, the neural stem cells (NSCs) ensure a continuous supply of new neurons to the olfactory bulb (OB), playing a key role in its plasticity and olfactory-related behavior. The activation and expansion of NSCs within the SVZ are finely regulated by environmental and intrinsic factors. Running represents one of the most powerful neurogenic stimuli, although is ineffective in enhancing SVZ neurogenesis. The cell cycle inhibitor p21 is an intrinsic inhibitor of NSCs' expansion through the maintenance of their quiescence and the restrain of neural progenitor proliferation. In this work, we decided to test whether running unveils the intrinsic neurogenic potential of p21-lacking NSCs. To test this hypothesis, we examined the effect of three different paradigms of voluntary running (5, 12, and 21 days) on SVZ neurogenesis of p21 knockout (KO) male mice at two different stages of development, 2 and 12 months of age. In vivo and in vitro data clearly demonstrate that physical activity is consistent with the activation and expansion of NSCs and with the enhancement of SVZ neurogenesis in p21 KO mice. We also found that 12 days of running contribute to the increase in the number of new neurons functionally active within the OB, which associates with an improvement in olfactory performance strictly dependent on adult SVZ neurogenesis, i.e., the odor detection threshold and short-term olfactory memory. These data suggest that in the adult SVZ of p21 KO mice, NSCs retain a high neurogenic potential, triggered by physical activity, with long-term consequences in olfactory-related behavior.
The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where the ... more The dentate gyrus of the hippocampus and the subventricular zone are neurogenic niches where the production of new neurons from glia-like stem cells continues throughout adult life. It is not clear whether the pool of stem cells is fated to be exhausted or is conserved until old age. We observed that the antiproliferative gene Btg1 maintains the quiescence of stem cells, and its ablation causes an increase of stem/progenitor cells proliferation in neonatal mice followed by progressive loss of proliferation during adulthood. Fluoxetine is an antidepressant, which exerts a powerful neurogenic effect on dentate gyrus progenitor cells, but is ineffective on stem cells. Here we show that adult dentate gyrus stem cells in the Btg1 knockout mice, with reduced self-renewal and proliferative capability, can be reactivated by fluoxetine, which increases their number greatly above the level of control or fluoxetine-treated wild-type mice. The increase of mitotic index above wild-type in Btg1 k...
Highlights We review the correlation between depression/anxiety and adult neurogenesis Focus ... more Highlights We review the correlation between depression/anxiety and adult neurogenesis Focus is on the antidepressant action of two neurogenic stimuli, fluoxetine and running Evidence pros and cons adult neurogenesis in humans and its role in depression The activation of neural stem cells by neurogenic stimuli is analyzed Fluoxetine or running effectiveness against depression in brain diseases and aging 2 ABSTRACT Of wide interest for health is the relation existing between depression, a very common psychological illness, accompanied by anxiety and reduced ability to concentrate, and adult neurogenesis. We will focus on two neurogenic stimuli, fluoxetine and physical exercise, both endowed with the ability to activate adult neurogenesis in the dentate gyrus of the hippocampus, known to be required for learning and memory, and both able to counteract depression. Fluoxetine belongs to the class of selective serotonin reuptake inhibitor (SSRI) antidepressants, which represent the most used pharmacological therapy; physical exercise has also been shown to effectively counteract depression symptoms in rodents as well as in humans. While there is evidence that the antidepressant effect of fluoxetine requires its pro-neurogenic action, exerted by promoting proliferation, differentiation and survival of progenitor cells of the hippocampus, on the other hand fluoxetine exerts also neurogenesis-independent antidepressant effects by influencing the plasticity of the new neurons generated. Similarly, the antidepressant action of running also correlates with an increase of hippocampal neurogenesis and plasticity, although the gene pathways involved are only partially coincident with those of fluoxetine, such as those involved in serotonin metabolism and synapse formation. We further discuss how extra-neurogenic actions are also suggested by the fact that, unlike running, fluoxetine is unable to stimulate neurogenesis during aging, but still displays antidepressant effects. Moreover, in specific conditions, fluoxetine or running activate not only progenitor but also stem cells, which normally are not stimulated; this fact reveals how stem cells have a long-term, hidden ability to self-renew and, more generally, that neurogenesis is subject to complex controls that may play a role in depression, such as the type of neurogenic stimulus or the state of the local niche. Finally, we discuss how fluoxetine or running are effective in counteracting depression originated from stress or neurodegenerative diseases.
Adult neurogenesis occurs throughout life in the dentate gyrus (DG) and the subventricular zone (... more Adult neurogenesis occurs throughout life in the dentate gyrus (DG) and the subventricular zone (SVZ), where glia-like stem cells generate new neurons. Voluntary running is a powerful neurogenic stimulus triggering the proliferation of progenitor cells in the DG but, apparently, not in the SVZ. The antiproliferative gene Btg1 maintains the quiescence of DG and SVZ stem cells. Its ablation causes intense proliferation of DG and SVZ stem/progenitor cells in young mice, followed, during adulthood, by progressive decrease of the proliferative capacity. We have previously observed that running can rescue the deficit of DG Btg1-null neurogenesis. Here, we show that in adult Btg1-null SVZ stem and neuroblast cells, the reduction of proliferation is associated with a longer cell cycle and a more frequent entry into quiescence. Notably, running increases proliferation in Btg1-null SVZ stem cells highly above the levels of sedentary wild-type mice and restores normal values of cell cycle leng...
Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research, 1995
PC4 (pheochromocytoma cell-4) is an immediate early gene related to IFN-gamma, the mRNA of which ... more PC4 (pheochromocytoma cell-4) is an immediate early gene related to IFN-gamma, the mRNA of which is induced during the course of neuronal differentiation by nerve growth factor in the PC12 cell line. Here we report that PC4 mRNA is also expressed in the myoblast C2C12 cell line and is regulated during differentiation; its expression decreases within 6 h from the onset of differentiation, attains a minimum after 12 h, and returns to basal level within 36 h. This transient down-regulation of PC4 expression in C2C12 myoblasts is prevented by transforming growth factor beta, a molecule which inhibits the differentiation of muscle. Sense and antisense PC4 cDNA transfection strategies in C2C12 cells were then used to clarify the role of PC4 in muscle differentiation. While no effect was seen by over-expression of PC4, stable transfectants underexpressing PC4 exhibited a delay in attaining the differentiated phenotype, with an impairment of myogenin and myosin expression. Myogenin was also...
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Papers by Felice Tirone