Indian Journal of Experimental Biology, Nov 1, 2005
Germ cell death and their removal from the seminiferous epithelium are common in the affected tes... more Germ cell death and their removal from the seminiferous epithelium are common in the affected testis in conditions of unilateral ischemia or cryptorchidism; the similarities and differences, however, have not been studied between these two conditions. The present study was designed to examine the severity of the effect on testicular germ cells during the initial stages of both ischemia and cryptorchidism, which have significant implications on the restoration of fertility following surgical repair. Complete absence of spermatids was observed following 12 hr of ischemia as compared to 7 days of cryptorchidism. Germ cell removal in either case was in the direction of lumen to basement membrane leaving only a single layer of cells by 24 hr of unilateral ischemia as compared to 15 days of cryptorchidism. Levels of intratesticular testosterone was found lower in cryptorchidism (7 days) but not in ischemia till 24 hrs. Giant cells frequently observed in cryptorchid testis were absent in the ischemic seminiferous epithelium. There was a gradual increase in the number of apoptotic and non-viable cells; the latter was more than 95% by 24 hr of ischemia. In contrast, approximately 85% testicular cells were nonviable till 15 days of cryptorchidism. The 1c peak representing the population of haploid cells was significantly reduced in cryptorchidism (7 days), while the peak was completely abolished by 24 hr of ischemia. Rise in the levels of oxidative stress in the affected testis was observed identically during the initial stages. These findings indicate that coupled with the rise in tissue oxidative stress, the number of apoptotic/nonviable germ cells was alarmingly high (> 80%) by 15 days of cryptochidism or 24 hr of ischemia. Restoration of complete spermatogenesis following surgical repair may not be possible in such cases because of these acute adverse effects.
The five muscarinic acetylcholine receptors (M1-M5 mAChRs) mediate a very large number of importa... more The five muscarinic acetylcholine receptors (M1-M5 mAChRs) mediate a very large number of important physiological functions (Caulfield, 1993; Caulfield and Birdsall, 1998; Wess, 2004). Because of the lack of small molecule ligands endowed with a high degree of receptor subtype selectivity and the fact that most tissues or cell types express two or more mAChR subtypes, identification of the physiological and pathophysiological roles of the individual mAChR subtypes has proved to be a challenging task. To overcome these difficulties, we recently generated mutant mouse lines deficient in each of the five mAChR genes (M1R-/- mice, M2R-/- mice, M3R-/- mice, etc. [Wess, 2004]). Phenotyping studies showed that each of the five mutant mouse lines displayed characteristic physiological, pharmacological, behavioral, biochemical, or neurochemical deficits (Wess, 2004). This chapter summarizes recent findings dealing with the importance of the M2mAChR for cognitive processes and the roles of the M1 and M3 mAChRs in mediating stimulation of glandular secretion.
Pancreatic muscarinic acetylcholine receptors play an important role in stimulating insulin and g... more Pancreatic muscarinic acetylcholine receptors play an important role in stimulating insulin and glucagon secretion from islet cells. To study the potential role of the M(3) muscarinic receptor subtype in cholinergic stimulation of insulin release, we initially examined the effect of the muscarinic agonist, oxotremorine-M (Oxo-M), on insulin secretion from isolated pancreatic islets prepared from wild-type (WT) and M(3) receptor-deficient mice (M3(+/-) and M3(-/-) mice). At a stimulatory glucose level (16.7 mmol/l), Oxo-M strongly potentiated insulin output from islets of WT mice. Strikingly, this effect was completely abolished in islets from M3(-/-) mice and significantly reduced in islets from M3(+/-) mice. Additional in vitro studies showed that Oxo-M-mediated glucagon release was also virtually abolished in islets from M3(-/-) mice. Consistent with the in vitro data, in vivo studies showed that M3(-/-) mice displayed reduced serum insulin and plasma glucagon levels and a signifi...
The inhibitor of NF-kappaB (IkappaB) kinases (IKK1[alpha] and IKK2[beta]), the catalytic subunits... more The inhibitor of NF-kappaB (IkappaB) kinases (IKK1[alpha] and IKK2[beta]), the catalytic subunits of the IKK complex, phosphorylate IkappaB proteins on serine residues, targeting them for degradation and thus activating the transcription factor NF-kappaB. More recently, IKK2 has been implicated in mediation of insulin resistance caused by obesity, lipid infusion, and TNF-alpha stimulation, since salicylate and aspirin, known inhibitors of IKK activity, can reverse insulin resistance in obese mouse models. To further genetically elucidate the role of IKK2 in obesity-mediated insulin resistance, we have conditionally inactivated the mouse IKK2 gene in adult myocytes by Cre-loxP-mediated recombination in vivo. We have investigated the development of obesity-induced insulin resistance in muscle-specific IKK2 knockout mice and mice exhibiting a 50% reduction of IKK2 expression in every tissue and have found that, after gold thioglucose treatment, wild-type and mutant mice developed obesi...
The muscarinic acetylcholine receptors (mAChRs) comprise a family of five related G protein-coupl... more The muscarinic acetylcholine receptors (mAChRs) comprise a family of five related G protein-coupled receptors (GPCRs) belonging to the α-branch of class A GPCRs 1 . The mAChR family consists of five distinct subtypes, denoted M 1 to M 5 (and encoded by the genes CHRM1 to CHRM5). Three of these receptor subtypes (M 1 , M 3 and M 5 ) have been shown to couple to G proteins of the G q/11 family, whereas the remaining two subtypes (M 2 and M 4 ) preferentially signal through the G i/o family of G proteins 2 . The mAChRs have a central role in human physiology, regulating heart rate, smooth muscle contraction, glandular secretion and many fundamental functions of the central nervous system (CNS) 3 .
Proceedings of the National Academy of Sciences, 2010
Therapeutic strategies that augment insulin release from pancreatic β-cells are considered benefi... more Therapeutic strategies that augment insulin release from pancreatic β-cells are considered beneficial in the treatment of type 2 diabetes. We previously demonstrated that activation of β-cell M 3 muscarinic receptors (M3Rs) greatly promotes glucose-stimulated insulin secretion (GSIS), suggesting that strategies aimed at enhancing signaling through β-cell M3Rs may become therapeutically useful. M3R activation leads to the stimulation of G proteins of the G q family, which are under the inhibitory control of proteins known as regulators of G protein signaling (RGS proteins). At present, it remains unknown whether RGS proteins play a role in regulating insulin release. To address this issue, we initially demonstrated that MIN6 insulinoma cells express functional M3Rs and that RGS4 was by far the most abundant RGS protein expressed by these cells. Strikingly, siRNA-mediated knockdown of RGS4 expression in MIN6 cells greatly enhanced M3R-mediated augmentation of GSIS and calcium release. We obtained similar findings using pancreatic islets prepared from RGS4-deficient mice. Interestingly, RGS4 deficiency had little effect on insulin release caused by activation of other β-cell GPCRs. Finally, treatment of mutant mice selectively lacking RGS4 in pancreatic β-cells with a muscarinic agonist (bethanechol) led to significantly increased plasma insulin and reduced blood glucose levels, as compared to control littermates. Studies with β-cell-specific M3R knockout mice showed that these responses were mediated by β-cell M3Rs. These findings indicate that RGS4 is a potent negative regulator of M3R function in pancreatic β-cells, suggesting that RGS4 may represent a potential target to promote insulin release for therapeutic purposes. knockout mice | muscarinic receptor | RGS proteins | G protein-coupled receptor T ype 2 diabetes (T2D) has emerged as a major threat to human health worldwide. Besides peripheral insulin resistance, T2D is usually associated with β-cell dysfunction (1). Thus, the development of new drugs aimed at improving β-cell function, including stimulation of insulin release, is the focus of many laboratories (2).
One of the hallmarks of type 2 diabetes is that pancreatic beta cells fail to release sufficient ... more One of the hallmarks of type 2 diabetes is that pancreatic beta cells fail to release sufficient amounts of insulin in the presence of elevated blood glucose levels. Insulin secretion is modulated by many hormones and neurotransmitters including acetylcholine, the major neurotransmitter of the peripheral parasympathetic nervous system. The physiological role of muscarinic acetylcholine receptors expressed by pancreatic beta cells remains unclear at present. Here, we demonstrate that mutant mice selectively lacking the M3 muscarinic acetylcholine receptor subtype in pancreatic beta cells display impaired glucose tolerance and greatly reduced insulin release. In contrast, transgenic mice selectively overexpressing M3 receptors in pancreatic beta cells show a profound increase in glucose tolerance and insulin release. Moreover, these mutant mice are resistant to diet-induced glucose intolerance and hyperglycemia. These findings indicate that beta cell M3 muscarinic receptors play a key...
In many parts of Asia measles virus (MV) continues to be endemic. However, little is known about ... more In many parts of Asia measles virus (MV) continues to be endemic. However, little is known about the genetic characteristics of viruses circulating on this continent. This study reports the molecular epidemiological analysis based on the entire nucleocapsid (N) and hemagglutinin (H) genes of the first isolates from Nepal and Taiwan, as well as of recent MV strains from India, Indonesia, and China. Four isolates collected in various regions in Nepal during 1999 belonged to a new genotype, tentatively called D8. Another Nepalese isolate and one from India belonged to genotype D4. The diversity of the Nepalese strains indicated that measles continues to be endemic in this country. The isolate from Taiwan grouped with D3 viruses and one Chinese strain isolated in The Netherlands was assigned to the previously described clade H, known to be endemic in Mainland China. Molecular characterization emerges as an important tool for monitoring virus endemicity and vaccination efforts.
Impaired function of pancreatic β-cells is one of the hallmarks of type 2 diabetes. β-cell functi... more Impaired function of pancreatic β-cells is one of the hallmarks of type 2 diabetes. β-cell function is regulated by the activity of many hormones and neurotransmitters which bind to specific cell surface receptors. The M 3 muscarinic acetylcholine receptor (M3R) belongs to the superfamily of G protein-coupled receptors and, following ligand-dependent activation, selectively activates G proteins of the G q/11 family. Recent studies with M3R mutant mice strongly suggest that β-cell M3Rs play a central role in promoting insulin release and maintaining proper glucose homeostasis. In this review, we highlight recent studies indicating that β-cell M3Rs and components of downstream signaling pathways may represent promising new targets for the treatment of type 2 diabetes.
The central cholinergic system plays a crucial role in synaptic plasticity and spatial attention;... more The central cholinergic system plays a crucial role in synaptic plasticity and spatial attention; however, the roles of the individual cholinergic receptors involved in these activities are not well understood at present. In the present study, we show that acetylcholine (ACh) can facilitate or depress synaptic transmission in occipital slices of mouse visual cortex. The precise nature of the ACh effects depends on the ACh concentration, and is input specific, as shown by stimulating different synaptic pathways. Pharmacological blockade of muscarinic receptor (mAChR) subtypes and the use of M 1 -M 5 mAChR-deficient mice showed that specific mAChR subtypes, together with the activity of the cholinesterases (ChEs), mediate facilitation or depression of synaptic transmission. The present data suggest that local ACh, acting through mAChRs, regulates the cortical dynamics making cortical circuits respond to specific stimuli.
Muscarinic acetylcholine receptors (mAChRs) modulate synaptic function, but whether they influenc... more Muscarinic acetylcholine receptors (mAChRs) modulate synaptic function, but whether they influence synaptic structure remains unknown. At neuromuscular junctions (NMJs), mAChRs have been implicated in compensatory sprouting of axon terminals in paralyzed or denervated muscles. Here we used pharmacological and genetic inhibition and localization studies of mAChR subtypes at mouse NMJs to demonstrate their roles in synaptic stability and growth but not in compensatory sprouting. M(2) mAChRs were present solely in motor neurons, whereas M(1), M(3), and M(5) mAChRs were associated with Schwann cells and/or muscle fibers. Blockade of all five mAChR subtypes with atropine evoked pronounced effects, including terminal sprouting, terminal withdrawal, and muscle fiber atrophy. In contrast, methoctramine, an M(2/4)-preferring antagonist, induced terminal sprouting and terminal withdrawal, but no muscle fiber atrophy. Consistent with this observation, M(2)(-/-) but no other mAChR mutant mice exhibited spontaneous sprouting accompanied by extensive loss of parental terminal arbors. Terminal sprouting, however, seemed not to be the causative defect because partial loss of terminal branches was common even in the M(2)(-/-) NMJs without sprouting. Moreover, compensatory sprouting after paralysis or partial denervation was normal in mice deficient in M(2) or other mAChR subtypes. We also found that many NMJs of M(5)(-/-) mice were exceptionally small and reduced in proportion to the size of parental muscle fibers. These findings show that axon terminals are unstable without M(2) and that muscle fiber growth is defective without M(5). Subtype-specific muscarinic signaling provides a novel means for coordinating activity-dependent development and maintenance of the tripartite synapse.
Proceedings of the National Academy of Sciences, 2009
The molecular pathways that promote the proliferation and maintenance of pituitary somatotrophs a... more The molecular pathways that promote the proliferation and maintenance of pituitary somatotrophs and other cell types of the anterior pituitary gland are not well understood at present. However, such knowledge is likely to lead to the development of novel drugs useful for the treatment of various human growth disorders. Although muscarinic cholinergic pathways have been implicated in regulating somatotroph function, the physiological relevance of this effect and the localization and nature of the receptor subtypes involved in this activity remain unclear. We report the surprising observation that mutant mice that selectively lack the M3 muscarinic acetylcholine receptor subtype in the brain (neurons and glial cells; Br-M3-KO mice) showed a dwarf phenotype associated with a pronounced hypoplasia of the anterior pituitary gland and a marked decrease in pituitary and serum growth hormone (GH) and prolactin. Remarkably, treatment of Br-M3-KO mice with CJC-1295, a synthetic GH-releasing hormone (GHRH) analog, rescued the growth deficit displayed by Br-M3-KO mice by restoring normal pituitary size and normal serum GH and IGF-1 levels. These findings, together with results from M3 receptor/ GHRH colocalization studies and hypothalamic hormone measurements, support a model in which central (hypothalamic) M3 receptors are required for the proper function of hypothalamic GHRH neurons.
| Muscarinic acetylcholine receptors (mAChRs), M 1 -M 5 , regulate the activity of numerous funda... more | Muscarinic acetylcholine receptors (mAChRs), M 1 -M 5 , regulate the activity of numerous fundamental central and peripheral functions. The lack of small-molecule ligands that can block or activate specific mAChR subtypes with high selectivity has remained a major obstacle in defining the roles of the individual receptor subtypes and in the development of novel muscarinic drugs. Recently, phenotypic analysis of mutant mouse strains deficient in each of the five mAChR subtypes has led to a wealth of new information regarding the physiological roles of the individual receptor subtypes. Importantly, these studies have identified specific mAChR-regulated pathways as potentially novel targets for the treatment of various important disorders including Alzheimer's disease, schizophrenia, pain, obesity and diabetes.
Spinal muscarinic acetylcholine receptors (mAChRs) play an important role in the regulation of no... more Spinal muscarinic acetylcholine receptors (mAChRs) play an important role in the regulation of nociception. To determine the role of individual mAChR subtypes in control of synaptic GABA release, spontaneous inhibitory postsynaptic currents (sIPSCs) and miniature IPSCs (mIPSCs) were recorded in lamina II neurons using whole-cell recordings in spinal cord slices of wild-type and mAChR subtype knockout (KO) mice. The mAChR agonist oxotremorine-M (3-10 microM) dose-dependently decreased the frequency of GABAergic sIPSCs and mIPSCs in wild-type mice. However, in the presence of the M2 and M4 subtype-preferring antagonist himbacine, oxotremorine-M caused a large increase in the sIPSC frequency. In M3 KO and M1/M3 double-KO mice, oxotremorine-M produced a consistent decrease in the frequency of sIPSCs, and this effect was abolished by himbacine. We were surprised to find that in M2/M4 double-KO mice, oxotremorine-M consistently increased the frequency of sIPSCs and mIPSCs in all neurons tested, and this effect was completely abolished by 4-diphenylacetoxy-N-methylpiperidine methiodide, an M3 subtype-preferring antagonist. In M2 or M4 single-KO mice, oxotremorine-M produced a variable effect on sIPSCs; it increased the frequency of sIPSCs in some cells but decreased the sIPSC frequency in other neurons. Taken together, these data strongly suggest that activation of the M3 subtype increases synaptic GABA release in the spinal dorsal horn of mice. In contrast, stimulation of presynaptic M2 and M4 subtypes predominantly attenuates GABAergic inputs to dorsal horn neurons in mice, an action that is opposite to the role of M2 and M4 subtypes in the spinal cord of rats.
Identification of the specific muscarinic acetylcholine receptor (mAChR) subtypes mediating stimu... more Identification of the specific muscarinic acetylcholine receptor (mAChR) subtypes mediating stimulation of salivary secretion is of considerable clinical interest. Recent pharmacological and molecular genetic studies have yielded somewhat confusing and partially contradictory results regarding the involvement of individual mAChRs in this activity. In the present study, we re-examined the roles of M(1) and M(3) mAChRs in muscarinic agonist-mediated stimulation of salivary secretion by using M(1) and M(3) receptor single-knockout (KO) mice and newly generated M(1)/M(3) receptor double-KO mice. When applied at a low dose (1 mg/kg, s.c.), the muscarinic agonist pilocarpine showed significantly reduced secretory activity in both M(1) and M(3) receptor single-KO mice. However, when applied at higher doses, pilocarpine induced only modestly reduced (5 mg/kg, s.c.) or unchanged (15 mg/kg, s.c.) salivation responses, respectively, in M(1) and M(3) receptor single-KO mice, indicating that the presence of either M(1) or M(3) receptors is sufficient to mediate robust salivary output. Quantitative reverse transcriptase-polymerase chain reaction studies with salivary gland tissue showed that the inactivation of the M(1) or M(3) mAChR genes did not lead to significantly altered mRNA levels of the remaining mAChR subtypes. Strikingly, the sialagogue activity of pilocarpine was abolished in M(1)/M(3) receptor double-KO mice. However, salivary glands from M(1)/M(3) receptor double-KO mice remained responsive to stimulation by the beta-adrenergic receptor agonist, (S)-isoproterenol. Taken together these studies support the concept that a mixture of M(1) and M(3) receptors mediates cholinergic stimulation of salivary flow.
In the present report, we focused our attention on the role played by the muscarinic acetylcholin... more In the present report, we focused our attention on the role played by the muscarinic acetylcholine receptors (mAChRs) in different forms of long-term synaptic plasticity. Specifically, we investigated long-term potentiation (LTP) and long-term depression (LTD) expression elicited by theta-burst stimulation (TBS) and low-frequency stimulation (LFS), respectively, in visual cortical slices obtained from different mAChR knockout (KO) mice. A normal LTP was evoked in M 1 /M 3 double KO mice, while LTP was impaired in the M 2 /M 4 double KO animals. On the other hand, LFS induced LTD in M 2 /M 4 double KO mice, but failed to do so in M 1 /M 3 KO mice.
Indian Journal of Experimental Biology, Nov 1, 2005
Germ cell death and their removal from the seminiferous epithelium are common in the affected tes... more Germ cell death and their removal from the seminiferous epithelium are common in the affected testis in conditions of unilateral ischemia or cryptorchidism; the similarities and differences, however, have not been studied between these two conditions. The present study was designed to examine the severity of the effect on testicular germ cells during the initial stages of both ischemia and cryptorchidism, which have significant implications on the restoration of fertility following surgical repair. Complete absence of spermatids was observed following 12 hr of ischemia as compared to 7 days of cryptorchidism. Germ cell removal in either case was in the direction of lumen to basement membrane leaving only a single layer of cells by 24 hr of unilateral ischemia as compared to 15 days of cryptorchidism. Levels of intratesticular testosterone was found lower in cryptorchidism (7 days) but not in ischemia till 24 hrs. Giant cells frequently observed in cryptorchid testis were absent in the ischemic seminiferous epithelium. There was a gradual increase in the number of apoptotic and non-viable cells; the latter was more than 95% by 24 hr of ischemia. In contrast, approximately 85% testicular cells were nonviable till 15 days of cryptorchidism. The 1c peak representing the population of haploid cells was significantly reduced in cryptorchidism (7 days), while the peak was completely abolished by 24 hr of ischemia. Rise in the levels of oxidative stress in the affected testis was observed identically during the initial stages. These findings indicate that coupled with the rise in tissue oxidative stress, the number of apoptotic/nonviable germ cells was alarmingly high (> 80%) by 15 days of cryptochidism or 24 hr of ischemia. Restoration of complete spermatogenesis following surgical repair may not be possible in such cases because of these acute adverse effects.
The five muscarinic acetylcholine receptors (M1-M5 mAChRs) mediate a very large number of importa... more The five muscarinic acetylcholine receptors (M1-M5 mAChRs) mediate a very large number of important physiological functions (Caulfield, 1993; Caulfield and Birdsall, 1998; Wess, 2004). Because of the lack of small molecule ligands endowed with a high degree of receptor subtype selectivity and the fact that most tissues or cell types express two or more mAChR subtypes, identification of the physiological and pathophysiological roles of the individual mAChR subtypes has proved to be a challenging task. To overcome these difficulties, we recently generated mutant mouse lines deficient in each of the five mAChR genes (M1R-/- mice, M2R-/- mice, M3R-/- mice, etc. [Wess, 2004]). Phenotyping studies showed that each of the five mutant mouse lines displayed characteristic physiological, pharmacological, behavioral, biochemical, or neurochemical deficits (Wess, 2004). This chapter summarizes recent findings dealing with the importance of the M2mAChR for cognitive processes and the roles of the M1 and M3 mAChRs in mediating stimulation of glandular secretion.
Pancreatic muscarinic acetylcholine receptors play an important role in stimulating insulin and g... more Pancreatic muscarinic acetylcholine receptors play an important role in stimulating insulin and glucagon secretion from islet cells. To study the potential role of the M(3) muscarinic receptor subtype in cholinergic stimulation of insulin release, we initially examined the effect of the muscarinic agonist, oxotremorine-M (Oxo-M), on insulin secretion from isolated pancreatic islets prepared from wild-type (WT) and M(3) receptor-deficient mice (M3(+/-) and M3(-/-) mice). At a stimulatory glucose level (16.7 mmol/l), Oxo-M strongly potentiated insulin output from islets of WT mice. Strikingly, this effect was completely abolished in islets from M3(-/-) mice and significantly reduced in islets from M3(+/-) mice. Additional in vitro studies showed that Oxo-M-mediated glucagon release was also virtually abolished in islets from M3(-/-) mice. Consistent with the in vitro data, in vivo studies showed that M3(-/-) mice displayed reduced serum insulin and plasma glucagon levels and a signifi...
The inhibitor of NF-kappaB (IkappaB) kinases (IKK1[alpha] and IKK2[beta]), the catalytic subunits... more The inhibitor of NF-kappaB (IkappaB) kinases (IKK1[alpha] and IKK2[beta]), the catalytic subunits of the IKK complex, phosphorylate IkappaB proteins on serine residues, targeting them for degradation and thus activating the transcription factor NF-kappaB. More recently, IKK2 has been implicated in mediation of insulin resistance caused by obesity, lipid infusion, and TNF-alpha stimulation, since salicylate and aspirin, known inhibitors of IKK activity, can reverse insulin resistance in obese mouse models. To further genetically elucidate the role of IKK2 in obesity-mediated insulin resistance, we have conditionally inactivated the mouse IKK2 gene in adult myocytes by Cre-loxP-mediated recombination in vivo. We have investigated the development of obesity-induced insulin resistance in muscle-specific IKK2 knockout mice and mice exhibiting a 50% reduction of IKK2 expression in every tissue and have found that, after gold thioglucose treatment, wild-type and mutant mice developed obesi...
The muscarinic acetylcholine receptors (mAChRs) comprise a family of five related G protein-coupl... more The muscarinic acetylcholine receptors (mAChRs) comprise a family of five related G protein-coupled receptors (GPCRs) belonging to the α-branch of class A GPCRs 1 . The mAChR family consists of five distinct subtypes, denoted M 1 to M 5 (and encoded by the genes CHRM1 to CHRM5). Three of these receptor subtypes (M 1 , M 3 and M 5 ) have been shown to couple to G proteins of the G q/11 family, whereas the remaining two subtypes (M 2 and M 4 ) preferentially signal through the G i/o family of G proteins 2 . The mAChRs have a central role in human physiology, regulating heart rate, smooth muscle contraction, glandular secretion and many fundamental functions of the central nervous system (CNS) 3 .
Proceedings of the National Academy of Sciences, 2010
Therapeutic strategies that augment insulin release from pancreatic β-cells are considered benefi... more Therapeutic strategies that augment insulin release from pancreatic β-cells are considered beneficial in the treatment of type 2 diabetes. We previously demonstrated that activation of β-cell M 3 muscarinic receptors (M3Rs) greatly promotes glucose-stimulated insulin secretion (GSIS), suggesting that strategies aimed at enhancing signaling through β-cell M3Rs may become therapeutically useful. M3R activation leads to the stimulation of G proteins of the G q family, which are under the inhibitory control of proteins known as regulators of G protein signaling (RGS proteins). At present, it remains unknown whether RGS proteins play a role in regulating insulin release. To address this issue, we initially demonstrated that MIN6 insulinoma cells express functional M3Rs and that RGS4 was by far the most abundant RGS protein expressed by these cells. Strikingly, siRNA-mediated knockdown of RGS4 expression in MIN6 cells greatly enhanced M3R-mediated augmentation of GSIS and calcium release. We obtained similar findings using pancreatic islets prepared from RGS4-deficient mice. Interestingly, RGS4 deficiency had little effect on insulin release caused by activation of other β-cell GPCRs. Finally, treatment of mutant mice selectively lacking RGS4 in pancreatic β-cells with a muscarinic agonist (bethanechol) led to significantly increased plasma insulin and reduced blood glucose levels, as compared to control littermates. Studies with β-cell-specific M3R knockout mice showed that these responses were mediated by β-cell M3Rs. These findings indicate that RGS4 is a potent negative regulator of M3R function in pancreatic β-cells, suggesting that RGS4 may represent a potential target to promote insulin release for therapeutic purposes. knockout mice | muscarinic receptor | RGS proteins | G protein-coupled receptor T ype 2 diabetes (T2D) has emerged as a major threat to human health worldwide. Besides peripheral insulin resistance, T2D is usually associated with β-cell dysfunction (1). Thus, the development of new drugs aimed at improving β-cell function, including stimulation of insulin release, is the focus of many laboratories (2).
One of the hallmarks of type 2 diabetes is that pancreatic beta cells fail to release sufficient ... more One of the hallmarks of type 2 diabetes is that pancreatic beta cells fail to release sufficient amounts of insulin in the presence of elevated blood glucose levels. Insulin secretion is modulated by many hormones and neurotransmitters including acetylcholine, the major neurotransmitter of the peripheral parasympathetic nervous system. The physiological role of muscarinic acetylcholine receptors expressed by pancreatic beta cells remains unclear at present. Here, we demonstrate that mutant mice selectively lacking the M3 muscarinic acetylcholine receptor subtype in pancreatic beta cells display impaired glucose tolerance and greatly reduced insulin release. In contrast, transgenic mice selectively overexpressing M3 receptors in pancreatic beta cells show a profound increase in glucose tolerance and insulin release. Moreover, these mutant mice are resistant to diet-induced glucose intolerance and hyperglycemia. These findings indicate that beta cell M3 muscarinic receptors play a key...
In many parts of Asia measles virus (MV) continues to be endemic. However, little is known about ... more In many parts of Asia measles virus (MV) continues to be endemic. However, little is known about the genetic characteristics of viruses circulating on this continent. This study reports the molecular epidemiological analysis based on the entire nucleocapsid (N) and hemagglutinin (H) genes of the first isolates from Nepal and Taiwan, as well as of recent MV strains from India, Indonesia, and China. Four isolates collected in various regions in Nepal during 1999 belonged to a new genotype, tentatively called D8. Another Nepalese isolate and one from India belonged to genotype D4. The diversity of the Nepalese strains indicated that measles continues to be endemic in this country. The isolate from Taiwan grouped with D3 viruses and one Chinese strain isolated in The Netherlands was assigned to the previously described clade H, known to be endemic in Mainland China. Molecular characterization emerges as an important tool for monitoring virus endemicity and vaccination efforts.
Impaired function of pancreatic β-cells is one of the hallmarks of type 2 diabetes. β-cell functi... more Impaired function of pancreatic β-cells is one of the hallmarks of type 2 diabetes. β-cell function is regulated by the activity of many hormones and neurotransmitters which bind to specific cell surface receptors. The M 3 muscarinic acetylcholine receptor (M3R) belongs to the superfamily of G protein-coupled receptors and, following ligand-dependent activation, selectively activates G proteins of the G q/11 family. Recent studies with M3R mutant mice strongly suggest that β-cell M3Rs play a central role in promoting insulin release and maintaining proper glucose homeostasis. In this review, we highlight recent studies indicating that β-cell M3Rs and components of downstream signaling pathways may represent promising new targets for the treatment of type 2 diabetes.
The central cholinergic system plays a crucial role in synaptic plasticity and spatial attention;... more The central cholinergic system plays a crucial role in synaptic plasticity and spatial attention; however, the roles of the individual cholinergic receptors involved in these activities are not well understood at present. In the present study, we show that acetylcholine (ACh) can facilitate or depress synaptic transmission in occipital slices of mouse visual cortex. The precise nature of the ACh effects depends on the ACh concentration, and is input specific, as shown by stimulating different synaptic pathways. Pharmacological blockade of muscarinic receptor (mAChR) subtypes and the use of M 1 -M 5 mAChR-deficient mice showed that specific mAChR subtypes, together with the activity of the cholinesterases (ChEs), mediate facilitation or depression of synaptic transmission. The present data suggest that local ACh, acting through mAChRs, regulates the cortical dynamics making cortical circuits respond to specific stimuli.
Muscarinic acetylcholine receptors (mAChRs) modulate synaptic function, but whether they influenc... more Muscarinic acetylcholine receptors (mAChRs) modulate synaptic function, but whether they influence synaptic structure remains unknown. At neuromuscular junctions (NMJs), mAChRs have been implicated in compensatory sprouting of axon terminals in paralyzed or denervated muscles. Here we used pharmacological and genetic inhibition and localization studies of mAChR subtypes at mouse NMJs to demonstrate their roles in synaptic stability and growth but not in compensatory sprouting. M(2) mAChRs were present solely in motor neurons, whereas M(1), M(3), and M(5) mAChRs were associated with Schwann cells and/or muscle fibers. Blockade of all five mAChR subtypes with atropine evoked pronounced effects, including terminal sprouting, terminal withdrawal, and muscle fiber atrophy. In contrast, methoctramine, an M(2/4)-preferring antagonist, induced terminal sprouting and terminal withdrawal, but no muscle fiber atrophy. Consistent with this observation, M(2)(-/-) but no other mAChR mutant mice exhibited spontaneous sprouting accompanied by extensive loss of parental terminal arbors. Terminal sprouting, however, seemed not to be the causative defect because partial loss of terminal branches was common even in the M(2)(-/-) NMJs without sprouting. Moreover, compensatory sprouting after paralysis or partial denervation was normal in mice deficient in M(2) or other mAChR subtypes. We also found that many NMJs of M(5)(-/-) mice were exceptionally small and reduced in proportion to the size of parental muscle fibers. These findings show that axon terminals are unstable without M(2) and that muscle fiber growth is defective without M(5). Subtype-specific muscarinic signaling provides a novel means for coordinating activity-dependent development and maintenance of the tripartite synapse.
Proceedings of the National Academy of Sciences, 2009
The molecular pathways that promote the proliferation and maintenance of pituitary somatotrophs a... more The molecular pathways that promote the proliferation and maintenance of pituitary somatotrophs and other cell types of the anterior pituitary gland are not well understood at present. However, such knowledge is likely to lead to the development of novel drugs useful for the treatment of various human growth disorders. Although muscarinic cholinergic pathways have been implicated in regulating somatotroph function, the physiological relevance of this effect and the localization and nature of the receptor subtypes involved in this activity remain unclear. We report the surprising observation that mutant mice that selectively lack the M3 muscarinic acetylcholine receptor subtype in the brain (neurons and glial cells; Br-M3-KO mice) showed a dwarf phenotype associated with a pronounced hypoplasia of the anterior pituitary gland and a marked decrease in pituitary and serum growth hormone (GH) and prolactin. Remarkably, treatment of Br-M3-KO mice with CJC-1295, a synthetic GH-releasing hormone (GHRH) analog, rescued the growth deficit displayed by Br-M3-KO mice by restoring normal pituitary size and normal serum GH and IGF-1 levels. These findings, together with results from M3 receptor/ GHRH colocalization studies and hypothalamic hormone measurements, support a model in which central (hypothalamic) M3 receptors are required for the proper function of hypothalamic GHRH neurons.
| Muscarinic acetylcholine receptors (mAChRs), M 1 -M 5 , regulate the activity of numerous funda... more | Muscarinic acetylcholine receptors (mAChRs), M 1 -M 5 , regulate the activity of numerous fundamental central and peripheral functions. The lack of small-molecule ligands that can block or activate specific mAChR subtypes with high selectivity has remained a major obstacle in defining the roles of the individual receptor subtypes and in the development of novel muscarinic drugs. Recently, phenotypic analysis of mutant mouse strains deficient in each of the five mAChR subtypes has led to a wealth of new information regarding the physiological roles of the individual receptor subtypes. Importantly, these studies have identified specific mAChR-regulated pathways as potentially novel targets for the treatment of various important disorders including Alzheimer's disease, schizophrenia, pain, obesity and diabetes.
Spinal muscarinic acetylcholine receptors (mAChRs) play an important role in the regulation of no... more Spinal muscarinic acetylcholine receptors (mAChRs) play an important role in the regulation of nociception. To determine the role of individual mAChR subtypes in control of synaptic GABA release, spontaneous inhibitory postsynaptic currents (sIPSCs) and miniature IPSCs (mIPSCs) were recorded in lamina II neurons using whole-cell recordings in spinal cord slices of wild-type and mAChR subtype knockout (KO) mice. The mAChR agonist oxotremorine-M (3-10 microM) dose-dependently decreased the frequency of GABAergic sIPSCs and mIPSCs in wild-type mice. However, in the presence of the M2 and M4 subtype-preferring antagonist himbacine, oxotremorine-M caused a large increase in the sIPSC frequency. In M3 KO and M1/M3 double-KO mice, oxotremorine-M produced a consistent decrease in the frequency of sIPSCs, and this effect was abolished by himbacine. We were surprised to find that in M2/M4 double-KO mice, oxotremorine-M consistently increased the frequency of sIPSCs and mIPSCs in all neurons tested, and this effect was completely abolished by 4-diphenylacetoxy-N-methylpiperidine methiodide, an M3 subtype-preferring antagonist. In M2 or M4 single-KO mice, oxotremorine-M produced a variable effect on sIPSCs; it increased the frequency of sIPSCs in some cells but decreased the sIPSC frequency in other neurons. Taken together, these data strongly suggest that activation of the M3 subtype increases synaptic GABA release in the spinal dorsal horn of mice. In contrast, stimulation of presynaptic M2 and M4 subtypes predominantly attenuates GABAergic inputs to dorsal horn neurons in mice, an action that is opposite to the role of M2 and M4 subtypes in the spinal cord of rats.
Identification of the specific muscarinic acetylcholine receptor (mAChR) subtypes mediating stimu... more Identification of the specific muscarinic acetylcholine receptor (mAChR) subtypes mediating stimulation of salivary secretion is of considerable clinical interest. Recent pharmacological and molecular genetic studies have yielded somewhat confusing and partially contradictory results regarding the involvement of individual mAChRs in this activity. In the present study, we re-examined the roles of M(1) and M(3) mAChRs in muscarinic agonist-mediated stimulation of salivary secretion by using M(1) and M(3) receptor single-knockout (KO) mice and newly generated M(1)/M(3) receptor double-KO mice. When applied at a low dose (1 mg/kg, s.c.), the muscarinic agonist pilocarpine showed significantly reduced secretory activity in both M(1) and M(3) receptor single-KO mice. However, when applied at higher doses, pilocarpine induced only modestly reduced (5 mg/kg, s.c.) or unchanged (15 mg/kg, s.c.) salivation responses, respectively, in M(1) and M(3) receptor single-KO mice, indicating that the presence of either M(1) or M(3) receptors is sufficient to mediate robust salivary output. Quantitative reverse transcriptase-polymerase chain reaction studies with salivary gland tissue showed that the inactivation of the M(1) or M(3) mAChR genes did not lead to significantly altered mRNA levels of the remaining mAChR subtypes. Strikingly, the sialagogue activity of pilocarpine was abolished in M(1)/M(3) receptor double-KO mice. However, salivary glands from M(1)/M(3) receptor double-KO mice remained responsive to stimulation by the beta-adrenergic receptor agonist, (S)-isoproterenol. Taken together these studies support the concept that a mixture of M(1) and M(3) receptors mediates cholinergic stimulation of salivary flow.
In the present report, we focused our attention on the role played by the muscarinic acetylcholin... more In the present report, we focused our attention on the role played by the muscarinic acetylcholine receptors (mAChRs) in different forms of long-term synaptic plasticity. Specifically, we investigated long-term potentiation (LTP) and long-term depression (LTD) expression elicited by theta-burst stimulation (TBS) and low-frequency stimulation (LFS), respectively, in visual cortical slices obtained from different mAChR knockout (KO) mice. A normal LTP was evoked in M 1 /M 3 double KO mice, while LTP was impaired in the M 2 /M 4 double KO animals. On the other hand, LFS induced LTD in M 2 /M 4 double KO mice, but failed to do so in M 1 /M 3 KO mice.
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Papers by Dinesh Gautam