Ming Yang scite author profile

Melatonin receptors are members of the G protein-coupled receptor (GPCR) family. Three genes for melatonin receptors have been cloned. The MT1 (or Mel1a or MTNR1A) and MT2 (or Mel1b or MTNR1B) receptor subtypes are present in humans and other mammals, while an additional melatonin receptor subtype, Mel1c (or MTNR1C), has been identified in fish, amphibians and birds. Another melatonin related orphan receptor, GPR50, which does not bind melatonin, is found exclusively in mammals. The hormone melatonin is secreted primarily by the pineal gland, with highest levels occurring during the dark period of a circadian cycle. This hormone acts systemically in numerous organs. In the brain, it is involved in the regulation of various neural and endocrine processes, and it readjusts the circadian pacemaker, the suprachiasmatic nucleus. This article reviews recent studies of gene organization, expression, evolution and mutations of melatonin receptor genes of vertebrates. Gene polymorphisms reveal that numerous mutations are associated with diseases and disorders. The phylogenetic analysis of receptor genes indicates that GPR50 is an outgroup to all other melatonin receptor sequences. GPR50 may have separated from a melatonin receptor ancestor before the split between MTNR1C and the MTNR1A/B ancestor.

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Early development of the Drosophila mushroom bodies, brain centres for associative learning and memory

Tettamanti

Armstrong

Endo

et al. 1997

Development Genes and Evolution

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We have studied the formation of Drosophila mushroom bodies using enhancer detector techniques to visualize specific components of these complex intrinsic brain structures. During embryogenesis, neuronal proliferation begins in four mushroom body neuroblasts and the major axonal pathways of the mushroom bodies are pioneered. During larval development, neuronal proliferation continues and further axonal projections in the pedunculus and lobes are formed in a highly structured manner characterized by spatial heterogeneity of reporter gene expression. Enhancer detector analysis identifies many genomic locations that are specifically activated in mushroom body intrinsic neurons (Kenyon cells) during the transition from embryonic to postembryonic development and during metamorphosis.

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Extracellular Signal-Regulated Kinase 1/2 Activation by Myometrial Oxytocin Receptor Involves GαqGβγ and Epidermal Growth Factor Receptor Tyrosine Kinase Activation

Zhong¹,

Yang²,

Sanborn³

2003

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The mechanisms by which oxytocin (OT) stimulates extracellular signal-regulated kinase 1/2 (ERK1/2) are only partially understood. OT receptor (OTR) signals predominantly through Galpha(q), but ERK1/2 phosphorylation (ERK1/2-P) in PHM1 myometrial cells was not eliminated by inhibition of downstream effectors such as phospholipase C or protein kinase C. Inconsistent with a Galpha(i)-coupled response, pertussis toxin inhibition of OT-induced ERK1/2-P was reversed by the protein kinase A inhibitors Rp-cAMPS and KT5720. Consistent with an inhibitory role for protein kinase A, pertussis toxin pretreatment raised cellular cAMP and 8-(4-chlorophenylthio)-cAMP inhibited OT-induced ERK1/2-P. Attenuation of the OT response by the Gbetagamma scavenger carboxyl terminus of the beta-adrenergic receptor kinase implicated a Gbetagamma-mediated pathway. In both COSM6 cells overexpressing OTR (OTR-COSM6) and in PHM1 cells, the epidermal growth factor receptor (EGFR) tyrosine kinase inhibitor AG1478 markedly reduced OT-induced ERK1/2-P, whereas the platelet-derived growth factor receptor tyrosine kinase inhibitor AG1296 had no effect. Furthermore, OT increased EGFR tyrosine phosphorylation in OTR-COSM6 cells, which was inhibited by AG1478 or EGTA plus thapsigargin pretreatment. AG1478 did not affect inositol 1,4,5-triphosphate production by OT or protein kinase C-stimulated ERK1/2-P but completely blocked ionomycin-induced ERK1/2-P and EGFR tyrosine phosphorylation. In both OTR-COSM6 and PHM1 cells, EGTA reduced OT-stimulated ERK1/2-P; no ERK1/2-P was observed when intracellular calcium increases were blocked by pretreatment with thapsigargin plus EGTA. These data are consistent with activation of a Gbetagamma-mediated pathway as a consequence of Galpha(q) activation in myometrium and OTR-COSM6 cells that results in increased ERK1/2-P. This pathway involves both EGFR activation and an influence of calcium.

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Multiple Trp Isoforms Implicated in Capacitative Calcium Entry Are Expressed in Human Pregnant Myometrium and Myometrial Cells1

Yang¹,

Gupta²,

Шлыков³

et al. 2002

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Capacitative Ca2+ entry plays a role in thapsigargin- and oxytocin-mediated increases in intracellular free Ca2+ in human myometrium. Members of the Trp protein family have been implicated in capacitative Ca2+ entry in a number of tissues. Pregnant human myometrium and the human myometrial cell line PHM1-41 expressed mRNA for hTrp1, hTrp3, hTrp4, hTrp6, and hTrp7. A number of known splice variants of hTrp1 and hTrp4 were expressed in these cells. In addition, novel splice variants for hTrp1 and hTrp3 were discovered. hTrp1gamma1 and hTrp1gamma2 contain insertions between previously described exons 9 and 10 that would alter reading frame and produce Trp proteins truncated in the membrane spanning region if expressed. The hTrp3 variant introduces sequence between exons 8 and 9 that would insert 16 amino acids in the C-terminal region of the protein upstream of the calmodulin and inositol 1,4,5-triphosphate receptor interaction domain. hTrp1, hTrp3, and hTrp4 proteins were detected in both pregnant human myometrial and PHM1-41 membranes; a weak band consistent with hTrp6 expression was detected in pregnant human myometrium. These data are consistent with the presence of proteins that could form putative capacitative Ca2+ channels in human myometrium. Control of the activity of these channels may be important for the control of uterine contractile activity.

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Capacitative Cation Entry in Human Myometrial Cells and Augmentation by hTrpC3 Overexpression1

Шлыков¹,

Yang²,

Alcorn³

et al. 2003

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Transient receptor potential (Trp) channels have been implicated in mediating store- and receptor-activated Ca2+ influx. Different properties of this influx in various cell types may stem from the assembly of these Trp proteins into homo- or heterotetramers or association with other regulatory proteins. We examined the properties of endogenous capacitative Ca2+ entry in PHM1 immortalized human myometrial cells that express endogenous hTrpCs 1, 3, 4, 6, and 7 mRNA and in primary human myocytes. In PHM1 cells, activation of the oxytocin receptor or depletion of intracellular Ca2+ stores with the endoplasmic reticulum calcium pump-inhibitor thapsigargin induced capacitative Ca2+ entry, which was inhibited both by SKF 96365 and gadolinium (Gd3+). Whereas unstimulated cells did not exhibit Sr2+ entry, oxytocin and thapsigargin enhanced Sr2+ entry that was also inhibited by SKF 96365 and Gd3+. In contrast, Ba2+, a poor substrate for Ca2+ pumps, accumulated in these cells in the absence of the capacitative entry stimulus and also after oxytocin and thapsigargin treatment. Both types of entry were markedly decreased by SKF 96365 and Gd3+. The membrane-permeant derivative of diacylglycerol, 1-oleoyl-2-acetyl-sn-glycerol (OAG), elicited oscillatory increases in PHM1 intracellular Ca2+ that were dependent on extracellular Ca2+. These properties were also observed in primary human myocytes. Overexpression of hTrpC3 in PHM1 cells enhanced thapsigargin-, oxytocin-, and OAG-induced Ca2+ entry. These data are consistent with the expression of endogenous hTrpC activity in myometrium. Capacitative Ca2+ entry can potentially contribute to Ca2+ dynamics controlling uterine smooth muscle contractile activity.

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Ming Yang

Melatonin Receptor Genes in Vertebrates

Early development of the Drosophila mushroom bodies, brain centres for associative learning and memory

Extracellular Signal-Regulated Kinase 1/2 Activation by Myometrial Oxytocin Receptor Involves GαqGβγ and Epidermal Growth Factor Receptor Tyrosine Kinase Activation

Multiple Trp Isoforms Implicated in Capacitative Calcium Entry Are Expressed in Human Pregnant Myometrium and Myometrial Cells1

Capacitative Cation Entry in Human Myometrial Cells and Augmentation by hTrpC3 Overexpression1

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