<i>Caenorhabditis elegans</i>TRPV ion channel regulates 5HT biosynthesis in chemosensory neurons

Zhang, Shenyuan; Sokolchik, Irina; Blanco, Gabriela; Sze, Ji Ying

doi:10.1242/dev.01047

Cited by 70 publications

(116 citation statements)

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“…The reasons for this discrepancy are not understood. Related to this study, it was recently reported that TRPV2 could rescue one particular deficit of the ocr-2 mutant, namely the dramatic downregulation of serotonin biosynthesis in the sensory ADF neuron, but mammalian TRPV2, unlike TRPV4 directing behavior in osm-9, did not complement the lack of the osmotic avoidance reaction of ocr-2 (Zhang et al 2004, Sokolchik et al 2005. However, common to these two investigations is the conservation of TRPV signaling across phyla that have separated for several hundred million years of molecular evolution, despite low sequence homology.…”

Section: Mammalian Trpv4 Directs Osmotic Avoidance Behavior In C Elementioning

confidence: 66%

Transient receptor potential vanilloid channels functioning in transduction of osmotic stimuli

Liedtke¹

2006

Journal of Endocrinology

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In signal transduction of metazoan cells, ion channels of the family of transient receptor potential (TRP) have been identified to respond to diverse external and internal stimuli, amongst them osmotic stimuli. This review will highlight findings on the TRPV subfamily, both vertebrate and invertebrate members. Out of the six mammalian TRP vanilloid (TRPV) channels, TRPV1, TRPV2, and TRPV4 were demonstrated to function in transduction of osmotic stimuli. TRPV channels have been found to function in cellular as well as systemic osmotic homeostasis in vertebrates. Invertebrate TRPV channels, five in Caenorhabditis elegans and two in Drosophila, have been shown to play a role in mechanosensation, such as hearing and proprioception in Drosophila and nose touch in C. elegans, and in the response to osmotic stimuli in C. elegans. In a striking example of evolutionary conservation of function, mammalian TRPV4 has been found to rescue osmoand mechanosensory deficits of the TRPV mutant strain osm-9 in C. elegans, despite not more than 26% orthology of the respective proteins.

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Section: Mammalian Trpv4 Directs Osmotic Avoidance Behavior In C Elementioning

confidence: 66%

Transient receptor potential vanilloid channels functioning in transduction of osmotic stimuli

Liedtke¹

2006

Journal of Endocrinology

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“…The functions of the TRPV channel encoded by the Caenorhabditis elegans ocr-2 and osm-9 genes in chemosensory neurons have been studied genetically (Colbert et al, 1997;de Bono et al, 2002;Tobin et al, 2002;Zhang et al, 2004). ocr-2 and osm-9 are coexpressed in four pairs of chemosensory neurons: the ADF serotonergic chemosensory neurons, the AWA olfactory neurons, the ASH osmotic sensory neurons, and the ADL chemosensory neurons .…”

Section: Introductionmentioning

confidence: 99%

“…Both OSM-9 and OCR-2 are localized to the cilia, as well as to the plasma membrane . Null mutations in either ocr-2 or osm-9 cause downregulation of the expression of the tph-1 gene, which encodes the key serotonin (5-HT) biosynthetic enzyme tryptophan hydroxylase, in the ADF neurons (Zhang et al, 2004), and the odr-10 gene, which encodes a receptor for the odorant diacetyl (Sengupta et al, 1996), in the AWA neurons . Both OCR-2 and OSM-9 also are required for ASH-mediated osmotic sensation and ASH-and ADL-mediated olfactory avoidance (Colbert et al, 1997;Tobin et al, 2002); however, several efforts have not been able to identify an effect of the activity of this channel on the expression of sensory components in ASH and ADL (I. Sokolchik and J. Sze, unpublished observations).…”

Section: Introductionmentioning

confidence: 99%

“…Previous studies imply that the OCR-2/OSM-9 TRPV channel regulates different sensory functions via distinct signaling transduction pathways (Zhang et al, 2004). The odr-3 gene encodes a G␣-protein and is expressed in all ocr-2-expressing amphid chemosensory neurons.…”

Section: Introductionmentioning

confidence: 99%

“…ODR-3 is an essential component for the OCR-2/OSM-9 channel to mediate the olfactory and osmotic sensation (Colbert et al, 1997;Roayaie et al, 1998;Tobin et al, 2002). However, ocr-2-and osm-9-dependent transcriptional regulation of tph-1 expression in the ADF neurons is unaffected by deletion mutations in odr-3 or two other G␣-proteins expressed in ADF (Zhang et al, 2004). Furthermore, the ASH neurons mediate osmotic sensation as well as social behavior, and both responses are dependent on OCR-2 and OSM-9; only osmotic sensation, not the social behavior, requires ODR-3 (de Bono et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

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Polymodal Sensory Function of theCaenorhabditis elegansOCR-2 Channel Arises from Distinct Intrinsic Determinants within the Protein and Is Selectively Conserved in Mammalian TRPV Proteins

Sokolchik¹,

Tanabe²,

Baldi³

et al. 2005

J. Neurosci.

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Caenorhabditis elegans OCR-2 (OSM-9 and capsaicin receptor-related) is a TRPV (vanilloid subfamily of transient receptor potential channel) protein that regulates serotonin (5-HT) biosynthesis in chemosensory neurons and also mediates olfactory and osmotic sensation. Here, we identify the molecular basis for the polymodal function of OCR-2 in its native cellular environment. We show that OCR-2 function in 5-HT production and osmotic sensing is governed by its N-terminal region upstream of the ankyrin repeats domain, but the diacetyl sensitivity is mediated by independent mechanisms. The ocr-2(yz5) mutation results in a glycine-to-glutamate substitution (G36E) within the N-terminal region. The G36E substitution causes dramatic downregulation of 5-HT synthesis in the ADF neurons, eliminates osmosensation mediated by the ASH neurons, but does not affect the response to the odorant diacetyl mediated by the AWA neurons. Conversely, wild-type sequence of the N-terminal segment confers osmotic sensitivity and upregulation of 5-HT production to a normally insensitive C. elegans homolog, OCR-4, but this chimeric channel does not respond to diacetyl stimuli. Furthermore, expression of either the mouse or human TRPV2 gene under the ocr-2 promoter can substantially restore 5-HT biosynthesis in ocr-2-null mutants but cannot improve the deficits in osmotic or olfactory sensation, suggesting that TRPV2 can substitute for the role of OCR-2 only in serotonergic neurons. Thus, different sensory functions of OCR-2 arise from separable intrinsic determinants, and specific functional properties of TRPV channel proteins may be selectively conserved across phyla.

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Embryogenesis of the serotonergic system in the earthworm Eisenia fetida (Annelida, Oligochaeta): Immunohistochemical and biochemical studies

Koza

Wilhelm

Hiripi

et al. 2006

J of Comparative Neurology

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Organization of the serotonergic system and changes of the serotonin (5-HT) content were studied during the embryogenesis of the earthworm Eisenia fetida, using immunocytochemistry and HPLC. A gradual emergence of 5-HT immunoreactive (IR) cells and their axon projections in the several ganglia of the central (CNS) and peripheral nervous system are described in the context of a staged time-scale of development. The first 5-HT-IR neurons appear in the subesophageal ganglion at an early embryonic stage (E2), followed by neurons in some rostrally located ventral ganglia. In the cerebral ganglion, 5-HT-IR cells can be detected only from stage E5. The number of labeled cells in each ganglion of the embryo increases until hatching, when it is still considerably lower than that observed in adults. This shows that the development of the 5-HTergic system is far from complete by the end of embryogenesis. Organization of 5-HT-IR innervation of the body wall starts by stages E3 to E4. In the stomatogastric nervous system the first 5-HT-IR fibers can be detected by stage E5. By stage E9 5-HT immunopositive neurons can be observed in both the stomatogastric ganglia and the enteric plexus. Both 5-HT levels and the numbers of the labeled cells show a significant increase before hatching, which indicate a functional maturation of the 5-HTergic system. Based on the early appearance of 5-HT, we suppose that it may play a regulatory role in both the gangliogenesis and the maturation of peripheral functions necessary during postembryonic life.

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Caenorhabditis elegansTRPV ion channel regulates 5HT biosynthesis in chemosensory neurons

Cited by 70 publications

References 58 publications

Transient receptor potential vanilloid channels functioning in transduction of osmotic stimuli

Transient receptor potential vanilloid channels functioning in transduction of osmotic stimuli

Polymodal Sensory Function of theCaenorhabditis elegansOCR-2 Channel Arises from Distinct Intrinsic Determinants within the Protein and Is Selectively Conserved in Mammalian TRPV Proteins

Embryogenesis of the serotonergic system in the earthworm Eisenia fetida (Annelida, Oligochaeta): Immunohistochemical and biochemical studies

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