Polymodal Sensory Function of the<i>Caenorhabditis elegans</i>OCR-2 Channel Arises from Distinct Intrinsic Determinants within the Protein and Is Selectively Conserved in Mammalian TRPV Proteins

Sokolchik, Irina; Tanabe, Takahiro; Baldi, Pierre; Sze, Ji Ying

doi:10.1523/jneurosci.3107-04.2005

Cited by 29 publications

(29 citation statements)

References 60 publications

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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: 68%

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: 68%

Transient receptor potential vanilloid channels functioning in transduction of osmotic stimuli

Liedtke¹

2006

Journal of Endocrinology

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“…37 Interestingly, replacing the TRPV ortholog in C. elegans, OCR-2, with human or mouse TRPV2 rescued the loss of chemosensory perception and showed a localization pattern along the sensory cilia and plasma membrane. 38 It is tempting to speculate that IGF-1 stimulation in ciliated mammalian cells may utilize TRPV2 at the cilium or plasma membrane to increase intracellular Ca 2+ levels and possibly result in ciliary resorption.…”

Section: Wnt Signalingmentioning

confidence: 99%

Cilia and cell cycle re-entry

2011

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“…Many members of this superfamily are polymodally activated by a diverse assortment of environmental challenges, including osmotic, mechanical, and thermal stresses and cues [19,20]. For a variety of tissues, there is emerging evidence that regulatory volume responses are dependent on increases in Ca 2+ influx through pathways comprising several different members of the TRP superfamily [21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

Dependence of regulatory volume decrease on transient receptor potential vanilloid 4 (TRPV4) expression in human corneal epithelial cells

et al. 2008

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TRPV4 is a non-selective cation channel with moderate calcium permeability, which is activated by exposure to hypotonicity. Such a stress induces regulatory volume decrease (RVD) behavior in human corneal epithelial cells (HCEC). We hypothesize that TRPV4 channel mediates RVD in HCEC. Immunohistochemistry revealed centrally and superficially concentrated TRPV4 localization in the corneal tissue.Immunocytochemical and Fluorescence Activated Cell Sorter (FACS) analyses identified TRPV4 membrane surface and cytosolic expression. RT-PCR and Western blot analyses identified TRPV4 gene and protein expression in HCEC, respectively. In addition, 4α-PDD or a 50% hypotonic medium induced up to three-fold transient intracellular Ca 2+ ([Ca 2+ ] i ) increases. Following TRPV4 siRNA HCEC transfection, its protein expression level declined by 64%, which abrogated these [Ca 2+ ] i transients. Similarly, exposure to either ruthenium red or Ca 2+ -free Ringer's solution also eliminated this response. In these transfected cells, RVD declined by 51% whereas in the non-transfected counterpart, ruthenium red and Ca 2+ -free solution inhibited RVD by 54% and 64%, respectively. In contrast, capsazepine, a TRPV1 antagonist, failed to suppress [Ca 2+ ] i transients and RVD. TRPV4 activation contributes to RVD since declines in TRPV4 expression and activity are associated with suppression of this response. In conclusion, there is TRPV4 functional expression in HCEC.

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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

Cited by 29 publications

References 60 publications

Transient receptor potential vanilloid channels functioning in transduction of osmotic stimuli

Transient receptor potential vanilloid channels functioning in transduction of osmotic stimuli

Cilia and cell cycle re-entry

Dependence of regulatory volume decrease on transient receptor potential vanilloid 4 (TRPV4) expression in human corneal epithelial cells

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