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The Role of CNGA2 in the detection of touch and pain

$16,155F32FY2014NSNIH

University Of California Berkeley, Berkeley CA

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Abstract

DESCRIPTION (provided by applicant): The mammalian somatosensory system detects thermal, chemical, and mechanical stimuli. While some of the genes that mediate thermal and chemical stimuli have been identified, the molecular transducers of mechanical stimuli are still largely unknown, and represent one of the highest priorities in touch and pain biology. We carried out an unbiased screen and identified the ion channel Cyclic Nucleotide-Gated channel A2 (CNGA2) as a candidate transducer of touch stimuli. The goal of this proposal is to probe the role of CNGA2 in mechanotransduction in somatosensory neurons, the cells that mediate our sense of touch and pain. We will directly test the hypothesis that CNGA2 plays a key role in touch and/or pain using cellular, behavioral and genetic tools. The outcomes of this research will provide a better understanding of the transduction mechanisms underlying our sense of touch and pain, and may provide insight into new therapies and drugs to treat mechanical hypersensitivity that accompanies a wide range of neurological diseases.

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