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Direction Selectivity in Drosophila Proprioceptors Requires the Mechanosensory Channel Tmc.
He, Liping; Gulyanon, Sarun; Mihovilovic Skanata, Mirna; Karagyozov, Doycho; Heckscher, Ellie S; Krieg, Michael; Tsechpenakis, Gavriil; Gershow, Marc; Tracey, W Daniel.
Afiliação
  • He L; Department of Biology and Gill Center for Biomolecular Science, Indiana University, 702 North Walnut Grove Avenue, Bloomington, IN 47405, USA.
  • Gulyanon S; Computer and Information Science Department, Indiana University-Purdue University, 723 W. Michigan Street, Indianapolis, IN 46220, USA; Data Science and Innovation Program, Faculty of Science and Technology, Thammasat University, 99 Moo 18 Paholyothin Road, Klong Luang, Rangsit, Prathumthani 12121,
  • Mihovilovic Skanata M; Physics and Neural Science, New York University, 726 Broadway, New York, NY 10003, USA.
  • Karagyozov D; Physics and Neural Science, New York University, 726 Broadway, New York, NY 10003, USA.
  • Heckscher ES; Department of Molecular Genetics and Cell Biology, University of Chicago, 920 East 58(th) Street, Chicago, IL 60637, USA.
  • Krieg M; ICFO-Institut de Ciències Fotòniques, The Barcelona Institute of Science and Technology, Avinguda CF Gauss3, 08860 Castelldefels, Barcelona, Spain.
  • Tsechpenakis G; Computer and Information Science Department, Indiana University-Purdue University, 723 W. Michigan Street, Indianapolis, IN 46220, USA.
  • Gershow M; Physics and Neural Science, New York University, 726 Broadway, New York, NY 10003, USA.
  • Tracey WD; Department of Biology and Gill Center for Biomolecular Science, Indiana University, 702 North Walnut Grove Avenue, Bloomington, IN 47405, USA. Electronic address: dtracey@indiana.edu.
Curr Biol ; 29(6): 945-956.e3, 2019 03 18.
Article em En | MEDLINE | ID: mdl-30853433
Drosophila Transmembrane channel-like (Tmc) is a protein that functions in larval proprioception. The closely related TMC1 protein is required for mammalian hearing and is a pore-forming subunit of the hair cell mechanotransduction channel. In hair cells, TMC1 is gated by small deflections of microvilli that produce tension on extracellular tip-links that connect adjacent villi. How Tmc might be gated in larval proprioceptors, which are neurons having a morphology that is completely distinct from hair cells, is unknown. Here, we have used high-speed confocal microscopy both to measure displacements of proprioceptive sensory dendrites during larval movement and to optically measure neural activity of the moving proprioceptors. Unexpectedly, the pattern of dendrite deformation for distinct neurons was unique and differed depending on the direction of locomotion: ddaE neuron dendrites were strongly curved by forward locomotion, while the dendrites of ddaD were more strongly deformed by backward locomotion. Furthermore, GCaMP6f calcium signals recorded in the proprioceptive neurons during locomotion indicated tuning to the direction of movement. ddaE showed strong activation during forward locomotion, while ddaD showed responses that were strongest during backward locomotion. Peripheral proprioceptive neurons in animals mutant for Tmc showed a near-complete loss of movement related calcium signals. As the strength of the responses of wild-type animals was correlated with dendrite curvature, we propose that Tmc channels may be activated by membrane curvature in dendrites that are exposed to strain. Our findings begin to explain how distinct cellular systems rely on a common molecular pathway for mechanosensory responses.
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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Propriocepção / Células Receptoras Sensoriais / Proteínas de Drosophila / Drosophila melanogaster / Proteínas de Membrana Idioma: En Ano de publicação: 2019 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Assunto principal: Propriocepção / Células Receptoras Sensoriais / Proteínas de Drosophila / Drosophila melanogaster / Proteínas de Membrana Idioma: En Ano de publicação: 2019 Tipo de documento: Article