M
Marc Landry
Researcher at University of Bordeaux
Publications - 116
Citations - 4437
Marc Landry is an academic researcher from University of Bordeaux. The author has contributed to research in topics: Neuropeptide & Galanin. The author has an hindex of 37, co-authored 111 publications receiving 3944 citations. Previous affiliations of Marc Landry include French Institute of Health and Medical Research & University of Melbourne.
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Subtypes Y1 and Y2 of the neuropeptide Y receptor are respectively expressed in pro-opiomelanocortin- and neuropeptide-Y-containing neurons of the rat hypothalamic arcuate nucleus.
TL;DR: The results show that the POMC neurons are targets for NPY, which is presumably present in, and released from, fibres originating in the ventromedial arcuate nucleus and which may play a role in NPY-induced feeding.
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Metabotropic receptors for glutamate and GABA in pain
Cyril Goudet,Valerio Magnaghi,Marc Landry,Marc Landry,Frédéric Nagy,Frédéric Nagy,Robert W. Gereau,Jean-Philippe Pin,Jean-Philippe Pin +8 more
TL;DR: The present review will focus on the role of metabotropic glutamate receptors and GABA receptors in the modulation of pain perception.
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Bidirectional integrative regulation of Cav1.2 calcium channel by microRNA miR‐103: role in pain
Alexandre Favereaux,Alexandre Favereaux,Olivier Thoumine,Olivier Thoumine,Rabia Bouali-Benazzouz,Rabia Bouali-Benazzouz,Virginie Roques,Virginie Roques,Marie-Amélie Papon,Marie-Amélie Papon,Sherine Abdel Salam,Sherine Abdel Salam,Sherine Abdel Salam,Guillaume Drutel,Guillaume Drutel,Claire Léger,Claire Léger,André Calas,André Calas,Frédéric Nagy,Frédéric Nagy,Marc Landry,Marc Landry +22 more
TL;DR: It is shown here that a single microRNA, miR‐103, simultaneously regulates the expression of the three subunits forming Cav1.2‐LTC in a novel integrative regulation.
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Expression of vesicular glutamate transporters in rat lumbar spinal cord, with a note on dorsal root ganglia.
TL;DR: The results demonstrate the existence of different subpopulations of glutamate nerve terminals in the rat lumbar spinal cord and suggest that functionally distinct subsets of excitatory glutamatergic neuronal networks are involved in sensory processing and motor control.
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Dynamic balance of metabotropic inputs causes dorsal horn neurons to switch functional states.
Dominique Derjean,Sandrine S. Bertrand,Gwendal Le Masson,Marc Landry,Valerie Morisset,Frédéric Nagy +5 more
TL;DR: It is shown here that deep dorsal horn neurons in Wistar rats can switch their intrinsic firing properties from tonic to plateau or endogenous bursting patterns, depending upon the balance of control by metabotropic glutamate (mGlu) and GABAB receptors.