6533b7cffe1ef96bd1259157
RESEARCH PRODUCT
Nxnl2 splicing results in dual functions in neuronal cell survival and maintenance of cell integrity
Aurélie MouretAurélie MouretTherese CroninThierry LeveillardThierry LeveillardJosé-alain SahelJosé-alain SahelBernd KinzelMarie-laure NieponMarie-laure NieponOlivier PochNajate Aït-aliNajate Aït-aliCéline JaillardCéline JaillardYing YangYing YangGéraldine Millet-puelGéraldine Millet-puelAlain TrembleauWolfgang RaffelsbergerTina SedmakJean BennettPierre-marie LledoPierre-marie LledoEmmanuelle ClérinEmmanuelle ClérinUwe WolfrumIrene Lee-riveraIrene Lee-riverasubject
Sensory Receptor Cellsgenetic structuresCell SurvivalRNA SplicingSensory system[SDV.GEN] Life Sciences [q-bio]/GeneticsOlfactionBiologyArticleMice03 medical and health sciencesThioredoxins0302 clinical medicineRetinal Rod Photoreceptor CellsGeneticsAnimalsEye ProteinsMolecular BiologyGeneCells CulturedGenetics (clinical)030304 developmental biology[SDV.GEN]Life Sciences [q-bio]/Genetics0303 health sciencesGeneral MedicineAnatomySensory Receptor CellsCell biologyRNA splicingThioredoxinRetinal Rod Photoreceptor Cells030217 neurology & neurosurgeryFunction (biology)description
International audience; The rod-derived cone viability factors, RdCVF and RdCVF2, have potential therapeutical interests for the treatment of inherited photoreceptor degenerations. In the mouse lacking Nxnl2, the gene encoding RdCVF2, the progressive decline of the visual performance of the cones in parallel with their degeneration, arises due to the loss of trophic support from RdCVF2. In contrary, the progressive loss of rod visual function of the Nxnl2-/- mouse results from a decrease in outer segment length, mediated by a cell autonomous mechanism involving the putative thioredoxin protein RdCVF2L, the second spliced product of the Nxnl2 gene. This novel signaling mechanism extends to olfaction as shown by the progressive impairment of olfaction in aged Nxnl2-/- mice and the protection of olfactory neurons by RdCVF2. This study shows that Nxnl2 is a bi-functional gene involved in the maintenance of both the function and the viability of sensory neurons.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-05-15 | Human Molecular Genetics |