TY - JOUR
T1 - A unique transcriptome at the brain-environment interface
T2 - Local translation in the rat olfactory epithelium
AU - Persuy, Marie Annick
AU - Baly, Christine
AU - Monnerie, Régine
AU - Souquere, Sylvie
AU - Bevilacqua, Claudia
AU - Dubacq, Caroline
AU - Pierron, Gérard
AU - Caillol, Monique
AU - Remy, Jean Jacques
N1 - Funding Information:
The authors would like to thank Dr F. Margolis (University of Maryland School of Medicine, Baltimore MD 21201) for the generous gift of the OMP antibody, A. Trembleau for Ribosomal P antibody and N.B. Hecht for translin antibody. We also thank N. Meunier for help with manual microdissection, C. Formisano-Treziny for help with quantitative PCR and D. Durieux for excellent technical assistance. J. Aioun helped us for the ultrastructural knowledge of the olfactory mucosa. R. Salesse was present at the beginning of the story, his support and helpful discussions were fruitful. We also acknowledge V. Hawken for help with English language. Apotome images were performed using the MIMA 2 platform facilities. This work received financial support from the Ile-de-France region , in the context of a SESAME contract ( 2002/AO1497 ).
PY - 2011/8/8
Y1 - 2011/8/8
N2 - All olfactory epithelium cells, including rapidly self-renewing olfactory sensory neurons (OSN), are continuously subjected to external airborne aggressions. We hypothesized that the apical part of rat olfactory epithelia (AOE) could be the site of a local translation to be able to respond rapidly to external stimuli. We purified significant amounts of mRNAs from AOE. Sequencing of the cDNA library identified 348 mRNA species. Of these, the 220 AOE transcripts encoding proteins with known biological functions were classified in functional groups. The main functional class (40%) coded for defense, detoxification, anti-oxidant stress and innate immunity. Other classes comprised mRNAs encoding functions for neuronal metabolism and life (19%), nuclear transcription control (15%), cell survival and proliferation (13%), RNA processing and translation (12%). They did not contain any known members of the olfactory transduction pathway. The expression of a sub-set of AOE transcripts was investigated in sub-cellular AOE fractions highly enriched in ciliated dendrites and in AOE fractions after forced hemilateral OSN-specific degeneration. All the mRNAs tested were found to be: i) present in enriched ciliated dendrite preparations ii) down-regulated after OSN degeneration iii) co-purified with polysomal fractions, suggesting their commitment to local translation. We provide strong evidence that the extreme apical side of the olfactory epithelium expresses a unique transcriptome, whose function is not related to olfaction but mainly to defense and survival. The possible local translation of this transcriptome is demonstrated, in supporting cells as well as in olfactory neuron ciliated dendrites.
AB - All olfactory epithelium cells, including rapidly self-renewing olfactory sensory neurons (OSN), are continuously subjected to external airborne aggressions. We hypothesized that the apical part of rat olfactory epithelia (AOE) could be the site of a local translation to be able to respond rapidly to external stimuli. We purified significant amounts of mRNAs from AOE. Sequencing of the cDNA library identified 348 mRNA species. Of these, the 220 AOE transcripts encoding proteins with known biological functions were classified in functional groups. The main functional class (40%) coded for defense, detoxification, anti-oxidant stress and innate immunity. Other classes comprised mRNAs encoding functions for neuronal metabolism and life (19%), nuclear transcription control (15%), cell survival and proliferation (13%), RNA processing and translation (12%). They did not contain any known members of the olfactory transduction pathway. The expression of a sub-set of AOE transcripts was investigated in sub-cellular AOE fractions highly enriched in ciliated dendrites and in AOE fractions after forced hemilateral OSN-specific degeneration. All the mRNAs tested were found to be: i) present in enriched ciliated dendrite preparations ii) down-regulated after OSN degeneration iii) co-purified with polysomal fractions, suggesting their commitment to local translation. We provide strong evidence that the extreme apical side of the olfactory epithelium expresses a unique transcriptome, whose function is not related to olfaction but mainly to defense and survival. The possible local translation of this transcriptome is demonstrated, in supporting cells as well as in olfactory neuron ciliated dendrites.
KW - Brain protection
KW - Local translation
KW - Olfactory mucosa
KW - Olfactory sensory neuron
KW - cDNA library
UR - http://www.scopus.com/inward/record.url?scp=79960728950&partnerID=8YFLogxK
U2 - 10.1016/j.brainres.2011.06.034
DO - 10.1016/j.brainres.2011.06.034
M3 - Article
C2 - 21741033
AN - SCOPUS:79960728950
SN - 0006-8993
VL - 1405
SP - 1
EP - 14
JO - Brain Research
JF - Brain Research
ER -