Capello Luca, Roppolo Daniele, Jungo Véronique Pauli, Feinstein Paul, Rodriguez Ivan
Department of Zoology and Animal Biology, and NCCR Frontiers in Genetics, University of Geneva, Geneva, Switzerland.
Eur J Neurosci. 2009 Feb;29(4):671-8. doi: 10.1111/j.1460-9568.2009.06630.x. Epub 2009 Feb 6.
Sensory coding strategies within vertebrates involve the expression of a limited number of receptor types per sensory cell. In mice, each vomeronasal sensory neuron transcribes monoallelically a single V1R pheromone receptor gene, chosen from a large V1R repertoire. The nature of the signals leading to this strict receptor expression is unknown, but is apparently based on a negative feedback mechanism initiated by the transcription of the first randomly chosen functional V1R gene. We show, in vivo, that the genetic replacement of the V1rb2 pheromone receptor coding sequence by an unrelated one from the odorant receptor gene M71 maintains gene exclusion. The expression of this exogenous odorant receptor in vomeronasal neurons does not trigger the transcription of odorant receptor-associated signalling molecules. These results strongly suggest that despite the different odorant and vomeronasal receptor expression sites, function and transduction cascades, a common mechanism is used by these chemoreceptors to regulate their transcription.
脊椎动物的感觉编码策略涉及每个感觉细胞中有限数量受体类型的表达。在小鼠中,每个犁鼻器感觉神经元单等位转录单个V1R信息素受体基因,该基因从大量V1R基因库中选择。导致这种严格受体表达的信号性质尚不清楚,但显然基于由第一个随机选择的功能性V1R基因转录引发的负反馈机制。我们在体内表明,用来自嗅觉受体基因M71的无关序列对V1rb2信息素受体编码序列进行基因替换可维持基因排斥。这种外源性嗅觉受体在犁鼻器神经元中的表达不会触发与嗅觉受体相关的信号分子的转录。这些结果强烈表明,尽管嗅觉受体和犁鼻器受体的表达位点、功能和转导级联不同,但这些化学感受器使用共同的机制来调节它们的转录。