Barrozo Romina B, Gadenne Christophe, Anton Sylvia
INRA; UMR 1272 Physiologie de l'Insecte; Signalisation et Communication; Versailles, France.
Commun Integr Biol. 2010 Nov;3(6):629-30. doi: 10.4161/cib.3.6.13507. Epub 2010 Nov 1.
In most animals, male copulation is dependent on the detection and processing of female-produced sex pheromones. In males, a refractory postejaculatory interval (PEI) follows copulation, allowing them to avoid direct remating until they have replenished their reproductive tracts. In the moth Agrotis ipsilon, newly mated males show a transient inhibition of behavioral and central nervous responses to sex pheromone. Using non-pheromonal (plant) odors, pheromones and their mixture, we now show that the observed lack of pheromone response originates from differential post-mating odor processing in the brain. Although mated males still respond to plant odors alone, their response to mixtures depends on the added pheromone concentration. Below a specific threshold, sex pheromone is not detected at the brain level; above this threshold, it becomes inhibitory. This PEI can thus be interpreted as a «refusal to respond», which contradicts the generally accepted paradigm of sleep-like/exhaustion behavior during PEI.
在大多数动物中,雄性交配依赖于对雌性产生的性信息素的检测和处理。对于雄性而言,交配后会有一个不应期(射精后间隔期,PEI),这使它们在生殖道补充之前避免直接再次交配。在小地老虎蛾中,新交配的雄性对性信息素的行为和中枢神经反应会出现短暂抑制。我们使用非信息素(植物)气味、信息素及其混合物,现表明观察到的信息素反应缺失源于大脑中交配后气味处理的差异。虽然交配后的雄性仍对单独的植物气味有反应,但它们对混合物的反应取决于添加的信息素浓度。低于特定阈值时,在大脑层面检测不到性信息素;高于此阈值时,它会产生抑制作用。因此,这种射精后间隔期可被解释为一种“拒绝反应”,这与射精后间隔期内类似睡眠/疲惫行为的普遍接受范式相矛盾。