Male cuticular pheromones stimulate removal of the mating plug and promote re-mating through pC1 neurons inDrosophilafemales

  1. Minsik Yun
  2. Do-Hyoung Kim
  3. Tal Soo Ha
  4. Kang-Min Lee
  5. Eungyu Park
  6. Markus Knaden
  7. Bill S. Hansson
  8. Young-Joon Kim
7 evaluations Published on
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Abstract

In birds and insects, the female uptakes sperm for a specific duration post-copulation known as the ejaculate holding period (EHP) before expelling unused sperm and the mating plug through sperm ejection. In this study, we found thatDrosophila melanogasterfemales shortens the EHP when incubated with males or mated females shortly after the first mating. This phenomenon, which we termed<underline>m</underline>ale-induced<underline>E</underline>HP<underline>s</underline>hortening (MIES), requires Or47b+ olfactory and ppk23+ gustatory neurons, activated by 2-methyltetracosane and 7-tricosene, respectively. These odorants raise cAMP levels in pC1 neurons, responsible for processing male courtship cues and regulating female mating receptivity. Elevated cAMP levels in pC1 neurons reduce EHP and reinstate their responsiveness to male courtship cues, promoting re-mating with faster sperm ejection. This study established MIES as a genetically tractable model of sexual plasticity with a conserved neural mechanism.

Significance Statement

Sexual plasticity, the adaptation of reproductive behavior to social changes, was explored in the fruit fly, a genetically tractable model insect. Our findings revealed that inseminated females, encountering another courting male post-mating, shorten the ejaculate holding period (EHP). Specific olfactory and gustatory pathways regulating this phenomenon were identified, converging on the pC1 neurons in the brain-a conserved neural circuit that regulates female mating activity. Odors associated with EHP shortening increased the second messenger cAMP. The transient elevation of cAMP heightened the excitability of pC1 neurons, facilitating the prompt removal of the male ejaculate and subsequent re-mating . This study established a behavioral model of sexual plasticity and provided a framework for understanding the neural circuit processes involved.

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