Abstract

Currently (2020), Africa and Asia are experiencing the worst desert locust (Schistocerca gregaria) plague in decades. Exceptionally high rainfall in different regions caused favorable environmental conditions for very successful reproduction and population growth. To better understand the molecular mechanisms responsible for this remarkable reproductive capacity, as well as to fill existing knowledge gaps regarding the regulation of male reproductive physiology, we investigated the role of methoprene-tolerant (Scg-Met) and Taiman (Scg-Tai), responsible for transducing the juvenile hormone (JH) signal, in adult male locusts. We demonstrated that knockdown of these components by RNA interference strongly inhibits male sexual maturation, severely disrupting reproduction. This was evidenced by the inability to show mating behavior, the absence of a yellow-colored cuticle, the reduction of relative testes weight, and the drastically reduced phenylacetonitrile (PAN) pheromone levels of the treated males. We also observed a reduced relative weight, as well as relative protein content, of the male accessory glands in Scg-Met knockdown locusts. Interestingly, in these animals the size of the corpora allata (CA), the endocrine glands where JH is synthesized, was significantly increased, as well as the transcript level of JH acid methyltransferase (JHAMT), a rate-limiting enzyme in the JH biosynthesis pathway. Moreover, other endocrine pathways appeared to be affected by the knockdown, as evidenced by changes in the expression levels of the insulin-related peptide and two neuroparsins in the fat body. Our results demonstrate that JH signaling pathway components play a crucial role in male reproductive physiology, illustrating their potential as molecular targets for pest control.

Highlights

  • Reproductive physiology in animals is strictly regulated by hormones

  • The overall sequence similarities of Schistocerca gregaria Methoprene-tolerant (Scg-Met) and Schistocerca gregaria Taiman (Scg-Tai) with their orthologs in the other insect species included in this analysis appeared to be far lower

  • The bHLH domain in Tai orthologs was identified as a bHLH-PAS domain belonging to the steroid receptor coactivator (SRC) protein family

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Summary

Introduction

Depending on the species, these hormones and their specific contributions may differ. This is illustrated nicely by reports on the endocrine regulation of the female reproductive physiology in a wide variety of insect species (as reviewed by [1]). Two important players in this process are the sesquiterpenoid, juvenile hormone (JH), and the ecdysteroid, 20-hydroxyecdysone (20E). Both lipophilic hormones are key in the control of larval development and metamorphosis of insects. Ecdysone is synthesized in the prothoracic glands of juvenile insects. These glands degenerate in adult insects and ecdysteroid synthesis takes

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