Abstract
In many insects, the accessory gland, a secretory tissue of the male reproductive system, is essential for male fertility. Male accessory gland is the major source of proteinaceous secretions, collectively called as seminal proteins (or accessory gland proteins), which upon transfer, manipulate the physiology and behavior of mated females. Insect hormones such as ecdysteroids and juvenoids play a key role in accessory gland development and protein synthesis but little is known about underlying molecular players and their mechanism of action. Therefore, in the present study, we examined the roles of hormone-dependent transcription factors (Nuclear Receptors), in accessory gland development, function and male fertility of a genetically tractable insect model, Drosophila melanogaster. First, we carried out an RNAi screen involving 19 hormone receptors, individually and specifically, in a male reproductive tissue (accessory gland) for their requirement in Drosophila male fertility. Subsequently, by using independent RNAi/ dominant negative forms, we show that Ecdysone Receptor (EcR) is essential for male fertility due to its requirement in the normal development of accessory glands in Drosophila: EcR depleted glands fail to make seminal proteins and have dying cells. Further, our data point to a novel ecdysone receptor that does not include Ultraspiracle but is probably comprised of EcR isoforms in Drosophila male accessory glands. Our data suggest that this novel ecdysone receptor might act downstream of homeodomain transcription factor paired (prd) in the male accessory gland. Overall, the study suggests novel ecdysone receptor as an important player in the hormonal regulation of seminal protein production and insect male fertility.
Highlights
In insects, molecular contributions from the male play critical roles in altering the reproductive physiology and behavior of the mated female
We show that the depletion of this receptor causes cell death in male accessory glands, which fail to produce seminal fluid proteins leading to sterility/ sub-fertility of Drosophila males
Ecdysone Receptor (EcR) is essential for male fertility in D. melanogaster In Drosophila, ecdysone and juvenile hormones are critical for reproduction [40,41]
Summary
Molecular contributions from the male play critical roles in altering the reproductive physiology and behavior of the mated female. The majority of these seminal proteins are contributed by the accessory glands, a secretory tissue of the male reproductive tract [6,7,8,9,10,11]. Mutations in Methoprene-tolerant (Met, a juvenile hormone receptor; [23]), or knockdown through injection of dsRNA for two hormone receptors (E75 and DHR38; [24]) resulted in a marginal reduction in the protein synthesis in the male accessory glands. It is uncertain if this phenotypic outcome is due to tissue specific /systemic role(s) of these hormone receptors. An attempt has been made in the present study to identify the hormone receptor(s) underlying the development and/or synthetic activity of insect male accessory glands, by taking advantage of a versatile insect model system, namely Drosophila melanogaster
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