Abstract
Reproduction is highly sensitive to changes in physiology and the external environment. Neuropeptides are evolutionarily conserved signaling molecules that regulate multiple physiological processes. However, the potential reproductive roles of many neuropeptide signaling pathways remain underexplored. Here, we describe the results of RNAi-based screens in Drosophila melanogaster to identify neuropeptides/neuropeptide receptors with potential roles in oogenesis. The screen read-outs were either the number of eggs laid per female per day over time or fluorescence microscopy analysis of dissected ovaries. We found that the orphan neuropeptide receptor encoded by moody (homologous to mammalian melatonin receptors) is likely required in somatic cells for normal egg production and proper germline stem cell maintenance. However, the egg laying screens had low signal-to-noise ratio and did not lead to the identification of additional candidates. Thus, although egg count assays might be useful for large-scale screens to identify oogenesis regulators that result in dramatic changes in oogenesis, more labor-intensive microscopy-based screen are better applicable for identifying new physiological regulators of oogenesis with more subtle phenotypes.
Highlights
Reproduction is highly responsive to changes in physiology and the external environment [1]
We found no difference in cap cell numbers between moody and Luc control knockdown females (Fig 3H), indicating that somatic moody controls germline stem cells (GSCs) numbers independently of changes in niche size, and ruling out effects on insulin signaling as a relevant mechanism. moody is widely expressed in adult Drosophila females, including at low levels in the ovary [37]
In Drosophila females, insulin signaling has been shown to be critical for oogenesis [9], and sex peptide (SP)/neuropeptide F (NPF) signaling is responsible for increased GSC proliferation in response to mating [14,15]
Summary
Reproduction is highly responsive to changes in physiology and the external environment [1]. Many of these changes impinge on the hypothalamic-pituitary-gonadal axis, the central regulator of reproduction. Gonadotropin-releasing hormone (GnRH) is produced and secreted by neurosecretory cells in the hypothalamus and acts on the anterior pituitary gland to stimulate the release of follicle stimulating hormone (FSH) and luteinizing hormone (LH) [2]. Obesity and excessive exercise can both lead to reduced gonadotropin levels in humans [3], and psychological stress decreases LH and FSH levels in rodents and other mammals [4]. Neuropeptides are an important group of signaling molecules that lie at the intersection of the hypothalamic-pituitary-gonadal axis and physiology.
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