Ras/MAPK signaling mediates adipose tissue control of ovarian germline survival and ovulation in Drosophila melanogaster.

From insects to humans, oogenesis is tightly linked to nutritional input, yet little is known about how whole organism physiology matches dietary changes with oocyte development. Considering that diet-induced adipose tissue dysfunction is associated with an increased risk for fertility problems, and other obesity-associated pathophysiologies, it is critical to decipher the cellular and molecular mechanisms linking adipose nutrient sensing to remote control of the ovary and other tissues. Our previous studies in Drosophila melanogaster have shown that amino acid sensing, via the amino acid response pathway and mTOR-mediated signaling function within adipocytes to control germline stem cell maintenance and ovulation, respectively. Additionally, we demonstrated that insulin/insulin-like growth factor signaling within adipocytes employs distinct effector axes, PI3K/Akt1-dependent and -independent, downstream of insulin receptor activity to mediate fat-to-ovary communication. Here, we report that the Ras/MAPK signaling axis functions in adipocytes to regulate early germline cyst survival and ovulation of mature oocytes but is not important for germline stem cell maintenance or the progression through vitellogenesis. Thus, these studies uncover the complexity of signaling pathway activity that mediates inter-organ communication.

Lessons Learned in Implementing an Aging Research Training Program for Underrepresented Minority Students.

This brief report provides an overview of lessons learned through evaluation of the first five years of the NIA-funded South Carolina-Advancing Diversity in Aging Research (SC-ADAR) undergraduate program, whose goal is to increase the number of qualified underrepresented minority (URM) students who pursue scientific graduate studies in programs focusing on medicine, science, technology, engineering, and mathematics and aging. Partnering with five Historically Black Colleges and Universities in South Carolina, we implemented a research training approach that included two consecutive summers of research training in a University of South Carolina faculty laboratory, as part of a comprehensive 24-month research education program. In addition to the mentored research experience in a laboratory, students had coursework in the biology of aging and social gerontology, with additional workshops tailored to emergent student needs including basic academic skills development, work-life management skills, reflective social experiences, and enhanced support in the transition from undergraduate to graduate school. We provide an overview of lessons learned throughout the early program period, and a description of the iterative changes we made in the program in response to this learning, all of which have been incorporated into the existing SC-ADAR program.

Drosophila melanogaster as a model for nutrient regulation of ovarian function.

Observed in a wide variety of organism, from invertebrates to mammals, nutritional status modulates the energetically costly effort of producing female gametes. Despite this long-standing link between nutrition and ovarian function, relatively little is known about the cellular and molecular mechanisms that underlie how dietary components modulate egg production. Drosophila melanogaster, with its powerful and extensive genetic tools as well as its well-characterized ovarian response to diet, has proven to be instrumental in addressing this issue. This review covers what we currently know about the dietary control of oogenesis in Drosophila and the salient features of the fruit fly that make it a model for nutritional control of ovarian function.