A high-sugar diet, but not obesity, reduces female fertility in Drosophila melanogaster

Estrogen-Related Receptor is Required in Adult Drosophila Females for Germline Stem Cell Maintenance

Stem cell self-renewal and proper tissue function rely on conserved metabolic regulators to balance energy production with inter-organ metabolic trafficking. The estrogen-related receptor (ERR) subfamily of orphan nuclear receptors are major transcriptional regulators of metabolism. In mammals, ERRs have roles in regulating mitochondrial biosynthesis, lipid metabolism, as well as stem cell maintenance. The sole Drosophila ERR ortholog promotes larval growth by establishing a metabolic state during the latter half of embryogenesis. In addition, ERR is required in adult Drosophila males to coordinate glycolytic metabolism with lipid synthesis and within the testis to regulate spermatogenesis gene expression and fertility. Despite extensive work characterizing of the role of ERR in Drosophila metabolism, whether ERR has a conserved requirement in regulating stem cell behavior has been understudied. To determine whether ERR regulates stem cell activity in Drosophila, we used the established adult female germline stem cell (GSC) lineage as a model. We found that whole-body ERR knockout in adult females using conditional heat shock-driven FLP-FRT recombination significantly reduces egg production and decreases GSC number. In addition, we found that ERR activity is required cell-autonomously in the adult female germline for maintenance of GSCs; whereas ERR regulation of GSCs is independent of its activity in adult female adipocytes. Our results highlight an ancient and conserved role for ERRs in the regulation of stem cell self-renewal.

Association of dietary preferences with primary ovarian insufficiency (POI): a mendelian randomization-based analysis

BACKGROUND

Primary ovarian insufficiency (POI) is a critical cause of infertility and is increasingly recognized as a complex metabolic disorder. Dietary factors may influence the risk of POI, but causal relationships remain unclear.

METHODS

We conducted an MR study using genetic instrumental variables for 83 dietary preferences from the UK Biobank, with the Inverse Variance Weighted method as the primary analysis.

RESULTS

Consumption of butter and full-fat dairy products was strongly associated with an increased risk of primary ovarian insufficiency (POI). Women who consumed butter had nearly ten times the risk of developing POI (OR = 9.54, p = 0.048), while full-cream milk was associated with an even greater risk (OR = 29.22, p = 0.018). Interestingly, semi-skimmed milk, despite its lower fat content, also showed a significant positive association with POI (OR > 100, p = 0.008). In contrast, dietary patterns including oily fish and pork were protective against POI. Oily fish, rich in omega-3 fatty acids, was linked to a 82% reduced risk of POI (OR = 0.18, p = 0.008), and pork consumption also showed a protective effect (OR = 0.13, p = 0.041). Additionally, women who did not consume eggs had a significantly lower risk of POI (OR < 0.001, p = 0.044).

CONCLUSION

This study demonstrates that high-fat dairy products may increase the risk of POI, while oily fish and pork consumption could offer protective effects. These findings providing a foundation for future clinical and public health strategies targeting reproductive health.

Exploring the ameliorative potential of rutin against High-Sucrose Diet-induced oxidative stress and reproductive toxicity in Drosophila melanogaster

Sucrose is a vital ingredient in numerous food items consumed regularly. However, exposure to excessive sucrose for a prolonged period can promote health issues. The reproductive system has a delicate physiology that can be targeted by various chemical stressors, including sucrose. Hence, the present in vivo study aims to unveil the impacts of High-Sucrose Diet (HSD) on the reproductive fitness of Drosophila melanogaster. In addition, the present work has also assessed the protective potential of a bioactive compound, rutin, against it. Here, first instar larvae were exposed to HSD (30 %) alone and in combination with rutin (100-300 µM) till their adult stage. HSD disturbed sex comb morphology in adult males, while fecundity and hatchability of eggs in females. Moreover, HSD triggered gonadal ROS production, oxidative stress, and modulated endogenous antioxidants such as SOD, catalase, and glutathione in both sexes. Nuclear fragmentation and tissue injuries, along with protein and lipid oxidation, were also apparent. Elevated levels of cytosolic Iron suggested an active Fenton reaction in adults. Further, HSD modulated the activities of reproductive and metabolic mediators, including vitellogenin, malate dehydrogenase, glucose-6-phosphate dehydrogenase, and angiotensin-converting enzymes that are critical to maintain the overall reproductive fitness. Interestingly, co-treatment with rutin, mainly at 200 µM, mitigated these adverse effects and restored reproductive fitness. The protective potential of rutin might be attributed to its ability to normalize redox homeostasis, reduce oxidative stress, and optimize critical enzymes involved in reproductive physiology. These findings suggest that rutin has potential therapeutic implications for counteracting the reproductive hazards induced by HSD.

High sugar diets can increase susceptibility to bacterial infection in Drosophila melanogaster

Overnutrition with dietary sugar can worsen infection outcomes in diverse organisms including insects and humans, through generally unknown mechanisms. In the present study, we show that adult Drosophila melanogaster fed high-sugar diets became more susceptible to infection by the Gram-negative bacteria Providencia rettgeri and Serratia marcescens. We found that P. rettgeri and S. marcescens proliferate more rapidly in D. melanogaster fed a high-sugar diet, resulting in increased probability of host death. D. melanogaster become hyperglycemic on the high-sugar diet, and we find evidence that the extra carbon availability may promote S. marcescens growth within the host. However, we found no evidence that increased carbon availability directly supports greater P. rettgeri growth. D. melanogaster on both diets fully induce transcription of antimicrobial peptide (AMP) genes in response to infection, but D. melanogaster provided with high-sugar diets show reduced production of AMP protein. Thus, overnutrition with dietary sugar may impair host immunity at the level of AMP translation. Our results demonstrate that dietary sugar can shape infection dynamics by impacting both host and pathogen, depending on the nutritional requirements of the pathogen and by altering the physiological capacity of the host to sustain an immune response.

Auxin exposure disrupts feeding behavior and fatty acid metabolism in adult Drosophila

The ease of genetic manipulation in Drosophila melanogaster using the Gal4/UAS system has been beneficial in addressing key biological questions. Current modifications of this methodology to temporally induce transgene expression require temperature changes or exposure to exogenous compounds, both of which have been shown to have detrimental effects on physiological processes. The recently described auxin-inducible gene expression system (AGES) utilizes the plant hormone auxin to induce transgene expression and is proposed to be the least toxic compound for genetic manipulation, with no obvious effects on Drosophila development and survival in one wild-type strain. Here, we show that auxin delays larval development in another widely used fly strain, and that short- and long-term auxin exposure in adult Drosophila induces observable changes in physiology and feeding behavior. We further reveal a dosage response to adult survival upon auxin exposure, and that the recommended auxin concentration for AGES alters feeding activity. Furthermore, auxin-fed male and female flies exhibit a significant decrease in triglyceride levels and display altered transcription of fatty acid metabolism genes. Although fatty acid metabolism is disrupted, auxin does not significantly impact adult female fecundity or progeny survival, suggesting AGES may be an ideal methodology for studying limited biological processes. These results emphasize that experiments using temporal binary systems must be carefully designed and controlled to avoid confounding effects and misinterpretation of results.