Abstract
Introduction & Objective: As of 2020, 67% of Americans are overweight or obese. Particularly concerning is the greater incidence of obesity in post-menopausal women. Previous studies have shown that estrogen decreases food intake and body weight; however, it is not yet clear the method by which estrogen affects central pathways that regulate feeding. To address this, we used a microarray to compare estrogen-mediated changes in gene expression within the leptin signaling pathway. This pathway contains brain areas known to be involved in food intake including: the arcuate nucleus of the hypothalamus (ARC), the paraventricular nucleus of the hypothalamus (PVN), and nucleus of the solitary tract (NTS).
Methods: Adult female rats were bilaterally ovariectomized and treated with either oil or estrogen injections. After termination, RNA was collected from the ARC, PVN, and NTS. Isolated RNA was sent to Thermo Fisher Scientific for microarray analysis. Results were analyzed using Transcriptome Analysis Console software.
Results: In the brain areas investigated, we found that estrogen influenced gene expression for multiple neurotransmitters, neuroreceptors, and signaling molecules involved in the leptin signaling pathway.
Conclusion: The changes in body and uterine weights confirmed the effects of estrogen. The ARC, PVN, and NTS displayed a variety of genes regulated by estrogen, confirming that estrogen mediates gene expression within the leptin signaling pathway. This demonstrates a potential mechanism by which estrogen affects central pathways to decrease food intake and body weight.
Methods: Adult female rats were bilaterally ovariectomized and treated with either oil or estrogen injections. After termination, RNA was collected from the ARC, PVN, and NTS. Isolated RNA was sent to Thermo Fisher Scientific for microarray analysis. Results were analyzed using Transcriptome Analysis Console software.
Results: In the brain areas investigated, we found that estrogen influenced gene expression for multiple neurotransmitters, neuroreceptors, and signaling molecules involved in the leptin signaling pathway.
Conclusion: The changes in body and uterine weights confirmed the effects of estrogen. The ARC, PVN, and NTS displayed a variety of genes regulated by estrogen, confirming that estrogen mediates gene expression within the leptin signaling pathway. This demonstrates a potential mechanism by which estrogen affects central pathways to decrease food intake and body weight.
Original language | American English |
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State | Published - 18 Feb 2022 |
Event | Oklahoma State University Center for Health Sciences Research Week 2022 : Poster Presentation - Oklahoma State University Center for Health Sciences, Tulsa, United States Duration: 14 Feb 2022 → 18 Feb 2022 https://medicine.okstate.edu/research/docs/rw2022_agenda.pdf (Research Week 2022 Agenda) |
Conference
Conference | Oklahoma State University Center for Health Sciences Research Week 2022 |
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Country/Territory | United States |
City | Tulsa |
Period | 14/02/22 → 18/02/22 |
Internet address |
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