# Mechanisms for Sex Differences in Metabolic Programming > **NIH NIH R01** · BAYLOR COLLEGE OF MEDICINE · 2021 · $396,250 ## Abstract Increased susceptibility to metabolic diseases including diabetes and hypertension during adult life has been recognized for offspring born to mothers with nutritional stress during pregnancy. We recently developed a unique gestational low-protein (LP) rat model in which the offspring are not obese but have glucose intolerance (GI) and insulin resistance (IR), and are unable to regulate glucose production, similar to that seen in humans who are metabolically aberrant with normal weight. Based on our recent exciting resultant observations with metabolic syndrome, we are focusing on the role of sex steroid hormones (testosterone (T) and estradiol (E2)) in regulating the onset and progression of GI and IR in the offspring exposed in utero to LP diet, and mechanisms involved. The central hypothesis is that the offspring from maternal LP- programming are GI and IR and their onset and progression are sex- and sex steroid (T in males and E2 in females)-dependent, and involve regulatory mechanisms of glucose homeostasis, insulin signaling, and mitochondrial function. Three specific aims are proposed: Specific Aim 1: Establish the onset and progression of GI and IR, in maternal LP programmed offspring and determine if these are sex-and sex steroid hormone-dependent. Sub aim 1a: We hypothesize that onset and progression of GI and IR in maternal LP-programmed offspring are catch-up growth associated, sex dependent and sex steroid hormone-related. Sub aim 1b: We hypothesize that steroid supplementation (T for males and E2 for females) prior to the onset will prevent and after the onset will reverse GI and IR. Specific Aim 2: Assess changes in insulin sensitivity in skeletal muscles and liver, and hepatic glucose production in LP offspring, and their regulation by sex and sex steroids. Sub aim 2a: We hypothesize that insulin signaling for glucose transport and glycogen synthesis are defective in LP rats and these changes are sex-dependent and steroid hormone related. Sub Aim 2b: We hypothesize that the regulation of hepatic glucose production by gluconeogenesis (GNG) and glycogenolysis (GYG) is impaired in LP offspring and this impairment is sex dependent and regulated by sex steroids. Specific Aim 3: Identify the mechanistic relationship between in utero nutrition, sex steroids and insulin resistance. Sub aim 3a: We hypothesize that gestational LP diet affects the epigenetic profiles of key genes involved in steroidogenesis and decreases synthesis of T in males and E2 in females. Specific Aim 3b: We hypothesize that mitochondrial structure and function is compromised in LP offspring contributing to the development of IR. Sub aim 3c: We hypothesize that alterations in mitochondrial structure and function in LP offspring are sex steroid mediated. The outcomes of this project are expected to provide new information about the onset, progression and the development of metabolic disturbances in a lean animal model, and the involvement of sex and sex steroid hormon... ## Key facts - **NIH application ID:** 10198910 - **Project number:** 5R01DK114689-04 - **Recipient organization:** BAYLOR COLLEGE OF MEDICINE - **Principal Investigator:** Chellakkan Selvanesan Blesson - **Activity code:** R01 (R01, R21, SBIR, etc.) - **Funding institute:** NIH - **Fiscal year:** 2021 - **Award amount:** $396,250 - **Award type:** 5 - **Project period:** 2018-09-15 → 2023-06-30 ## Primary source NIH RePORTER: https://reporter.nih.gov/project-details/10198910 ## Citation > US National Institutes of Health, RePORTER application 10198910, Mechanisms for Sex Differences in Metabolic Programming (5R01DK114689-04). Retrieved via AI Analytics 2026-05-23 from https://api.ai-analytics.org/grant/nih/10198910. Licensed CC0. --- *[NIH grants dataset](/datasets/nih-grants) · CC0 1.0*