States of acute severe food restriction (sFR) can result voluntarily, e.g., anorexia nervosa (~1-4% of women in their lifetime) or involuntarily, e.g., very low food insecurity (~3.8% of U.S. households). This is often followed by periods of normal food intake, i.e., refeeding. We’ve shown increased propensity toward the development of metabolic syndrome (MetS) and cardiac injury in our sFR-Refed rat model. Rats receive 40% of their normal ad libitum grams of rat chow for 2-weeks followed by 3-months of recovery (ad libitum feeding). We hypothesized that treatment with metformin, a type 2 diabetic therapeutic, would attenuate features of MetS and potentially reverse or attenuate cardiac damage. Female Fischer rats (3-months old) were randomly assigned to one of four treatments: 1) Control (CT); 2) Metformin (MF); 3) sFR-Refed (FR); or 4) FR-MF (n = 9/group). MF (0.5% incorporated into the chow) was fed for 5-weeks (from week 8-12) of the study before euthanizing at week 14. Ultrasound was conducted to assess heart function just after food restriction ended (week 4, prior to beginning MF) and near the end of the study (week 13 after completion of MF). Cardiac output (CO) and heart rate (HR) were decreased (38 and 15%, respectively, p < 0.05) in the FR groups (week 4), relative to CT. In week 13, CO in the FR rats was still 11% lower than CT rats (p = 0.04); however, not in the FR-MF group (2% higher than CT). MF alone did not significantly alter CO or HR. There were no significant differences in final body weight; however, liver weight was increased by MF (p = 0.008, 2-way ANOVA). Fat pads were weighed and parametrial fat (visceral) was increased in the FR group and this rise attenuated by MF (g/185 g·bw): 5.7 ± 0.2 (CT); 5.5 ± 0.3 (MF); 7.0 ± 0.3 (FR); 6.1 ± 0.3 (FR-MT), (p < 0.0003 between CT and FR, unpaired t-test). To analyze the effects of MF on insulin signaling pathways in liver, hepatic cell suspensions were incubated ex vivo with insulin. Isolated proteins were biotinylated and incubated with antibody arrays (Phospho-antibody array, PIG-219, Full Moon Biosystems). Antibody spot densities were quantitated and normalized between chips. MF treatment altered the expression or phosphorylation of 24 distinct proteins (by 2-way ANOVA). FR in the presence or absence of MF altered 8. In addition, MF prevented the sFR-induced up-regulation of several proteins including the activating phosphorylation of ATP citrate lyase (ACLY), an enzyme involved in fatty acid biogenesis, and tuberous sclerosis complex (TSC2), a known inhibitor of insulin signaling. In sum, sFR-Refed rats had features of MetS including visceral adiposity, as well as, reduced cardiac function. Treatment in the post-sFR period (after body weight recovery) was beneficial in attenuating this phenotype. Thus, metformin may be therapeutic to reduce MetS and cardiac injury associated with periods of food insecurity. Funding included the Marriott Foundation fellowship to CE; and addition Georgetown University internal funding. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.