Abstract Disclosure: N. Kadoumi: None. G. Zatarah: None. J. Stokar: None. P. Shivam: None. I. Gurt: None. R. Dresner-Pollak: None. People living with type 1 diabetes (T1D) have a markedly shorter life expectancy compared to non-diabetic age- and sex-matched controls primarily due to cardiovascular disease. Diabetic cardiomyopathy is characterized by structural and functional alterations that occur independently of hypertension or coronary artery leading to congestive heart failure. The pathogenesis of diabetic cardiomyopathy involves endothelial cell dysfunction, microangiopathy, mitochondrial dysfunction, and oxidative stress, resulting in inflammation, extensive remodeling, cardiomyocyte hypertrophy, interstitial fibrosis, and apoptosis. T1D is associated with accelerated aging. Cellular senescence is a hallmark of aging, it is characterized by cell cycle arrest, distinct morphological alterations and the release of molecules referred to as the senescence-associated secretory phenotype (SASP). Senescent cardiomyocytes secrete SASPs that promote activation of fibroblasts, hypertrophy of cardiac muscle cells, and dysfunction of cardiac endothelial cells. An increase in cardiac cellular senescence was demonstrated in mouse models of T1D. Senolytics are compounds that clear senescent cells. Senolytics were shown to improve multiple outcomes in age-associated conditions in mice and humans.We investigated the effects of senolytics Dasatinib (D) and Quercetin (Q) on cardiac fibrosis in the AKITA Ins-/+ mouse model of T1D.We first assessed if there is increased collagen type1 expression in the heart ventricles and perivascular in 3-month-old in AKITA Ins-/+ vs. WT male mice using Immunofluorescence. Increased perivascular and interstitial expression of collagen 1 was found in AKITA Ins-/+ compared to WT age-and sex-matched mice (0.0811±0.008177 µm2 vs. 0.0533± 0.007960 µm2 ,P=0.0476), (105.7±10.29 µm2 vs. 54.85±14.61 µm2, P=0.0476), respectively. Next, 3-month-old AKITA Ins-/+wmale mice were randomly assigned to treatment with Dasatinib (5 mg/kg) and Quercetin (50 mg/kg) or vehicle administered once monthly by oral gavage for a total of four months (n=20, 10 in each group). Heart samples were analyzed for gene expression, collagen 1 protein by western blotting and Immunofluorescence and analyzed using QuPath 0.5.0 Software. Interstitial and perivascular fibrosis was separately assessed in the right and left ventricles. Treatment with D+Q resulted in a 2-fold decrease in COL1A1 gene and Collagen 1 protein expression by RT-PCR and western blot analysis (P= 0.011 and 0.042, respectively) in AKITA Ins-/+ mice. Immunostaining analysis revealed reduced Collagen 1 deposition in both the left and right ventricles (105.7±10.29 µm2 vs. 43.53±16.31 µm2, P=0.0571), as well as in the perivascular area (0.0811±0.008177 µm2 vs. 0.052±0.006163 µm2, P=0.1143). Treatment with senolytics D+Q reduces the expression of Collagen I, a key factor in myocardial fibrosis, in adult male AKITA Ins-/+ mice. Presentation: 6/3/2024