Abstract 390: A New Humanized Mouse Model to Study Lipid Abnormalities and HDL Function in Poorly Controlled Type 1 Diabetes Mellitus

Abstract

Elevated plasma triglycerides (TG) and VLDL are often present in poorly controlled type 1 diabetes mellitus (T1DM). Furthermore, T1DM patients exhibit an increased risk of cardiovascular disease (CVD) despite normal or high HDL-cholesterol. There is a need for new mouse models to study T1DM lipid abnormalities because mice do not express cholesteryl ester transfer protein (CETP), which transfers cholesteryl ester (CE) from HDL to VLDL and other lipoproteins in exchange for TG, and because mice do not exhibit human-like HDL populations. To develop a physiologically relevant model, we crossed a virally-induced mouse model of T1DM ( Ldlr -/- ;Gp Tg ) deficient in the LDL receptor with human apolipoprotein A-I ( APOA1 ) transgenic mice. These mice (n=8-10) were injected with a liver-specific adeno-associated virus driving expression of human CETP, mimicking the human CETP activity/apoA-I ratio, and the 3 major human HDL subpopulations. Using this model ( APOA1 Tg ;Ldlr -/- ;Gp Tg ), we examined the impact of diabetes on dyslipidemia, HDL particle concentration (HDL-P), and serum HDL function. Induction of diabetes increased plasma TG and cholesterol, primarily due to an increase in VLDL, as compared with non-diabetic (ND) littermates. The dyslipidemia was associated with increases in hepatic TG content and hepatic TG production rate (2-fold over ND). Moreover, resident peritoneal macrophages from diabetic mice exhibited a 5-fold increase in CE loading, increased lipid raft content (20%), and increased Tnfa (3-fold) and Il1b mRNA (4-fold), as compared with ND littermates. In addition, T1DM mice had increased small, medium and large HDL-P (2-fold) concentrations compared with ND controls. Serum HDL from T1DM mice showed a significant increase in its cholesterol efflux capacity through both ABCA1 and ABCG1. Thus, in this humanized mouse model, poorly controlled T1DM leads to elevated plasma TG and VLDL due in part to increased hepatic TG production. This dyslipidemia is associated with higher HDL-P and an increase in serum HDL’s cholesterol efflux capacity, likely due to the increased plasma HDL-P. We have found similar changes in HDL concentration and function in humans with T1DM, suggesting that our mouse model might provide insights into CVD risk in T1DM patients.