Sex differences in intraorgan fat levels and hepatic lipid metabolism: implications for cardiovascular health and remission of type 2 diabetes after dietary weight loss.

AIMS/HYPOTHESIS: Type 2 diabetes confers a greater relative increase in CVD risk in women compared with men. We examined sex differences in intraorgan fat and hepatic VLDL1-triacylglycerol (VLDL1-TG) export before and after major dietary weight loss. METHODS: A group with type 2 diabetes (n = 64, 30 male/34 female) and a group of healthy individuals (n = 25, 13 male/12 female) were studied. Intraorgan and visceral fat were quantified by magnetic resonance and VLDL1-TG export by intralipid infusion techniques. RESULTS: Triacylglycerol content of the liver and pancreas was elevated in people with diabetes with no sex differences (liver 16.4% [9.3-25.0%] in women vs 11.9% [7.0-23.1%] in men, p = 0.57, and pancreas 8.3 ± 0.5% vs 8.5 ± 0.4%, p = 0.83, respectively). In the absence of diabetes, fat levels in both organs were lower in women than men (1.0% [0.9-1.7%] vs 4.5% [1.9-8.0%], p = 0.005, and 4.7 ± 0.4% vs 7.6 ± 0.5%, p< 0.0001, respectively). Women with diabetes had higher hepatic VLDL1-TG production rate and plasma VLDL1-TG than healthy women (559.3 ± 32.9 vs 403.2 ± 45.7 mg kg-1 day-1, p = 0.01, and 0.45 [0.26-0.77] vs 0.25 [0.13-0.33] mmol/l, p = 0.02), whereas there were no differences in men (548.8 ± 39.8 vs 506.7 ± 29.2 mg kg-1 day-1, p = 0.34, and 0.72 [0.53-1.15] vs 0.50 [0.32-0.68] mmol/l, p = 0.26). Weight loss decreased intraorgan fat and VLDL1-TG production rates regardless of sex, and these changes were accompanied by similar rates of diabetes remission (65.4% vs 71.0%) and CVD risk reduction (59.8% vs 41.5%) in women and men, respectively. CONCLUSIONS/INTERPRETATION: In type 2 diabetes, women have liver and pancreas fat levels as high as those of men, associated with raised hepatic VLDL1-TG production rates. Dynamics of triacylglycerol turnover differ between sexes in type 2 diabetes and following weight loss. These changes may contribute to the disproportionately raised cardiovascular risk of women with diabetes.

Hepatic ABCA1 deficiency is associated with delayed apolipoprotein B secretory trafficking and augmented VLDL triglyceride secretion.

ATP binding cassette transporter A1 (ABCA1) is a membrane transporter that facilitates nascent HDL formation. Tangier disease subjects with complete ABCA1 deficiency have <5% of normal levels of plasma HDL, elevated triglycerides (TGs), and defective vesicular trafficking in fibroblasts and macrophages. Hepatocyte-specific ABCA1 knockout mice (HSKO) have a similar lipid phenotype with 20% of normal plasma HDL levels and a two-fold elevation of plasma TGs due to hepatic overproduction of large, triglyceride-enriched VLDL. We hypothesized that enhanced VLDL TG secretion in the absence of hepatocyte ABCA1 is due to altered intracellular trafficking of apolipoprotein B (apoB), resulting in augmented TG addition to nascent VLDL. We found that trafficking of newly synthesized apoB through the secretory pathway was delayed in ABCA1-silenced rat hepatoma cells and HSKO primary hepatocytes, relative to controls. Endoglycosidase H treatment of cellular apoB revealed a likely delay in apoB trafficking in post-ER compartments. The reduced rate of protein trafficking was also observed for an adenoviral-expressed GPI-linked fluorescent fusion protein, but not albumin, suggesting a selective delay of secretory cargoes in the absence of hepatocyte ABCA1. Our results suggest an important role for hepatic ABCA1 in regulating secretory trafficking and modulating VLDL expansion during the TG accretion phase of hepatic lipoprotein particle assembly.

Basal and insulin-regulated VLDL1 and VLDL2 kinetics in men with type 2 diabetes.

AIMS/HYPOTHESIS: Hypertriacylglycerolaemia is a hallmark of diabetic dyslipidaemia with increased concentrations of triacylglycerol (TG)-rich VLDL1 particles. However, whether VLDL1 secretion or removal is abnormal in type 2 diabetes remains unclear. The aim of this study was to compare basal and insulin-mediated VLDL1- and VLDL2-TG kinetics in men with type 2 diabetes and healthy men using a novel direct VLDL1- and VLDL2-TG labelling method. METHODS: Twelve men with type 2 diabetes and 12 healthy men matched for age and BMI were recruited. VLDL1- and VLDL2-TG turnover were measured during a 4 h basal period and a 3.5 h hyperinsulinaemic clamp period using a primed-constant infusion of ex vivo labelled VLDL1-TG and VLDL2-TG. RESULTS: Basal VLDL1-TG and VLDL2-TG secretion rates were similar in men with diabetes and healthy men. During hyperinsulinaemia, VLDL1-TG secretion rates were suppressed significantly in both groups, whereas no suppression of VLDL2-TG secretion rate was observed. VLDL1-TG to VLDL2-TG transfer rate was not significantly different from zero in both groups, while VLDL1-TG fatty acid oxidation rate was substantial, with a contribution to total energy expenditure of approximately 15% during postabsorptive conditions. VLDL1 and VLDL2 particle size (TG/apolipoprotein B [apoB] ratio) and apoB-100 concentration were unaltered by hyperinsulinaemia in men with type 2 diabetes, but significantly reduced in healthy men. CONCLUSIONS/INTERPRETATION: Insulin inhibits VLDL1-TG secretion rate similarly in age- and BMI-matched men with type 2 diabetes and healthy men, while VLDL2-TG secretion is unaltered by hyperinsulinaemia. However, VLDL1- and VLDL2-apoB levels are not lowered by hyperinsulinaemia in men with type 2 diabetes, which is indicative of a diminished hepatic response to insulin. TRIAL REGISTRATION: ClinicalTrials.gov NCT01564550.

Proceedings of the annual meeting of the European Consortium of Lipodystrophies (ECLip), Pisa, Italy, 28-29 September 2023.

Lipodystrophy syndromes are rare diseases primarily affecting the development or maintenance of the adipose tissue but are also distressing indirectly multiple organs and tissues, often leading to reduced life expectancy and quality of life. Lipodystrophy syndromes are multifaceted disorders caused by genetic mutations or autoimmunity in the vast majority of cases. While many subtypes are now recognized and classified, the disease remains remarkably underdiagnosed. The European Consortium of Lipodystrophies (ECLip) was founded in 2014 as a non-profit network of European centers of excellence working in the field of lipodystrophies aiming at promoting international collaborations to increase basic scientific understanding and clinical management of these syndromes. The network has developed a European Patient Registry as a collaborative research platform for consortium members. ECLip and ECLip registry activities involve patient advocacy groups to increase public awareness and to seek advice on research activities relevant from the patients perspective. The annual ECLip congress provides updates on the research results of various network groups members.

Hepatic Lipoprotein Export and Remission of Human Type 2 Diabetes after Weight Loss.

The role of hepatic lipoprotein metabolism in diet-induced remission of type 2 diabetes is currently unclear. Here, we determined the contributions of hepatic VLDL1-triglyceride production rate and VLDL1-palmitic acid content to changes in intra-pancreatic fat and return of first phase insulin response in a subgroup of the Diabetes Remission Clinical Trial. Liver fat, VLDL1-triglyceride production, and intra-pancreatic fat decreased after weight loss and remained normalized after 24 months of remission. First-phase insulin response remained increased only in those maintaining diabetes remission. Compared with those in remission at 24 months, individuals who relapsed after initial remission had a greater rise in the content of VLDL1-triglyceride and VLDL1-palmitic acid, re-accumulated intra-pancreatic fat, and lost first-phase response by 24 months. Thus, we observed temporal relationships between VLDL1-triglyceride production, hepatic palmitic acid flux, intra-pancreatic fat, and ß-cell function. Weight-related disordered fat metabolism appears to drive development and reversal of type 2 diabetes.