Fecha de publicación:
12/11/2024
Fuente: PubMed "olive oil"
Animal Model Exp Med. 2024 Nov 12. doi: 10.1002/ame2.12490. Online ahead of print.ABSTRACTHypertriglyceridemia (HTG) often accompanies diabetes and is considered a risk factor for diabetic vascular complications. However, inducing diabetic HTG typically requires high-fat diets in certain animal models. Leveraging our newly developed LDL receptor knockout hamster model, which exhibits features akin to human lipid metabolism, we sought to determine whether these animals would develop HTG without dietary manipulations in diabetes. Diabetes was induced via intraperitoneal injection of STZ in wild type and heterozygous LDL receptor deficient hamsters. Blood glucose, triglyceride, and cholesterol were measured over 60 days. Plasma TG clearance was determined via olive oil gavage. The effect of insulin on diabetic HTG was assessed on Day 60 post-diabetes induction. Blood glucose increased over threefold, while plasma insulin decreased to 30% of controls after STZ injection in both wild type and heterozygous hamsters by Day 7, remaining stable for 60 days. Plasma TG in wild-type hamsters remained unchanged at Day 7 post-STZ injection but increased slightly thereafter. Conversely, heterozygous hamsters exhibited severe HTG by Day 7 until the end of the study. Olive oil gavage revealed much slower plasma triglyceride clearance in heterozygous hamsters compared to WT animals, despite significantly reduced lipoprotein lipase activity in post-heparin plasma in both animals. Hyperglycemia and HTG in heterozygous hamsters were reversed to pre-diabetic levels following intraperitoneal insulin administration. In conclusion, severe HTG in diabetic heterozygous LDL receptor deficient hamsters developed spontaneously and was insulin-dependent. Thus, this hamster model holds promise for effectively studying the complications associated with human diabetic HTG.PMID:39529532 | DOI:10.1002/ame2.12490