AI Article Synopsis
- * Only male Cd248-/- mice exhibited significant metabolic differences, such as a lower respiratory exchange ratio and decreased fat storage, suggesting enhanced lipid metabolism.
- * Findings emphasize the necessity of considering sex differences in metabolic studies, highlighting Cd248’s specific impact on male lipid metabolism and gene expression.
Article Abstract
Cd248 has recently been associated with adipose tissue physiology, demonstrated by reduced weight gain in high fat diet-fed mice with genetic deletion of Cd248 relative to controls. Here we set out to determine the metabolic consequences of loss of Cd248. Strikingly, we find these to be sex specific; By subjecting Cd248-/- and Cd248+/+ mice to a high fat diet and indirect calorimetry study, we identified that only male Cd248-/- mice show reduced weight gain compared to littermate control wildtype mice. In addition, male (but not female) mice showed a lower respiratory exchange ratio on both chow and high fat diets, indicating a predisposition to metabolise lipid. Lipidomic studies on specific fat depots found reduced triglyceride and diglyceride deposition in male Cd248-/- mice, and this was supported by reduced expression of lipogenic and adipogenic genes. Finally, metabolomic analysis of isolated, differentiated preadipocytes found alterations in metabolic pathways associated with lipid deposition in cells isolated from male, but not female, Cd248-/- mice. Overall, our results highlight the importance of sex controls in animal studies and point to a role for Cd248 in sex- and depot-specific regulation of lipid metabolism.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10146461 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0284012 | PLOS |
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