[Quercetin ameliorates myocardial injury in diabetic rats by regulating L-type calcium channels].
Study Goal
The researchers aimed to investigate whether quercetin could mitigate myocardial injury in diabetic rats by influencing cuproptosis signaling and restoring L-type calcium channel activity.
Results Summary
Quercetin improved cardiac function, reduced serum copper levels, downregulated FDX1 expression, and enhanced L-type calcium currents in diabetic rats. It also lowered CK-MB and LDH levels in high-glucose-exposed cardiomyocytes, though its effects were less pronounced when combined with elesclomol.
Population
Streptozotocin-induced diabetic Sprague-Dawley rats and cultured rat cardiomyocyte H9c2 cells.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
quercetin | decrease | blood glucose | diabetic rats | - | significantly lowered | #1 |
quercetin | increase | body weight | diabetic rats | - | improved | #2 |
quercetin | increase | cardiac function | diabetic rats | - | restored | #3 |
quercetin | decrease | serum copper levels | diabetic rats | - | more effectively reduced | #4 |
quercetin | decrease | FDX1 expression | diabetic rats | - | downregulated | #5 |
quercetin | increase | myocardial L-type calcium currents | diabetic rats | - | enhanced | #6 |
quercetin | decrease | myocardial expressions of FDX1, CK-MB and LDH | H9c2 cells | - | effectively lowered | #7 |
quercetin | decrease | myocardial injury | diabetic rats | - | ameliorates | #8 |
empagliflozin | decrease | blood glucose | diabetic rats | - | significantly lowered | #9 |
empagliflozin | increase | body weight | diabetic rats | - | improved | #10 |
empagliflozin | increase | cardiac function | diabetic rats | - | restored | #11 |
high-fat and high-sugar diet combined with streptozotocin (STZ) injection | increase | diabetes mellitus (DM) | SD rats | - | induced | #12 |
- | increase | blood glucose | diabetic rats | - | exhibited elevated | #13 |
- | decrease | body weight | diabetic rats | - | reduced | #14 |
- | decrease | left ventricular function | diabetic rats | - | impaired | #15 |
- | increase | serum copper levels | diabetic rats | - | increased | #16 |
- | increase | myocardial FDX1 expression | diabetic rats | - | increased | #17 |
- | decrease | L-type calcium currents | diabetic rats | - | decreased | #18 |
- | increase | action potential duration | diabetic rats | - | prolonged | #19 |
high glucose exposure | increase | myocardial expressions of FDX1, CK-MB and LDH | H9c2 cells | - | significantly increased | #20 |
elesclomol | increase | FDX1, CK-MB and LDH levels | H9c2 cells | - | further elevated | #21 |
quercetin | no change | FDX1, CK-MB and LDH levels | H9c2 cells | - | not significantly affected | #22 |
OBJECTIVES: To investigate the effects of quercetin on cuproptosis and L-type calcium currents in the myocardium of diabetic rats. METHODS: Forty SD rats were randomized into control group and diabetic model groups. The rat models of diabetes mellitus (DM) induced by high-fat and high-sugar diet combined with streptozotocin (STZ) injection were further divided into DM model group, quercetin treatment group, and empagliflozin treatment group (n=10). Blood glucose and body weight were measured every other week, and cardiac function of the rats was evaluated using echocardiography. HE staining, Sirius red staining, and wheat germ agglutinin (WGA) analysis were used to observe the changes in myocardial histomorphology, and serum copper levels and myocardial FDX1 expression were detected. In cultured rat cardiomyocyte H9c2 cells with high-glucose exposure, the effects of quercetin and elesclomol, alone or in combination, on intracellular CK-MB and LDH levels and FDX1 expression were assessed, and the changes in L-type calcium currents were analyzed using patch-clamp technique. RESULTS: The diabetic rats exhibited elevated blood glucose, reduced body weight, impaired left ventricular function, increased serum copper levels and myocardial FDX1 expression, decreased L-type calcium currents, and prolonged action potential duration. Quercetin and empagliflozin treatment significantly lowered blood glucose, improved body weight, and restored cardiac function of the diabetic rats, and compared with empagliflozin, quercetin more effectively reduced serum copper levels, downregulated FDX1 expression, and enhanced myocardial L-type calcium currents in diabetic rats. In H9c2 cells, high glucose exposure significantly increased myocardial expressions of FDX1, CK-MB and LDH, which were effectively lowered by quercetin treatment; Elesclomol further elevated FDX1, CK-MB and LDH levels in the exposed cells, and these changes were not significantly affected by the application of quercetin. CONCLUSIONS: Quercetin ameliorates myocardial injury in diabetic rats possibly by suppressing myocardial cuproptosis signaling and restoring L-type calcium channel activity.