Effects of Vitamin D3 Supplementation and Aerobic Training on Autophagy Signaling Proteins in a Rat Model Type 2 Diabetes Induced by High-Fat Diet and Streptozotocin

Golpasandi, Hadi; Rahimi, Mohammad Rahman; Ahmadi, Slahadin; Łubkowska, Beata; Cięszczyk, Paweł

doi:10.3390/nu15184024

Nutrients

2023

DOI: 10.3390/nu15184024

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Effects of Vitamin D3 Supplementation and Aerobic Training on Autophagy Signaling Proteins in a Rat Model Type 2 Diabetes Induced by High-Fat Diet and Streptozotocin

Hadi Golpasandi,

Mohammad Rahman Rahimi,

Slahadin Ahmadi

et al.

Abstract: The aim of this study was to investigate the combined effects of vitamin D3 supplementation and aerobic training on regulating the autophagy process in rats with type 2 diabetic induced by a high-fat diet and streptozotocin. A total of 40 Wistar rats were divided into five groups: normal control (NC), diabetic control (DC), diabetic + aerobic training (DAT), diabetic + vitamin D3 (DVD), and diabetic + aerobic training + vitamin D3 (DVDAT). The rats underwent eight weeks of aerobic training with an intensity of… Show more

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Cited by 3 publications

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1,25-dihydroxyvitamin D3 regulates enteroglial bioactivity through butyric acid pathway in a high-fat diet mouse model

Feng,

Su,

et al. 2025

The Journal of Steroid Biochemistry and Molecular Biology

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1,25-dihydroxyvitamin D3 regulates enteroglial bioactivity through butyric acid pathway in a high-fat diet mouse model

Feng,

Su,

et al. 2025

The Journal of Steroid Biochemistry and Molecular Biology

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Vitamin D as a modulator of molecular pathways involved in CVDs: Evidence from preclinical studies

Anilkumar S,

Dutta,

Aboo

et al. 2024

Life Sciences

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Causal effect of immune cells, metabolites, cathepsins, and vitamin therapy in diabetic retinopathy: a Mendelian randomization and cross-sectional study

Zhou,

Wang,

Cui

2024

Front. Immunol.

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BackgroundDiabetic retinopathy (DR) is a major microvascular complication of diabetes and a leading cause of blindness worldwide. The pathogenesis of DR involves complex interactions between metabolic disturbances, immune cells, and proteolytic enzymes such as cathepsins (CATs). Despite various studies, the precise roles of different CATs, metabolites, and vitamins in DR remain unclear.MethodIn this study, we employed Mendelian Randomization (MR) to assess causal relationships using genetic instruments selected based on genome-wide association studies (GWAS). We employed two-sample and mediation MR to explore the causal effects between nine CATs, immune cells, metabolites, vitamins, and DR. Additionally, the study also incorporated data from the NHANES survey to explore the associated relationship between vitamins and DR. We utilized cross-sectional data from the NHANES to analyze the association between vitamin intake and diabetic retinopathy (DR), adjusting for potential confounders to strengthen the validity of our findings.ResultsThe MR analysis identified CAT H as a significant risk factor for both NPDR and PDR, with no evidence of reverse causality. Additionally, 62 immune cell traits were found to have causal relationships with NPDR and 49 with PDR. Enrichment analysis revealed that metabolic pathways such as sphingolipid metabolism are crucial in DR progression. Vitamins B6 and E were significantly associated with a reduced risk of PDR. Cross-sectional data indicated that vitamins B1, B2, B6, B12, and E progressively decreased with DR severity.ConclusionThis study is the first to identify CAT H as a key risk factor for DR, while vitamins B6 and E showed significant protective effects, particularly against PDR. These findings suggest that CAT H, along with vitamins B6 and E, could serve as therapeutic targets for DR. Further validation through larger, multi-center studies is recommended to enhance the accuracy and applicability of these findings.

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Effects of Vitamin D3 Supplementation and Aerobic Training on Autophagy Signaling Proteins in a Rat Model Type 2 Diabetes Induced by High-Fat Diet and Streptozotocin

Cited by 3 publications

References 93 publications

1,25-dihydroxyvitamin D3 regulates enteroglial bioactivity through butyric acid pathway in a high-fat diet mouse model

1,25-dihydroxyvitamin D3 regulates enteroglial bioactivity through butyric acid pathway in a high-fat diet mouse model

Vitamin D as a modulator of molecular pathways involved in CVDs: Evidence from preclinical studies

Causal effect of immune cells, metabolites, cathepsins, and vitamin therapy in diabetic retinopathy: a Mendelian randomization and cross-sectional study

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