Introduction: Diabetic kidney disease (DKD) necessitates innovative therapeutic strategies. This study delves into the role of DNA damage-inducing transcription factor 4 (DDIT4) within the VDR-mTOR pathway, aiming to identify a novel target for DKD drug discovery.
Methods: Transcriptome data from the Gene Expression Omnibus Database were analyzed to assess the expression of mTOR and VDR expression in human renal tissues. Clinical samples from DKD patients and minimal change disease (MCD) controls were examined, and a DKD animal model using 20-week-old db/db mice was established. DDIT4 plasmid transfection was employed to modulate the VDR-mTOR pathway, with its components evaluated using immunohistochemistry, real-time quantitative PCR (qRT-PCR), Western blotting, and enzyme-linked immunosorbent assay (ELISA).
Results: Changes in the expression of the VDR-mTOR pathway were observed in both DKD patients and the animal model. Overexpression of DDIT4 increased VDR expression and decreased levels of mTOR, p70s6k, and 4E-BP1. Furthermore, DDIT4 treatment regulated autophagy by upregulating LC3I expression and downregulating LC3II expression. Notably, DDIT4 alleviated oxidative stress by reducing the levels of lipid peroxidation product MDA, while simultaneously increasing the levels of superoxide dismutase (SOD) and glutathione (GSH), underscoring the role of DDIT4 in the pathological process of DKD and its potential as a therapeutic target.
Conclusion: Unraveling DDIT4's involvement in the VDR-mTOR pathway provides insights for innovative DKD drug discovery, emphasizing its potential as a therapeutic target for future interventions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10985261 | PMC |
| http://dx.doi.org/10.3389/fphar.2024.1344113 | DOI Listing |
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Unraveling DDIT4 in the VDR-mTOR pathway: a novel target for drug discovery in diabetic kidney disease.
Front Pharmacol
March 2024
Department of Nephrology, China-Japan Friendship Hospital, Beijing, China.
Introduction: Diabetic kidney disease (DKD) necessitates innovative therapeutic strategies. This study delves into the role of DNA damage-inducing transcription factor 4 (DDIT4) within the VDR-mTOR pathway, aiming to identify a novel target for DKD drug discovery.
Methods: Transcriptome data from the Gene Expression Omnibus Database were analyzed to assess the expression of mTOR and VDR expression in human renal tissues.
[1, 25(OH)D regulates the proliferation, fibrosis, and autophagy of mesangial cells induced by high glucose via the VDR/mTOR pathway].
Xi Bao Yu Fen Zi Mian Yi Xue Za Zhi
March 2022
Department of Nephrology, the First Affiliated Hospital of School of Medicine, Shihezi University, Shihezi 832000, China. *Corresponding author, E-mail:
Objective To investigate the effects of 1, 25(OH)D on the proliferation, fibrosis, and autophagy of mesangial cells mediated by high glucose and its mechanisms. Methods Rat glomerular mesangial cell line HBZY-1 was cultured in vitro and transfected with small interfering RNA (siRNA) to silence vitamin D receptor (VDR), and the transfection efficiency was detected by reverse transcription-PCR and Western blot. The cultured mesangial cells were divided into five groups: normal glucose group (NG group), high glucose group (HG group), high glucose combined with 1, 25(OH)D group (HG-VD group), high glucose combined with 1, 25(OH)D and si-VDR group (HG-VD-si-VDR group), high glucose combined with 1, 25(OH)D and mTOR activator MHY1485 group (HG-VD-MHY1485 group); the proliferation of mesangial cells was detected by MTT assay and EdU staining, and the levels of fibronectin (FN), collagen type I (Col1), and collagen type IV (Col4) were detected by ELISA.
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