Sodium glucose co-transporter 2 (SGLT2) inhibition via dapagliflozin improves diabetic kidney disease (DKD) over time associatied with increasing effect on the gut microbiota in db/db mice

Wu, Jiajia; Chen, Yan; Yang, Hang; Gu, Leyi; Ni, Zhaohui; Mou, Shan; Shen, Jianxiao; Che, Xiajing

doi:10.3389/fendo.2023.1026040

Cited by 8 publications

(6 citation statements)

References 53 publications

(71 reference statements)

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“…The dysfunction of DN in our study is compatible with previous studies using RNA‐seq demonstrating that glucolipid metabolic disorders characterized by insulin resistance, glucolipid toxicity, oxidative stress, and dysbacteriosis have become a very common metabolic defect closely associated with DN 7,14–19 . Previous research results by 16S rRNA gene sequencing on fecal samples suggested that DAPA improved DN possibly associated with the effect on the bile acid homeostasis and its antioxidation effect 13 . In theory, changed metabolism induced by altered microbiome composition can enter circulation and thereby impact peripheral tissue metabolism.…”

Section: Discussionsupporting

confidence: 91%

“…Due to failed energy utilization, multiple degradation pathways were activated and gene expression pathways were inhibited, as our conjoint analysis of ATAC‐seq and RNA‐seq data in CG vs Controls and two conjoint analyses reversed pathway results also all showed. After DAPA administration, we observed that the weight in TG gradually increased consistent with previous research, 9,12,13 despite studies showed that DAPA could reduce body weight in wt mice. We suppose that weight gains after DAPA intervention, the sign of disease status improvement, appear to manifest as improved energy utilization and increased gene expression suggested by several enrichment results in TG versus CG.…”

Section: Discussionsupporting

confidence: 90%

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Integrative ATAC‐seq and RNA‐seq analysis associated with diabetic nephropathy and identification of novel targets for treatment by dapagliflozin

Shen,

Ying,

et al. 2024

Cell Biochemistry & Function

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Dapagliflozin (DAPA) are clinically effective in improving diabetic nephropathy (DN). However, whether and how chromatin accessibility changed by DN responds to DAPA treatment is unclear. Therefore, we performed ATAC‐seq, RNA‐seq, and weighted gene correlation network analysis to identify the chromatin accessibility, the messenger RNA (mRNA) expression, and the correlation between clinical phenotypes and mRNA expression using kidney from three mouse groups: db/m mice (Controls), db/db mice (case group), and those treated with DAPA (treatment group). RNA‐Seq and ATAC‐seq conjoint analysis revealed many overlapping pathways and networks suggesting that the transcriptional changes of DN and DAPA intervention largely occured dependently on chromatin remodeling. Specifically, the results showed that some key signal transduction pathways, such as immune dysfunction, glucolipid metabolism, oxidative stress and xenobiotic and endobiotic metabolism, were repeatedly enriched in the analysis of the RNA‐seq data alone, as well as combined analysis with ATAC‐seq data. Furthermore, we identified some candidate genes (UDP glucuronosyltransferase 1 family, Dock2, Tbc1d10c, etc.) and transcriptional regulators (KLF6 and GFI1) that might be associated with DN and DAPA restoration. These reversed genes and regulators confirmed that pathways related to immune response and metabolism pathways were critically involved in DN progression.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionsupporting

confidence: 90%

Integrative ATAC‐seq and RNA‐seq analysis associated with diabetic nephropathy and identification of novel targets for treatment by dapagliflozin

Shen,

Ying,

et al. 2024

Cell Biochemistry & Function

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“…18,24 However, the mechanisms by which SGLT2 inhibitors attenuate liver fibrosis, especially in addition to their hypoglycemic effects, remain unclear and need to be further explored. In the past decade, many studies have found that SGLT2 inhibitors can improve various diseases, such as diabetic kidney disease 25 and atherosclerosis, 14 by modulating gut microbiota, suggesting that gut microbiota might also play an important role in their alleviation of liver fibrosis. The intestinal flora is now considered a novel virtual metabolic organ that maintains homeostasis in the host.…”

Section: Discussionmentioning

confidence: 99%

Empagliflozin attenuates liver fibrosis in high‐fat diet/streptozotocin‐induced mice by modulating gut microbiota

Huang,

Qian,

Liu

et al. 2024

Clin Exp Pharma Physio

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The effects of SGLT2 inhibitors on hepatic fibrosis in diabetes remain unclear. This study aimed to investigate the effects of empagliflozin on liver fibrosis in high‐fat diet/streptozotocin‐induced mice and the correlation with gut microbiota. After the application of empagliflozin for 6 weeks, we performed oral glucose tolerance and intraperitoneal insulin tolerance tests to assess glucose tolerance and insulin resistance, and stained liver sections to evaluate histochemical and hepatic pathological markers of liver fibrosis. Moreover, 16S rRNA amplicon sequencing was performed on stool samples to explore changes in the composition of intestinal bacteria. We finally analysed the correlation between gut microbiome and liver fibrosis scores or indicators of glucose metabolism. The results showed that empagliflozin intervention improved glucose metabolism and liver function with reduced liver fibrosis, which might be related to changes in intestinal microbiota. In addition, the abundance of intestinal probiotic Lactobacillus increased, while Ruminococcus and Adlercreutzia decreased after empagliflozin treatment, and correlation analysis showed that the changes in microbiota were positively correlated with liver fibrosis and glucose metabolism. Overall, considering the contribution of the gut microbiota in metabolism, empagliflozin might have improved the beneficial balance of intestinal bacteria composition. The present study provides evidence and indicates the involvement of the gut–liver axis by SGLT2 inhibitors in T2DM with liver fibrosis.

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“…In experimental models of diabetes, microbiota-derived phenyl sulfate (PS) is associated with the progression of albuminuria ( Kikuchi et al., 2019 ). Several recent studies have shown that regulating gut microbiota dysbiosis and improving intestinal barrier function can effectively reduce uremic toxin levels and serum proinflammatory mediators [such as tumor necrosis factor-α, interleukin (IL)-1β, and IL-18], thereby delaying the progression of DN ( Han et al., 2023 ; Shi et al., 2023 ; Wang et al., 2023 ; Wu et al., 2023 ). These studies indicate that gut microbiota disorders play an essential role in the development of DN, and further exploration is needed to diagnose or treat DN by targeting the composition of gut microbiota ( Figure 1 ).…”

Section: Gut Microbiota In Dn Patientsmentioning

confidence: 99%

“…Diabetic nephropathy (DN) is one of the common microvascular complications, characterized by structural and functional damage to the kidneys ( Wu and Huang, 2023 ). Clinical manifestations include massive proteinuria, hypertension, and edema, and it is one of the main causes of end-stage renal disease (ESRD) ( Wu et al., 2023 ). At present, the diagnosis of DN depends on a decreased glomerular filtration rate (GFR) or increased urinary albumin excretion (UAE), but these changes are not unique to DN, and the diagnostic sensitivity and specificity in the preclinical stage of diabetic kidney damage are also limited ( Oshima et al., 2021 ).…”

Section: Introductionmentioning

confidence: 99%

Gut microbiota microbial metabolites in diabetic nephropathy patients: far to go

Yu,

Chen,

Zang

et al. 2024

Front. Cell. Infect. Microbiol.

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Diabetic nephropathy (DN) is one of the main complications of diabetes and a major cause of end-stage renal disease, which has a severe impact on the quality of life of patients. Strict control of blood sugar and blood pressure, including the use of renin–angiotensin–aldosterone system inhibitors, can delay the progression of diabetic nephropathy but cannot prevent it from eventually developing into end-stage renal disease. In recent years, many studies have shown a close relationship between gut microbiota imbalance and the occurrence and development of DN. This review discusses the latest research findings on the correlation between gut microbiota and microbial metabolites in DN, including the manifestations of the gut microbiota and microbial metabolites in DN patients, the application of the gut microbiota and microbial metabolites in the diagnosis of DN, their role in disease progression, and so on, to elucidate the role of the gut microbiota and microbial metabolites in the occurrence and prevention of DN and provide a theoretical basis and methods for clinical diagnosis and treatment.

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Sodium glucose co-transporter 2 (SGLT2) inhibition via dapagliflozin improves diabetic kidney disease (DKD) over time associatied with increasing effect on the gut microbiota in db/db mice

Cited by 8 publications

References 53 publications

Integrative ATAC‐seq and RNA‐seq analysis associated with diabetic nephropathy and identification of novel targets for treatment by dapagliflozin

Integrative ATAC‐seq and RNA‐seq analysis associated with diabetic nephropathy and identification of novel targets for treatment by dapagliflozin

Empagliflozin attenuates liver fibrosis in high‐fat diet/streptozotocin‐induced mice by modulating gut microbiota

Gut microbiota microbial metabolites in diabetic nephropathy patients: far to go

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