Gene Expression Profiling of the Sciatic Nerve in Streptozotocin-Induced Diabetic Rats with Peripheral Neuropathy

Tu, Yiji; Chen, Zenggan; Zhang, Feng; Di, Zheng-Lin; Zhang, Junhui; Cai, Lanlan

doi:10.1155/2020/5283284

Cited by 9 publications

(7 citation statements)

References 44 publications

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“…Schwann is sensitive to insulin and glucose concentrations, and Schwann cell dysfunction is implicated in the development of DPN [4]. A previous study showed that KLF11, a diabetesrelated transcription factor, was downregulated in rats with diabetic peripheral neuropathy [8]. The effect of KLF11 on Schwann cells was investigated, and it was discovered that high glucose treatment reduced Schwann cell viability and promoted cell apoptosis [9], and high glucose-treated Schwann has been used as model of DPN [9].…”

Section: Discussionmentioning

confidence: 99%

“…KLF11 repressed gluconeogenesis and reduced cellular glucose output, thereby improving hyperglycemia and glucose intolerance in diabetic mice [7]. Moreover, KLF11 expression was downregulated in sciatic nerve tissues of streptozotocin-stimulated diabetic peripheral neuropathy rats [8]. Therefore, it has been hypothesized that KLF11 is involved in the pathogenesis of DPN.…”

Section: Introductionmentioning

confidence: 99%

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KLF11 enhances the effect of liraglutide in high glucoseinduced Schwann cells by regulating endoplasmic reticulum stress and autophagy through inactivation of P38 MAPK

Xiao,

Jiang,

Zhu

et al. 2023

Trop. J. Pharm Res

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Purpose: To investigate the effect of Kruppel-Like Factor 11 (KLF11) on diabetic peripheral neuropathy (DPN).Methods: Schwann cells, RSC96, were treated with high glucose to induce DPN. Cell viability and apoptosis were evaluated by flow cytometry. Expressions of KLF11 and proteins involved in endoplasmic reticulum (ER) stress and autophagy were evaluated by western blot.Results: The KLF11 was downregulated in high glucose-induced RSC96. Cell viability of RSC96 was decreased and apoptosis increased by high glucose. Overexpression of KLF11 restored viability and decreased apoptosis of high glucose-induced RSC96. High glucose-induced an increase in proteins involved in ER stress in RSC96, and but reversed by KLF11 overexpression. Overexpression of KLF11 also attenuated high glucose-induced decrease in LC3 and Beclin1 expression in RSC96 cells. Phosphorylated p38 (p-p38) in high glucose-induced RSC96 decreased upon overexpression of KLF11. Liraglutide treatment increased cell viability and autophagy, decreased cell apoptosis, and inhibited ER stress in high glucose-induced RSC96. Furthermore, KLF11 enhanced the protective activity of liraglutide against high glucose-induced cytotoxicity in Schwann cells.Conclusion: Overexpression of KLF11 exerts a neuroprotective effect against DPN by promotingu autophagy and inhibiting ER stress via inactivation of p38 signaling, suggesting that KLF11 might be a target for DPN.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

KLF11 enhances the effect of liraglutide in high glucoseinduced Schwann cells by regulating endoplasmic reticulum stress and autophagy through inactivation of P38 MAPK

Xiao,

Jiang,

Zhu

et al. 2023

Trop. J. Pharm Res

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“…The decline in NPY level was also evident in the spinal nerve roots of the rats in the treated area of DRG, which was associated with some degrees of spinal cord dystrophy. An earlier study has demonstrated increased volume and number of sprouting nerves subsequent to moderate intensity exercise in experimental rats [22]. Also, other studies have demonstrated that exercise has led to the adaptation, increased motor units and innervation of the muscles involved in exercising [23].…”

Section: Effect On Npy Levelmentioning

confidence: 96%

“…Although there is no experimental data available on the effect of nano-eugenol combined with concurrent exercise in experimental animals, our preliminary findings suggest that nano-eugenol provided and enhanced the level of antioxidant support such that neuronal damages due to diabetes could be reduced, repaired or prevented in experimental animals. In this context, further research is warranted to establish the cellular and molecular mechanisms by which the combination of aerobic exercise and nano-eugenol supplementation inhibit the destructive effects of diabetes in animal and human models [22,23].…”

Section: Effect On Npy Levelmentioning

confidence: 99%

Effect of Nano-eugenol and Aerobic Exercise Against the Streptozotocin Toxicity and Inflammatory Mediators P38-MAPK, NPY, and A-Rα2A in the Dorsal Root Ganglia of Diabetic Rats

boroujeni

Dehkordi

Sharifi

et al. 2021

IJT

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Background: The aim of this study was to investigate the effects of nano-eugenol combined with aerobic exercise against the streptozotocin toxicity and inflammatory mediators P38-MAPK, NPY and A-Rα2A in the dorsal root ganglia of diabetic rats. Methods: Twenty-five, 8-week-old Wistar male rats were divided into 5 groups: 1) normal control group (normal model); 2) diabetic control group (diabetic model); 3), diabetic + exercise group (diabetic+exercise model); 4) diabetic group + nano-eugenol (diabetic+nano model); and 5) diabetic + exercise + nano-eugenol (diabetic+exercise+nano model). Diabetes was induced in the experimental groups 2 through 5 by the intraperitoneal injection of streptozotocin at 4mg/100 grams of the rats’ body weight. The nano-eugenol supplement was also gavaged into the supplement groups 4 and 5 only. Groups 3 and 5 exercised progressively at a speed of 8 to 20 meter/min for 5 to 30 min, five days a week over the 8-week study duration. Results: The diabetic rats that exercised and were treated with the nano-eugenol, showed a significant decrease in P38-MAPK gene expression compared to the normal model group (P=0.001). The study of the therapeutic modalities also showed that only the diabetic + exercise + nano-eugenol group showed a significant increase in NPY and A-Rα2A genes compared to the normal model (P=0.001). Conclusion: Based on the results, the use of nano-eugenol supplementation combined with aerobic exercise is likely to be effective in controlling the neurological damages due to diabetes by negatively regulating the P38-MAPK gene while positively regulating the NPY and A-Rα2A genes in the DRG region.

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“…A study reported that elevated spinal cord area index (SCAI) through upregulation can reduce the development of DPN by inhibiting the Wnt/β-catenin pathway upregulation [53]. This study suggested that targeting the SCAI signaling may be an alternative approach for treating DPN [53].…”

Section: Neuropathymentioning

confidence: 99%

The Contribution of Wnt Signaling to Vascular Complications in Type 2 Diabetes Mellitus

Torre

García-Fontana

González-Salvatierra

et al. 2022

IJMS

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Vascular complications are the leading cause of morbidity and mortality among patients with type 2 diabetes mellitus (T2DM). These vascular abnormalities result in a chronic hyperglycemic state, which influences many signaling molecular pathways that initially lead to increased oxidative stress, increased inflammation, and endothelial dysfunction, leading to both microvascular and macrovascular complications. Endothelial dysfunction represents the initial stage in both types of vascular complications; it represents “mandatory damage” in the development of microvascular complications and only “introductory damage” in the development of macrovascular complications. Increasing scientific evidence has revealed an important role of the Wnt pathway in the pathophysiology of the vascular wall. It is well known that the Wnt pathway is altered in patients with T2DM. This review aims to be an update of the current literature related to the Wnt pathway molecules that are altered in patients with T2DM, which may also be the cause of damage to the vasculature. Both microvascular complications (retinopathy, nephropathy, and neuropathy) and macrovascular complications (coronary artery disease, cerebrovascular disease, and peripheral arterial disease) are analyzed. This review aims to concisely concentrate all the evidence to facilitate the view on the vascular involvement of the Wnt pathway and its components by highlighting the importance of exploring possible therapeutic strategy for patients with T2DM who develop vascular pathologies.

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Gene Expression Profiling of the Sciatic Nerve in Streptozotocin-Induced Diabetic Rats with Peripheral Neuropathy

Cited by 9 publications

References 44 publications

KLF11 enhances the effect of liraglutide in high glucoseinduced Schwann cells by regulating endoplasmic reticulum stress and autophagy through inactivation of P38 MAPK

KLF11 enhances the effect of liraglutide in high glucoseinduced Schwann cells by regulating endoplasmic reticulum stress and autophagy through inactivation of P38 MAPK

Effect of Nano-eugenol and Aerobic Exercise Against the Streptozotocin Toxicity and Inflammatory Mediators P38-MAPK, NPY, and A-Rα2A in the Dorsal Root Ganglia of Diabetic Rats

The Contribution of Wnt Signaling to Vascular Complications in Type 2 Diabetes Mellitus

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