来自天真或糖尿病小鼠的骨髓细胞在自身免疫性 1 型糖尿病中的潜能:免疫调节、抗炎、抗高血糖和抗氧化。

IF 3 3区 医学 Q2 ENDOCRINOLOGY & METABOLISM
Soha Gomaa, Mohamed Nassef, Amira Hafez
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引用次数: 0

摘要

背景:移植人体胰岛组织的稀缺性以及为防止异体移植排斥而需要的免疫抑制药物,阻碍了通过胰岛移植治疗自身免疫性 1 型糖尿病(T1DM)。然而,骨髓细胞(BMCs)收养转移疗法带来了希望,它已成为即将推出的药物的一个有利途径。目的:本研究的主要目的是评估从幼稚小鼠(nBMCs)或糖尿病小鼠(dBMCs)获得的被收养转移骨髓细胞在治疗T1DM小鼠模型中的有效性:雄性瑞士白化小鼠饥饿 16 小时,然后连续 5 天以每公斤体重 40 毫克的剂量注射链脲佐菌素(STZ)诱导 T1DM。14 天后,糖尿病小鼠被分成四组。第一组为糖尿病对照组,用柠檬酸钠缓冲液治疗,其他三组分别用胰岛素(皮下注射,剂量为 8 U/kg/天)、nBMCs(静脉注射,剂量为 1 × 106 个细胞/只小鼠/次)和 dBMCs(静脉注射,剂量为 1 × 106 个细胞/只小鼠/次)治疗两周:值得注意的是,给 STZ 诱导的 T1DM 小鼠注射经收养转移的 nBMCs 或收养转移的 dBMCs 可显著改善血糖状况,同时显著降低血糖水平和糖化血红蛋白百分比(HbA1C %),最终使血清胰岛素水平恢复到对照组小鼠的初始状态。给 STZ 诱导的 T1DM 小鼠注射 nBMCs 或 dBMCs 可显著降低血清中炎症细胞因子标志物的水平,包括干扰素-γ (INF-γ)、肿瘤坏死因子-α (TNF-α)、肿瘤生长因子-β (TGF-β)、白细胞介素-1 β (L-1β)、白细胞介素-4 (IL-4)、白细胞介素-6 (IL-6) 和白细胞介素-10 (IL-10)。此外,STZ 诱导的 T1DM 小鼠在接受 nBMCs 或 dBMCs 治疗后,总免疫球蛋白(Ig)水平显著上升。此外,胰岛细胞自身抗体(ICA)和胰岛素自身抗体(IAA)的水平也明显下降。此外,STZ 诱导的 T1DM 小鼠血清中的锌转运体 8 抗原蛋白(ZnT8)、胰岛抗原 2 蛋白(IA-2)和谷氨酸脱羧酶抗原蛋白(GAD)水平显著增加。有趣的是,在 STZ 诱导的 T1DM 小鼠中,给予 nBMCs 或 dBMCs 会导致 IA-2 蛋白表达增加。此外,未经 STZ 诱导的 T1DM 小鼠体内丙二醛(MDA)水平升高,而过氧化氢酶(CAT)和超氧化物歧化酶(SOD)水平降低。然而,给 STZ 诱导的 T1DM 小鼠注射 nBMCs 或 dBMCs 后,对减少氧化应激有显著影响。这主要是通过降低血清中的 MDA 水平和提高 CAT 和 SOD 等酶抗氧化剂的活性来实现的。STZ 诱导的 T1DM 小鼠的肝酶 ALT 和 AST 水平明显升高,肌酐和尿素水平也有所升高。考虑到肝脏和肾脏在新陈代谢和排泄中的重要作用,本研究进一步探讨了给 STZ 诱导的 T1DM 小鼠注射 nBMCs 或 dBMCs 的效果。值得注意的是,给予这些细胞缓解了观察到的影响:本研究表明,在治疗 T1DM 的过程中,利用收养性转移的 nBMCs 或收养性转移的 dBMCs 可显著降低血糖水平,这可能是由于它们具有增强胰岛素分泌和改善胰岛功能的能力。此外,BMCs 可能通过其免疫调节、抗氧化、抗炎和抗氧化应激特性对糖尿病小鼠的胰岛产生有益影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Potentials of bone marrow cells-derived from naïve or diabetic mice in autoimmune type 1 diabetes: immunomodulatory, anti-inflammatory, anti hyperglycemic, and antioxidative.

Potentials of bone marrow cells-derived from naïve or diabetic mice in autoimmune type 1 diabetes: immunomodulatory, anti-inflammatory, anti hyperglycemic, and antioxidative.

Background: The scarcity of transplanted human islet tissue and the requirement for immunosuppressive drugs to prevent the rejection of allogeneic grafts have hindered the treatment of autoimmune type 1 diabetes mellitus (T1DM) through islet transplantation. However, there is hope in adoptively transferred bone marrow cells (BMCs) therapy, which has emerged as a propitious pathway for forthcoming medications. BMCs have the potential to significantly impact both replacement and regenerative therapies for a range of disorders, including diabetes mellitus, and have demonstrated anti-diabetic effects.

Aim: The main goal of this study is to evaluate the effectiveness of adoptively transferred bone marrow cells derived from either naïve mice (nBMCs) or diabetic mice (dBMCs) in treating a T1DM mice model.

Methods: Male Swiss albino mice were starved for 16 h and then injected with streptozotocin (STZ) at a dose of 40 mg/kg body weight for 5 consecutive days to induce T1DM. After 14 days, the diabetic mice were distributed into four groups. The first group served as a diabetic control treated with sodium citrate buffer, while the other three groups were treated for two weeks, respectively, with insulin (subcutaneously at a dose of 8 U/kg/day), nBMCs (intravenously at a dose of 1 × 106 cells/mouse/once), and dBMCs (intravenously at a dose of 1 × 106 cells/mouse/once).

Results: It is worth noting that administering adoptively transferred nBMCs or adoptively transferred dBMCs to STZ-induced T1DM mice resulted in a significant amelioration in glycemic condition, accompanied by a considerable reduction in the level of blood glucose and glycosylated hemoglobin % (HbA1C %), ultimately restoring serum insulin levels to their initial state in control mice. Administering nBMCs or dBMCs to STZ-induced T1DM mice led to a remarkable decrease in levels of inflammatory cytokine markers in the serum, including interferon-γ (INF-γ), tumor necrosis factor- α (TNF-α), tumor growth factor-β (TGF-β), interleukin-1 β (L-1β), interlekin-4 (IL-4), interleukin-6 (IL-6), and interleukin-10 (IL-10). Additionally, STZ-induced T1DM mice, when treated with nBMCs or dBMCs, experienced a notable rise in total immunoglobulin (Ig) level. Furthermore, there was a significant reduction in the levels of islet cell autoantibodies (ICA) and insulin autoantibodies (IAA). Furthermore, the serum of STZ-induced T1DM mice showed a significant increase in Zinc transporter 8 antigen protein (ZnT8), islet antigen 2 protein (IA-2), and glutamic acid decarboxylase antigen protein (GAD) levels. Interestingly, the administration of nBMCs or dBMCs resulted in a heightened expression of IA-2 protein in STZ-induced T1DM mice treated with nBMCs or dBMCs. Furthermore, the level of malondialdehyde (MDA) was increased, while the levels of catalase (CAT) and superoxide dismutase (SOD) were decreased in non-treated STZ-induced T1DM mice. However, when nBMCs or dBMCs were administered to STZ-induced T1DM mice, it had a significant impact on reducing oxidative stress. This was accomplished by reducing the levels of MDA in the serum and enhancing the activities of enzymatic antioxidants like CAT and SOD. STZ-induced T1DM mice displayed a significant elevation in the levels of liver enzymes ALT and AST, as well as heightened levels of creatinine and urea. Considering the crucial roles of the liver and kidney in metabolism and excretion, this research further examined the effects of administering nBMCs or dBMCs to STZ-induced T1DM mice. Notably, the administration of these cells alleviated the observed effects.

Conclusion: The present study suggests that utilizing adoptively transferred nBMCs or adoptively transferred dBMCs in the treatment of T1DM led to noteworthy decreases in blood glucose levels, possibly attributed to their capacity to enhance insulin secretion and improve the performance of pancreatic islets. Additionally, BMCs may exert their beneficial effects on the pancreatic islets of diabetic mice through their immunomodulatory, antioxidant, anti-inflammatory, and anti-oxidative stress properties.

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来源期刊
Endocrine
Endocrine ENDOCRINOLOGY & METABOLISM-
CiteScore
6.50
自引率
5.40%
发文量
295
审稿时长
1.5 months
期刊介绍: Well-established as a major journal in today’s rapidly advancing experimental and clinical research areas, Endocrine publishes original articles devoted to basic (including molecular, cellular and physiological studies), translational and clinical research in all the different fields of endocrinology and metabolism. Articles will be accepted based on peer-reviews, priority, and editorial decision. Invited reviews, mini-reviews and viewpoints on relevant pathophysiological and clinical topics, as well as Editorials on articles appearing in the Journal, are published. Unsolicited Editorials will be evaluated by the editorial team. Outcomes of scientific meetings, as well as guidelines and position statements, may be submitted. The Journal also considers special feature articles in the field of endocrine genetics and epigenetics, as well as articles devoted to novel methods and techniques in endocrinology. Endocrine covers controversial, clinical endocrine issues. Meta-analyses on endocrine and metabolic topics are also accepted. Descriptions of single clinical cases and/or small patients studies are not published unless of exceptional interest. However, reports of novel imaging studies and endocrine side effects in single patients may be considered. Research letters and letters to the editor related or unrelated to recently published articles can be submitted. Endocrine covers leading topics in endocrinology such as neuroendocrinology, pituitary and hypothalamic peptides, thyroid physiological and clinical aspects, bone and mineral metabolism and osteoporosis, obesity, lipid and energy metabolism and food intake control, insulin, Type 1 and Type 2 diabetes, hormones of male and female reproduction, adrenal diseases pediatric and geriatric endocrinology, endocrine hypertension and endocrine oncology.
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