Magalhães Nathalia Santos, Chaves Amanda Silva, Thomasi Beatriz, Insuela Daniella Bianchi Reis, Pauer Heidi, Rêgo Amanda Mendes, Hardoim Cristiane Cassiolato Pires, Antunes Luis Caetano Martha, E Silva Patrícia Machado Rodrigues, Martins Marco Aurélio, Carvalho Vinicius Frias
Laboratory of Inflammation, Center for Research, Innovation and Surveillance in Covid-19 and Health Emergencies, Oswaldo Cruz Institute, Oswaldo Cruz Foundation, Rio de Janeiro, Brazil.
Department of Molecular Biosciences, University of Kansas, Lawrence, KS, United States.
Front Endocrinol (Lausanne). 2025 May 27;16:1555203. doi: 10.3389/fendo.2025.1555203. eCollection 2025.
Diabetes induces glucocorticoid production in patients and animal models, however, the exact mechanism behind this phenomenon is still elusive. The activation of toll-like receptor (TLR) 4 induces glucocorticoid production by the adrenals. Since diabetic patients showed gut dysbiosis in parallel to an increase in epithelial-intestinal permeability, this study investigates the role of TLR4 activation by gut bacteria-derived lipopolysaccharide on the overproduction of corticosterone in diabetic rodents.
Diabetes induction was achieved through the intravenous injection of alloxan, followed by treatments with antibiotic therapy or TLR4 antagonist (TAK-242) for 14 consecutive days.
Diabetic animals showed an increase in plasma corticosterone levels as well as overexpression of TLR4 and Toll/IL-1R domain-containing adaptor-inducing IFN-β (TRIF) in the adrenals. Diabetic mice also showed gut dysbiosis, with an increase in the relative proportion of potentially pathogenic bacteria. We observed morphological alterations as well as increased inflammation in the colon with a predominance of a Th17 cytokine profile in diabetic mice, in parallel to an increase in the epithelial-intestinal permeability and lipopolysaccharide content in the adrenals. TAK-242 significantly decreased the overexpression of adrenocorticotropic hormone receptor and 11β-hydroxysteroid dehydrogenase type 1 in the adrenal glands of diabetic mice. Furthermore, both TLR4 antagonist and TLR4 mutant mice (C3H/HeJ) induced a significant reduction in plasma corticosterone levels in diabetic mice.
Our findings revealed that gut dysbiosis participates in the exacerbation of corticosterone production by diabetic animals, suggesting that therapeutic strategies that can normalize gut microbiota in diabetics represent promising therapeutic candidates for the treatment of glucocorticoid-induced comorbidities in diabetes.
糖尿病会在患者和动物模型中诱导糖皮质激素生成,然而,这一现象背后的确切机制仍不清楚。Toll样受体(TLR)4的激活会诱导肾上腺产生糖皮质激素。由于糖尿病患者肠道微生物群失调与上皮肠道通透性增加同时出现,本研究调查肠道细菌衍生的脂多糖激活TLR4对糖尿病啮齿动物皮质酮过量生成的作用。
通过静脉注射四氧嘧啶诱导糖尿病,随后连续14天进行抗生素治疗或使用TLR4拮抗剂(TAK - 242)治疗。
糖尿病动物血浆皮质酮水平升高,同时肾上腺中TLR4和含Toll/IL - 1R结构域的衔接蛋白诱导干扰素-β(TRIF)过表达。糖尿病小鼠还表现出肠道微生物群失调,潜在致病菌的相对比例增加。我们观察到糖尿病小鼠结肠出现形态学改变以及炎症增加,以Th17细胞因子谱为主,同时上皮肠道通透性和肾上腺中脂多糖含量增加。TAK - 242显著降低糖尿病小鼠肾上腺中促肾上腺皮质激素受体和11β - 羟基类固醇脱氢酶1型的过表达。此外,TLR4拮抗剂和TLR4突变小鼠(C3H/HeJ)均使糖尿病小鼠血浆皮质酮水平显著降低。
我们的研究结果表明,肠道微生物群失调参与糖尿病动物皮质酮生成的加剧,这表明能够使糖尿病患者肠道微生物群正常化的治疗策略是治疗糖尿病中糖皮质激素诱导的合并症的有前景的候选方法。
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