Berberine Protects Pancreatic β-Cells From IL-1β Damage Through Hormetic Mechanisms Via P53-Mediated Apoptosis Pathways.

IF 3.3 3区医学 Q2 ENDOCRINOLOGY & METABOLISM

Endocrinology Pub Date : 2025-07-08 DOI:10.1210/endocr/bqaf105

Xinyu Yang, Shuntao Liang, Mingyue Huang, Shijun Yue, Dechun Jiang, Dan Yan

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引用次数: 0

Abstract

Damage to pancreatic β-cells serves as a critical pathological basis in the progression of diabetes. Berberine (BBR), an isoquinoline alkaloid, potentially protects pancreatic β-cells, exerting hypoglycemic effects. However, the dose-response relationship and the specific protective mechanism are still unclear. Hormesis is a self-protective response triggered by mild stimuli and has been reported to determine the extent to which phytochemicals can combat diabetes. In this study, we found that BBR exhibited a typical hormetic effect in IL-1β-induced damage to pancreatic β-cells, where low doses of BBR protect cells while high doses aggravate the damage. A model-based approach was used to describe dose-response relationships, as well as to detect and estimate hormetic effects. In addition, the regulatory effect of BBR in preventing apoptosis in pancreatic β-cells was confirmed, and an appropriate dose of BBR stabilized the mitochondrial membrane potential and prevented DNA damage. Moreover, the results showed that the hormetic effect of BBR was closely related to p53 and apoptosis pathways. To further investigate the role of the p53-mediated apoptosis pathways, our study interfered with the p53 pathway, resulting in the attenuation of the hormetic effect of BBR. These results introduce the concept of hormesis to study the biphasic effects of berberine on damaged pancreatic β-cells, while also exploring the relationship between the hormetic mechanism of BBR and the p53-mediated apoptosis pathway. These findings provide clues to explore the potential application of BBR in treating diabetes.

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小檗碱通过p53介导的凋亡途径保护胰腺β细胞免受IL-1β损伤。

胰腺β细胞损伤是糖尿病发展的重要病理基础。小檗碱（BBR）是一种异喹啉生物碱，可能保护胰腺β细胞，发挥降糖作用。然而，剂量-反应关系和具体的保护机制尚不清楚。激效是一种由轻微刺激引发的自我保护反应，据报道，它决定了植物化学物质对抗糖尿病的程度。在本研究中，我们发现BBR在il -1β诱导的胰腺β细胞损伤中表现出典型的激效作用，其中低剂量BBR可以保护细胞，而高剂量BBR则会加重损伤。一个基于模型的方法被用来描述剂量-反应关系，以及检测和估计激效效应。此外，BBR对胰腺β-细胞凋亡的调控作用得到证实，适当剂量的BBR稳定线粒体膜电位，防止DNA损伤。此外，结果表明BBR的激效作用与p53和凋亡通路密切相关。为了进一步研究p53介导的凋亡通路的作用，我们的研究干扰了p53通路，导致BBR的激效减弱。这些结果引入激效的概念，研究了小檗碱对受损胰腺β-细胞的双相作用，同时也探索了BBR的激效机制与p53介导的凋亡通路之间的关系。这些发现为探索BBR在糖尿病治疗中的潜在应用提供了线索。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Endocrinology 医学-内分泌学与代谢

CiteScore

8.10

自引率

4.20%

发文量

195

审稿时长

2-3 weeks

期刊介绍： The mission of Endocrinology is to be the authoritative source of emerging hormone science and to disseminate that new knowledge to scientists, clinicians, and the public in a way that will enable "hormone science to health." Endocrinology welcomes the submission of original research investigating endocrine systems and diseases at all levels of biological organization, incorporating molecular mechanistic studies, such as hormone-receptor interactions, in all areas of endocrinology, as well as cross-disciplinary and integrative studies. The editors of Endocrinology encourage the submission of research in emerging areas not traditionally recognized as endocrinology or metabolism in addition to the following traditionally recognized fields: Adrenal; Bone Health and Osteoporosis; Cardiovascular Endocrinology; Diabetes; Endocrine-Disrupting Chemicals; Endocrine Neoplasia and Cancer; Growth; Neuroendocrinology; Nuclear Receptors and Their Ligands; Obesity; Reproductive Endocrinology; Signaling Pathways; and Thyroid.