Extracellular DNA as potential contributors to pathological calcification

Interdisciplinary Medicine Pub Date : 2024-03-05 DOI:10.1002/INMD.20230061

Longzhang Niu, Yina Zhu, Meichen Wan, Chenyu Wang, Xinyi Hao, Jinghan Song, Chen Lei, Zixuan Qin, Franklin Tay, Lina Niu

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Abstract

Some biomolecules involved in pathological calcification have been identified. However, the exact mechanism in which this intricate process occurs remains unknown. Extracellular DNA (exDNA) has recently been recognized as a partaker in this ectopic phenomenon. Extracellular DNA acts as an intercellular messenger that transmits information and orchestrates complex inflammatory responses. Changes in the morphology or function of exDNA may trigger calcification under pathological conditions. In the present review, recent advances on how DNA is released into the extracellular milieu to become exDNA will be highlighted in conjunction with how exDNA directly and indirectly contributes to the progression of pathological calcification. Emphasis is placed on the “gluing” effect of neutrophil extracellular traps that act as a bridge between inflammation and pathological calcification. Manipulation of exDNA may open new vistas for the development of enterprising strategies that prevent or treat pathological calcification.

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细胞外 DNA 是导致病理钙化的潜在因素

一些参与病理钙化的生物分子已被确认。然而，这一复杂过程发生的确切机制仍不为人知。细胞外 DNA（exDNA）最近被认为是这种异位现象的参与者。细胞外 DNA 是细胞间传递信息和协调复杂炎症反应的信使。在病理条件下，细胞外DNA形态或功能的变化可能会引发钙化。在本综述中，将重点介绍 DNA 如何释放到细胞外环境中成为 exDNA 的最新进展，以及 exDNA 如何直接或间接导致病理钙化的进展。重点是中性粒细胞胞外捕获物的 "粘合 "效应，它是炎症和病理钙化之间的桥梁。操纵 exDNA 可为开发预防或治疗病理性钙化的新策略开辟新的前景。

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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Interdisciplinary Medicine

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