Tanshinone IIA accelerates zebrafish venous vascular repair via macrophage recruitment through the CXCR4A–CXCL12B signaling axis
Li Zhang, Lijuan An, Yanchi Zhao, Zheng Lu, Jiangtao Huang, Lingling Tang, Mengzhu Lv, Dashuang Mo, Liping Shu

TL;DR
Tanshinone IIA from Salvia miltiorrhiza helps repair blood vessels in zebrafish by boosting macrophage activity through a specific signaling pathway.
Contribution
Identifies Tanshinone IIA as a novel compound that accelerates vascular repair via the CXCR4A–CXCL12B signaling axis in zebrafish.
Findings
Tanshinone IIA promotes macrophage migration to vascular injury sites via the CXCR4A–CXCL12B axis.
The compound enhances vascular repair by increasing cytokine release (IL-10 and TGFB1A) from macrophages.
Salvia miltiorrhiza compounds show pro-angiogenic properties in zebrafish models.
Abstract
Vascular injury is a major contributor to the development of cardiovascular diseases. Following vascular damage, macrophages migrate to the injury site and, during the later stages of vascular repair, secrete cytokines such as interleukin-10 (IL-10) and transforming growth factor-β1a (TGFB1A), thereby promoting vascular regeneration. Previous studies have demonstrated that macrophage recruitment to sites of tissue injury is mediated by the CXCR4A-CXCL12B signaling axis. In a screening of traditional Chinese medicinal herbs for cardiovascular therapeutic potential, Salvia miltiorrhiza root was identified as a promising source of bioactive compounds capable of enhancing vascular repair through modulation of the CXCR4A-CXCL12B axis. Establishing a vascular injury model in transgenic zebrafish lines Tg (flk1:eGFP; gata1:dsRed) using a two-photon microscopy laser system. Dynamic monitoring…
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Taxonomy
TopicsZebrafish Biomedical Research Applications · Angiogenesis and VEGF in Cancer · Traditional Chinese Medicine Analysis
