A smooth muscle cell lncRNA controls angiogenesis in chronic limb-threatening ischemia through miR-143-3p/HHIP signaling

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Abstract

Peripheral artery disease (PAD) often advances to chronic limb-threatening ischemia (CLTI), resulting in severe complications such as limb amputation. Despite the potential of therapeutic angiogenesis, the mechanisms of cell-cell communication and transcriptional changes driving PAD are not fully understood. Profiling long non-coding RNAs (lncRNAs) from gastrocnemius muscles of human subjects with or without CLTI revealed that a vascular smooth muscle cell (SMC)-enriched lncRNA CARMN, was reduced with CLTI. This study explored how a SMC lncRNA-miRNA signaling axis regulates angiogenesis in limb ischemia. CARMN knockout (KO) mice exhibited reduced capillary density and impaired blood flow recovery and tissue necrosis following limb ischemia. We found that CARMN KO SMC supernatants inhibited endothelial cell (EC) proliferation, spheroid sprouting, and network formation. RNA-sequencing identified downregulation of the Hedgehog signaling pathway in CARMN KO models and revealed that CARMN regulates this pathway through its downstream miRNA, miR-143-3p, which targets Hedgehog-interacting protein (HHIP), an antagonist of Hedgehog signaling. Delivery of HHIP-specific siRNA or miR-143-3p mimics rescued EC angiogenic defects and improved blood flow recovery in both CARMN KO and WT mice. These findings underscore the critical role of CARMN in modulating angiogenesis through the miR-143-3p-HHIP-Hedgehog signaling axis, providing insights into SMC-EC interactions and potential therapeutic strategies for CLTI.

Authors

Ming Zhai, Anurag Jamaiyar, Jun Qian, Winona W. Wu, Emre Bektik, Vinay Randhawa, Camila De Oliveira Vaz, Arvind K. Pandey, Akm Khyrul Wara, Madhur Sachan, Yi Hu, Jéssica L. Garcia, Claire E. Alford, Terence E. Ryan, Wenhui Peng, Mark W. Feinberg