Circular RNA Signatures of Human Healing and Nonhealing Wounds

Venous ulcers (VUs) have complex and obscure pathogenicity, and effective VU therapies are still lacking. Circular RNAs (circRNAs) have emerged as powerful gene regulators with important roles in health and disease. In this study, we used paired total RNA and small RNA sequencing to profile circRNAs, protein-coding mRNAs, and microRNAs expression in a unique collection of clinical samples: healthy skin and acute wounds at inflammatory and proliferative phases and wound-edge VU biopsies. We unravel a dynamically changed expression pattern of circRNAs during human skin repair and their abnormal expression signature in VU, which are presented as a searchable web resource (www.xulandenlab.com/humanwounds-circrna). We analyzed the coexpression relationship between the circRNAs and mRNAs with weighted correlation network analysis and constructed circRNA.mRNA.microRNA networks. This allowed us to expose the regulatory networks specific to the inflammatory and proliferative phases of wound repair and VU, the biological processes the circRNAs may regulate, and the circRNAs that could sponge microRNAs in human wounds. Importantly, we found that hsa-CHST15_0003 and hsa-TNFRSF21_0001, two circRNAs upregulated in VU, hampered epidermal keratinocyte migration while promoting proliferation by modulating gene networks underpinning these cellular processes. This study paves the way to decipher the functional significance of circRNAs in tissue repair.

Automated summary

By analyzing clinical samples, we revealed the changed expression pattern of circRNAs during human skin repair and their abnormal expression in venous ulcers. We also identified regulatory networks specific to the inflammatory and proliferative phases of wound repair and venous ulcers and the potential biological processes regulated by circRNAs. Furthermore, we found that two upregulated circRNAs in venous ulcers hindered cell migration while promoting proliferation.