An IGFBP7hi endothelial cell subset drives T cell extravasation in psoriasis via endothelial glycocalyx degradation
Qingyang Li, … , Erle Dang, Gang Wang
Qingyang Li, … , Erle Dang, Gang Wang
Published March 14, 2023
Citation Information: J Clin Invest. 2023;133(9):e160451. https://doi.org/10.1172/JCI160451.
View: Text | PDF
Research Article Inflammation Vascular biology Article has an altmetric score of 1

An IGFBP7hi endothelial cell subset drives T cell extravasation in psoriasis via endothelial glycocalyx degradation

Abstract

Dysfunction of vascular endothelial cells (ECs) facilitates imbalanced immune responses and tissue hyperinflammation. However, the heterogeneous functions of skin ECs and their underlying mechanism in dermatoses remain to be determined. Here, focusing on the pathogenic role of skin ECs in psoriasis, we characterized the molecular and functional heterogeneity of skin ECs from healthy individuals and psoriasis patients at the single-cell level. We found that endothelial glycocalyx destruction, a major feature of EC dysfunction in psoriasis, was a driving force during the process of T cell extravasation. Interestingly, we identified a skin EC subset, IGFBP7hi ECs, in psoriasis. This subset actively responded to psoriatic-related cytokine signaling, secreted IGFBP7, damaged the endothelial glycocalyx, exposed the adhesion molecules underneath, and prepared the endothelium for immune-cell adhesion and transmigration, thus aggravating skin inflammation. More importantly, we provided evidence in a psoriasis-like mouse model that anti-IGFBP7 treatment showed promising therapeutic effects for restoring the endothelial glycocalyx and alleviating skin inflammation. Taken together, our results depict the distinct functions of EC clusters in healthy and psoriatic skin, identify IGFBP7hi ECs as an active subset modulating vascular function and cutaneous inflammation, and indicate that targeting IGFBP7 is a potential therapeutic strategy in psoriasis.

Authors

Qingyang Li, Shuai Shao, Zhenlai Zhu, Jiaoling Chen, Junfeng Hao, Yaxing Bai, Bing Li, Erle Dang, Gang Wang

×

Figure 2

The endothelial glycocalyx is disrupted in psoriatic skin vessels.

Options: View larger image (or click on image) Download as PowerPoint
The endothelial glycocalyx is disrupted in psoriatic skin vessels. (A) N...
(A) Network visualization of pathways enriched in psoriatic capillary ECs compared with healthy capillary ECs. Network nodes, which are colored by adjusted P value and sized by rich factor, represent individual enriched gene sets; edges represent shared genes between nodes. (B and C) TEM and SEM showing the endothelial glycocalyx in skin blood vessels from healthy individuals and psoriasis patients (n = 3 skin samples/group). The endothelial glycocalyx is highlighted by the yellow dotted line. (D and E) Average endothelial glycocalyx thickness and coverage in skin vessels of healthy individuals and psoriasis patients (n = 9 vessels of 3 skin samples/group). (F and G) Immunofluorescence and MFI quantification of HA on skin ECs from healthy subjects and psoriasis patients (n = 21 vessels of 7 skin samples/group). (H and I) Immunofluorescence and MFI quantification of HS on skin ECs from healthy subjects and psoriasis patients (n = 21 vessels of 7 skin samples/group). Data are represented as mean ± SD. Analysis was performed using unpaired Student’s t test.