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Angiopoietin-like protein 2 mediates vasculopathy-driven fibrogenesis in a mouse model of systemic sclerosis
Dyuti Saha, Ravi Kiran Annadorai, Sujaya Thannimangalath, Neha P. Shroff, Sunny Kataria, Binita Dam, Abhik Dutta, Akshay Hegde, Ankita Hiwale, Venkatesh Ravula, Shagnik Saha, Lekshmi Minikumari Rahulan, Neha Nigam, Neha Singh, Vikas Agarwal, Praveen K. Vemula, Colin Jamora
Dyuti Saha, Ravi Kiran Annadorai, Sujaya Thannimangalath, Neha P. Shroff, Sunny Kataria, Binita Dam, Abhik Dutta, Akshay Hegde, Ankita Hiwale, Venkatesh Ravula, Shagnik Saha, Lekshmi Minikumari Rahulan, Neha Nigam, Neha Singh, Vikas Agarwal, Praveen K. Vemula, Colin Jamora
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Research Article Cell biology Dermatology Vascular biology

Angiopoietin-like protein 2 mediates vasculopathy-driven fibrogenesis in a mouse model of systemic sclerosis

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Abstract

Vasculopathy is a common hallmark of various fibrotic disorders, including systemic sclerosis (SSc), yet its underlying etiology and contribution to fibrogenesis remain ill defined. In SSc, the vasculopathy typically precedes the onset of fibrosis, and we observed that this phenomenon is recapitulated in the Snail transgenic mouse model of SSc. The vascular anomalies manifest as deformed vessels, endothelial cell dysfunction, and vascular leakage. Our investigation into the underlying mechanism of this phenotype revealed that angiopoietin-like protein 2 (ANGPTL2), secreted by the Snail transgenic keratinocytes, is a principal driver of fibrotic vasculopathy. In endothelial cells, ANGPTL2 upregulates profibrotic genes, downregulates various junctional proteins, and prompts the acquisition of mesenchymal characteristics. Inhibiting endothelial cell junctional instability and, consequently, vascular leakage with a synthetic analog of the microbial metabolite Urolithin A (UAS03) effectively mitigated the vasculopathy and inhibited fibrogenesis. Thus, ANGPTL2 is a promising early biomarker of the disease, and inhibiting the vasculopathy-inducing effects of this protein with agents such as UAS03 presents an appealing therapeutic avenue to reduce disease severity. These insights hold the potential to revolutionize the approach to treatment of fibrotic diseases by targeting vascular defects.

Authors

Dyuti Saha, Ravi Kiran Annadorai, Sujaya Thannimangalath, Neha P. Shroff, Sunny Kataria, Binita Dam, Abhik Dutta, Akshay Hegde, Ankita Hiwale, Venkatesh Ravula, Shagnik Saha, Lekshmi Minikumari Rahulan, Neha Nigam, Neha Singh, Vikas Agarwal, Praveen K. Vemula, Colin Jamora

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Figure 5

ANGPTL2 is sufficient to drive vasculopathy.

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ANGPTL2 is sufficient to drive vasculopathy.
(A) PECAM1 (green) staining...
(A) PECAM1 (green) staining in control and ANGPTL2-treated skin explants. The pound symbols denote dilated regions. Nuclei are marked in blue. qPCR analysis of mRNA levels of (B) Edn1 and (C) Pdgfb in control and ANGPTL2-treated skin explants and SVEC4-10 cells. (D) qPCR analysis of mRNA levels of myofibroblast markers (Acta2 and Ctgf). (E) Collagen contraction assay (left panel) and quantification (right panel) using dermal fibroblasts treated with conditioned media from control and ANGPTL2-treated SVEC4-10 cells. (F) qPCR analysis of mRNA levels of myofibroblasts markers (Acta2, Ctgf, Fsp1, SM22a, and Cnn1) in control and ANGPTL2-treated SVEC4-10. (G) Collagen contraction assay (left panel) and quantification (right panel) for control and ANGPTL2-treated SVEC4-10. (H) Quantification of in vitro vascular permeability assay. (I) qPCR analysis of mRNA levels of Cldn5 in control and ANGPTL2-treated SVEC4-10. (J) Quantification of collagen contraction assay in SVEC4-10 + control, SVEC4-10 + ANGPTL2, and claudin5-overexpressed SVEC4-10 (SVEC4-10-C5) + ANGPTL2. Scale bar: 50 μm. Data are shown as mean ± SEM; P values were calculated using paired Student’s t test (B–I) and 1-way ANOVA followed by Tukey’s post hoc analysis (J). *P < 0.05, **P < 0.01. All experiments are n = 3 biological replicates.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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