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. 2024 May 24;134(11):e133-e149.
doi: 10.1161/CIRCRESAHA.123.323736. Epub 2024 Apr 19.

GLI1+ Cells Contribute to Vascular Remodeling in Pulmonary Hypertension

Xuran Chu  1   2   3 Vahid Kheirollahi  3 Arun Lingampally  3   4 Prakash Chelladurai  3   5 Chanil Valasarajan  3   5 Ana Ivonne Vazquez-Armendariz  3   4   5 Stefan Hadzic  3 Ali Khadim  3   4   5 Oleg Pak  3 Stefano Rivetti  3 Jochen Wilhelm  3   5 Marek Bartkuhn  3   5 Slaven Crnkovic  6 Alena Moiseenko  3 Monika Heiner  3   4 Simone Kraut  3 Leila Sotoodeh AtefiJanine Koepke  3   5 Guilherme Valente  7 Clemens Ruppert  3 Thomas Braun  7 Christos Samakovlis  3   5 Ioannis Alexopoulos  3   4   5 Mario Looso  7 Cho-Ming Chao  3   8 Susanne Herold  3   4   5 Werner Seeger  3   5   7 Grazyna Kwapiszewska  3   5   6 Xiaoying Huang  9 Jin-San Zhang  9 Soni Savai Pullamsetti  3   5 Norbert Weissmann  3 Xiaokun Li  2 Elie El Agha  3   4   5 Saverio Bellusci  1   3   5
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Free article

GLI1+ Cells Contribute to Vascular Remodeling in Pulmonary Hypertension

Xuran Chu et al. Circ Res. .
Free article

Abstract

Background: The precise origin of newly formed ACTA2+ (alpha smooth muscle actin-positive) cells appearing in nonmuscularized vessels in the context of pulmonary hypertension is still debatable although it is believed that they predominantly derive from preexisting vascular smooth muscle cells (VSMCs).

Methods: Gli1Cre-ERT2; tdTomatoflox mice were used to lineage trace GLI1+ (glioma-associated oncogene homolog 1-positive) cells in the context of pulmonary hypertension using 2 independent models of vascular remodeling and reverse remodeling: hypoxia and cigarette smoke exposure. Hemodynamic measurements, right ventricular hypertrophy assessment, flow cytometry, and histological analysis of thick lung sections followed by state-of-the-art 3-dimensional reconstruction and quantification using Imaris software were used to investigate the contribution of GLI1+ cells to neomuscularization of the pulmonary vasculature.

Results: The data show that GLI1+ cells are abundant around distal, nonmuscularized vessels during steady state, and this lineage contributes to around 50% of newly formed ACTA2+ cells around these normally nonmuscularized vessels. During reverse remodeling, cells derived from the GLI1+ lineage are largely cleared in parallel to the reversal of muscularization. Partial ablation of GLI1+ cells greatly prevented vascular remodeling in response to hypoxia and attenuated the increase in right ventricular systolic pressure and right heart hypertrophy. Single-cell RNA sequencing on sorted lineage-labeled GLI1+ cells revealed an Acta2high fraction of cells with pathways in cancer and MAPK (mitogen-activated protein kinase) signaling as potential players in reprogramming these cells during vascular remodeling. Analysis of human lung-derived material suggests that GLI1 signaling is overactivated in both group 1 and group 3 pulmonary hypertension and can promote proliferation and myogenic differentiation.

Conclusions: Our data highlight GLI1+ cells as an alternative cellular source of VSMCs in pulmonary hypertension and suggest that these cells and the associated signaling pathways represent an important therapeutic target for further studies.

Keywords: actins; blood pressure; hypertension, pulmonary; hypoxia; vascular remodeling.

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