Abstract

Introduction: Lung pericytes (PCs) are mural cells in close contact with endothelial cells (ECs) in the microvasculature. A significant challenge in investigating PC biology is largely due to the absence of a unique cell marker, making it difficult to distinguish them from other mural cell populations. The identification of such a marker would allow investigators to describe the role of PCs in various diseases including pulmonary arterial hypertension. Hypothesis: We hypothesize that HIG1 hypoxia-inducible domain family member 1B ( Higd1b ) is exclusively expressed in lung PCs, which contributes to hypoxia (Hx)-induced vascular remodeling. Methods: We utilized single-cell RNA sequence (scRNA-seq) databases, spatial transcriptomics, and RNAscope from human and murine lungs to identify a PC-specific cell marker and compare the gene expression between PC subtypes. We utilized Cre-LoxP and CRISPR technology to construct a novel tamoxifen-inducible Higd1b-CreERT2 knock-in mouse model and performed lineage-tracing studies to describe the role of PC subtypes in Hx-induced pulmonary hypertension (PH). Results: ScRNA-seq analysis from the lungs of humans and mice identified Higd1b as a specific gene marker for PCs whose expression is absent in other mural cell populations. Validation with a reporter mouse line Higd1b-CreERT2::R26-tdT confirmed Higd1b-Cre+ cells specifically label PCs and no other mural cells ( Fig 1A ). Lineage tracing in the Hx-induced murine model of PH demonstrated the accumulation of PCs in the muscularized distal arterioles ( Fig 1B ). Through scRNA-seq and immunofluorescence validation, we identified two HIGD1B + PC subtypes that exist in the pulmonary capillary: Type 1 PCs, which are quiescent in the capillaries, and Type 2 PCs exhibit multipotent cell-like properties and accumulate in the arterioles after exposure to Hx. Furthermore, we found Type 2 PCs transited into SMC-like cells via the upregulation of Vimentin, contributing to vascular remodeling in Hx-induced PH. Conclusion: We identified Higd1b as a unique marker for PCs and generated a novel Higd1b-CreERT2 mouse that specifically labels PCs in the lungs. The discovery of PC-subtype specialization advances our understanding of lung pericyte biology and PC’s contribution to capillary remodeling under pathological conditions.

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