Pericytes are essential for capillary stability and homeostasis, with impaired pericyte function linked to diseases like pulmonary arterial hypertension. Investigating pericyte biology has been challenging due to the lack of specific markers, making it difficult to distinguish pericytes from other stromal cells. Using bioinformatic analysis and RNAscope, we identified Higd1b as a unique gene marker for pericytes and subsequently generated a knock-in mouse line, Higd1b-CreERT2, that accurately labels pericytes in the lung and heart. Single-cell RNA sequencing revealed two distinct Higd1b+ pericyte subtypes: while Type 1 pericytes support capillary homeostasis, Type 2 pericytes accumulate in arterioles, and co-express smooth muscle markers and higher levels of vimentin under hypoxic conditions. Lastly, healthy human lung pericytes with upregulation of vimentin exhibited increased adhesion, migration, and higher expression levels of the smooth muscle marker SM22 in vitro. These findings highlight the specialization of pulmonary pericytes and their contribution to vascular remodeling during hypoxia-induced pulmonary hypertension.
Keywords: Capillary; Higd1b; Pericytes; Pulmonary Hypertension; Single-cell RNA Sequence.
© 2025. The Author(s).