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Single cell transcriptomic analyses reveal diverse and dynamic changes of distinct populations of lung interstitial macrophages in hypoxia-induced pulmonary hypertension

Sushil Kumar, Claudia Mickael, Rahul Kumar, Ram Prasad, Nzali V. Campbell, Hui Zhang, Min Li, B.A. McKeon, Thaddeus E. Allen, Brian B. Graham, Yen‐Rei Yu, Kurt R. Stenmark

2024Frontiers in Immunology22 citationsDOIOpen Access PDF

Abstract

Introduction: Hypoxia is a common pathological driver contributing to various forms of pulmonary vascular diseases leading to pulmonary hypertension (PH). Pulmonary interstitial macrophages (IMs) play pivotal roles in immune and vascular dysfunction, leading to inflammation, abnormal remodeling, and fibrosis in PH. However, IMs' response to hypoxia and their role in PH progression remain largely unknown. We utilized a murine model of hypoxia-induced PH to investigate the repertoire and functional profiles of IMs in response to acute and prolonged hypoxia, aiming to elucidate their contributions to PH development. Methods: We conducted single-cell transcriptomic analyses to characterize the repertoire and functional profiles of murine pulmonary IMs following exposure to hypobaric hypoxia for varying durations (0, 1, 3, 7, and 21 days). Hallmark pathways from the mouse Molecular Signatures Database were utilized to characterize the molecular function of the IM subpopulation in response to hypoxia. Results: cells dominated the pro-remodeling phase. The acute inflammatory phase exhibited enrichment in interferon-gamma, IL-2, and IL-6 pathways, while the pro-remodeling phase showed dysregulated chemokine production, hemoglobin clearance, and tissue repair profiles, along with activation of distinct complement pathways. Discussion: Our findings demonstrate the existence of distinct populations of pulmonary interstitial macrophages corresponding to acute and prolonged hypoxia exposure, pivotal in regulating the inflammatory and remodeling phases of PH pathogenesis. This understanding offers potential avenues for targeted interventions, tailored to specific populations and distinct phases of the disease. Moreover, further identification of triggers for pro-remodeling IMs holds promise in unveiling novel therapeutic strategies for pulmonary hypertension.

Topics & Concepts

Hypoxia (environmental)Pulmonary hypertensionInflammationChemokineImmune systemTranscriptomeFibrosisLungBiologyIdiopathic pulmonary fibrosisImmunologyCell biologyMedicinePathologyChemistryInternal medicineOxygenGene expressionBiochemistryGeneOrganic chemistryPulmonary Hypertension Research and TreatmentsCardiac Fibrosis and RemodelingSingle-cell and spatial transcriptomics