An intracellular complement system drives metabolic and proinflammatory reprogramming of vascular fibroblasts in pulmonary hypertension
Ram Raj Prasad, … , Rubin M. Tuder, Kurt R. Stenmark
Ram Raj Prasad, … , Rubin M. Tuder, Kurt R. Stenmark
Published February 13, 2025
Citation Information: JCI Insight. 2025;10(6):e184141. https://doi.org/10.1172/jci.insight.184141.
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Research Article Pulmonology Vascular biology

An intracellular complement system drives metabolic and proinflammatory reprogramming of vascular fibroblasts in pulmonary hypertension

Abstract

The complement system is central to the innate immune response, playing a critical role in proinflammatory and autoimmune diseases such as pulmonary hypertension (PH). Recent discoveries highlight the emerging role of intracellular complement, or the “complosome,” in regulating cellular processes such as glycolysis, mitochondrial dynamics, and inflammatory gene expression. This study investigated the hypothesis that intracellular complement proteins C3, CFB, and CFD are upregulated in PH fibroblasts (PH-Fibs) and drive their metabolic and inflammatory states, contributing to PH progression. Our results revealed a pronounced upregulation of CFD, CFB, and C3 in PH-Fibs from human samples and bovine models, both in vivo and in vitro. The finding of elevated levels of C3 activation fragments, including C3b, C3d, and C3a, emphasized enhanced C3 activity. PH-Fibs exhibited notable metabolic reprogramming and increased levels of proinflammatory mediators such as MCP1, SDF1, IL-6, IL-13, and IL-33. Silencing CFD via shRNA reduced CFB activation and C3a production, while normalizing glycolysis, tricarboxylic acid (TCA) cycle activity, and fatty acid metabolism. Metabolomic and gene expression analyses of CFD-knockdown PH-Fibs revealed restored metabolic and inflammatory profiles, underscoring CFD’s crucial role in these changes. This study emphasizes the crucial role of intracellular complement in PH pathogenesis, highlighting the potential for complement-targeted therapies in PH.

Authors

Ram Raj Prasad, Sushil Kumar, Hui Zhang, Min Li, Cheng-Jun Hu, Suzette Riddle, Brittany A. McKeon, M.G. Frid, Konrad Hoetzenecker, Slaven Crnkovic, Grazyna Kwapiszewska, Rubin M. Tuder, Kurt R. Stenmark

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Figure 1

In vivo, PA fibroblasts in PAs of patients with IPAH and PH calves exhibit elevated expression of C3, CFB, and CFD.

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In vivo, PA fibroblasts in PAs of patients with IPAH and PH calves exhib...
(A) Left: UMAP visualization of human stromal cells: ECs n = 1,753, SMCs n = 3,126, and Fibs n = 4,523. Middle: Average expression of cell-specific markers and CFD. Right: Percentage of cells (Pct. exp) and average CFD gene expression (Avg. exp) in human PA fibroblasts. Source of human data: ref. 23. (B) Left: UMAP visualization of bovine stromal cells: ECs n = 6,582, SMCs n = 10,901, and Fibs n = 1,016. Middle: Average expression of cell-specific markers, including PECAM1 for ECs, MYH11 for SMCs, PDGFRA for fibroblasts, and CFD. Right: Percentage of cells and average CFD gene expression in bovine PA fibroblasts. Immunohistochemical staining of serial sections of PAs from control PA (D) or IPAH lungs (F and H) with H&E (C, E, and G) or CFD. (D) The inset (dashed rectangle) shows a high-magnification image of the rectangular area of the adventitia of the control PA, with low expression of CFD. (E and F) The plexiform lesion is outlined by the circle. The dashed inset shows the magnification of the cellular core in the rectangular outline, with high expression of CFD (F). (G and H) IPAH obliterative lesion (circled area in G). The dashed inset shows a high magnification of the boxed area, with adventitia cells, largely fibroblasts, expressing high levels of CFD. Staining protocols were as reported in ref. 5. Scale bars: C, D, and H, 100 μm; EG, 200 μm. scRNA-Seq data are presented for bovine (n = 3 control animals, n = 2 PH animals) and participants (n = 3 healthy donors, n = 3 with IPAH).