Abstract Background Transforming growth factor beta (TGFβ) and its receptors (TGFβRs) are widely expressed by most human and murine cells and are implicated in several physiological and pathological conditions. In the context of atherosclerosis, TGFβ has been identified as a pleiotropic molecule involved in both pro- and anti-atherogenic processes, with its effects varying depending on the cell type it signals through. Purpose Given that myeloid cells play a major role in atherogenesis, we sought out to unravel the involvement of myeloid TGFβ signaling in atherosclerosis. Methods Aortic leukocytes from ApoE-/- mice fed a Western diet (WD) for 20 weeks were subjected to CITE-Seq analysis to assess the expression profile of Tgfβ and Tgfβrs. To investigate the effect of myeloid Tgfβ signaling on atherosclerosis, LysMCre+Tgfβr1flox/floxTgfβr2flox/floxmT/mGflox/floxApoE-/- (M-Tgfβr1/2dkoApoE-/-) mice and their LysMCre- littermates (ApoE-/-) were fed a WD for 6 weeks. Leukocyte phenotyping was assessed by flow cytometry (FC) and qPCR. Atherosclerotic plaque size in the aortic root was assessed by immunohistochemistry. Results CITE-Seq revealed that aortic ApoE-/- leukocytes highly expressed Tgfb1, whereas Tgfb2 and Tgfb3 were very lowly expressed. Tgfbr1 was mainly expressed in myeloid cells with macrophages and neutrophils showing the highest expression. Tgfbr2 was primarily expressed in T and B cells, while still showing a high level of expression in macrophages. Importantly, Tgfbr3 was not expressed in myeloid cells. Thus, to study the effect of myeloid Tgfβ signaling on atherosclerosis and to mitigate the potential for aberrant signaling that might arise from deleting only one receptor, we generated ApoE-/- mice with myeloid lineage tracing mT/mG alleles and combined deletion of Tgfbr1 and Tgfbr2 in myeloid cells using the LysMCre model. FC analysis of eGFP+ cells, i.e., cells where LysMCre is active, revealed a ~60-80% Tgfbr1/2 deletion efficiency in bone marrow-derived macrophages (BMDM) and in blood, splenic and BM CD11b+ cells, which was accompanied by decreased Smad2/3 signaling. M-Tgfβr1/2dkoApoE-/- mice showed a ~35% increase in blood and splenic CD11b+ cells and a ~25% increase in splenic macrophages compared to ApoE-/- controls, while BM CD11b+ cells were not affected. Tgfbr1/2-deficient BMDMs had increased Il-6, Il-1b and CD38 expression compared to controls, suggesting that Tgfbr1/2-deficient macrophages have acquired a pro-inflammatory phenotype. Interestingly, M-Tgfβr1/2dkoApoE-/- mice had ~30% fewer blood and splenic T cells compared to controls, which was explained by decreased naïve CD4+ and CD8+ T cells. M-Tgfβr1/2dkoApoE-/- mice had a ~50% increase in atherosclerotic plaque burden compared to ApoE-/- controls. Conclusion Our data suggest that impaired myeloid Tgfβ signaling leads to a pro-atherogenic environment in ApoE-/- mice. These effects may be mediated by an altered crosstalk between T cells and Tgfβr1/2-deficient macrophages.
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