Alwin de Jong1,2, Rob C M de Jong3, Erna A Peters1,2, Ramon Arens4, J Wouter Jukema5, Margreet R de Vries1,2, Paul H A Quax1,2. 1. Department of Surgery, Leiden University Medical Center, Leiden, Netherlands. 2. Einthoven Laboratory for Experimental Vascular Medicine, Leiden University Medical Center, Leiden, Netherlands. 3. Department of Hematology, Leiden University Medical Center, Leiden, Netherlands. 4. Department of Immunology, Leiden University Medical Center, Leiden, Netherlands. 5. Department of Cardiology, Leiden University Medical Center, Leiden, Netherlands.
Abstract
Background: Inflammatory stimuli induced by NF-kB drive atherosclerotic lesion formation. The epigenetic P300/CBP associated factor (PCAF) post-transcriptionally acetylates FoxP3, which is required for regulatory T-cell (Treg) differentiation and immune modulation. We hypothesize that PCAF deficiency affects atherosclerosis via regulation of regulatory Tregs. Method: ApoE3*Leiden (n = 13) and ApoE3*LeidenxPCAF-/- (n = 13) were fed a high-fat diet (HFD) containing 1.25% cholesterol. Systemic FoxP3+ T cells were measured every 4 weeks by flow cytometry (n = 6). After 5-months of HFD, mice were euthanized, and hearts and blood were collected. IL-6 and TNFα concentrations were measured in plasma to identify systemic inflammatory responses. Compositional and morphometrical analyses were performed on the atherosclerotic lesions in the aortic sinuses. Results: After 5 months of HFD, plasma cholesterol concentrations were not different for ApoE3*LeidenxPCAF-/- compared to ApoE3*Leiden mice. Expression of FoxP3 by systemic CD4+ T cells decreased 1.8 fold in ApoE3*LeidenxPCAF-/- after 5 months HFD and remained significantly reduced after 5 months of HFD. Systemic TNFα and IL-6 concentrations were comparable, whereas the atherosclerotic lesion size in ApoE3*LeidenxPCAF-/- mice was increased by 28% compared to ApoE3*Leiden mice. In atherosclerotic lesions, no differences were observed in macrophage differentiation or VSMC content, although a small increase in collagen was identified. Conclusion: Our data show that PCAF deficiency resulted in a decrease in circulatory FoxP3+ regulatory T cells and ameliorated atherosclerotic lesions with no differences in systemic inflammation or macrophage differentiation in the atherosclerotic lesions. This suggests that PCAF regulates atherosclerosis via modulation of FoxP3+ regulatory T cell differentiation.
Background: Inflammatory stimuli induced by NF-kB drive atherosclerotic lesion formation. The epigenetic P300/CBP associated factor (PCAF) post-transcriptionally acetylates FoxP3, which is required for regulatory T-cell (Treg) differentiation and immune modulation. We hypothesize that PCAF deficiency affects atherosclerosis via regulation of regulatory Tregs. Method: ApoE3*Leiden (n = 13) and ApoE3*LeidenxPCAF-/- (n = 13) were fed a high-fat diet (HFD) containing 1.25% cholesterol. Systemic FoxP3+ T cells were measured every 4 weeks by flow cytometry (n = 6). After 5-months of HFD, mice were euthanized, and hearts and blood were collected. IL-6 and TNFα concentrations were measured in plasma to identify systemic inflammatory responses. Compositional and morphometrical analyses were performed on the atherosclerotic lesions in the aortic sinuses. Results: After 5 months of HFD, plasma cholesterol concentrations were not different for ApoE3*LeidenxPCAF-/- compared to ApoE3*Leiden mice. Expression of FoxP3 by systemic CD4+ T cells decreased 1.8 fold in ApoE3*LeidenxPCAF-/- after 5 months HFD and remained significantly reduced after 5 months of HFD. Systemic TNFα and IL-6 concentrations were comparable, whereas the atherosclerotic lesion size in ApoE3*LeidenxPCAF-/- mice was increased by 28% compared to ApoE3*Leiden mice. In atherosclerotic lesions, no differences were observed in macrophage differentiation or VSMC content, although a small increase in collagen was identified. Conclusion: Our data show that PCAF deficiency resulted in a decrease in circulatory FoxP3+ regulatory T cells and ameliorated atherosclerotic lesions with no differences in systemic inflammation or macrophage differentiation in the atherosclerotic lesions. This suggests that PCAF regulates atherosclerosis via modulation of FoxP3+ regulatory T cell differentiation.
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