Isolevuglandins disrupt PU.1-mediated C1q expression and promote autoimmunity and hypertension in systemic lupus erythematosus
David M. Patrick, Néstor de la Visitación, Jaya Krishnan, Wei Chen, Michelle J. Ormseth, C. Michael Stein, Sean S. Davies, Venkataraman Amarnath, Leslie J. Crofford, Jonathan M. Williams, Shilin Zhao, Charles D. Smart, Sergey Dikalov, Anna Dikalova, Liang Xiao, Justin P. Van Beusecum, Mingfang Ao, Agnes B. Fogo, Annet Kirabo, David G. Harrison
David M. Patrick, Néstor de la Visitación, Jaya Krishnan, Wei Chen, Michelle J. Ormseth, C. Michael Stein, Sean S. Davies, Venkataraman Amarnath, Leslie J. Crofford, Jonathan M. Williams, Shilin Zhao, Charles D. Smart, Sergey Dikalov, Anna Dikalova, Liang Xiao, Justin P. Van Beusecum, Mingfang Ao, Agnes B. Fogo, Annet Kirabo, David G. Harrison
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Research Article Inflammation

Isolevuglandins disrupt PU.1-mediated C1q expression and promote autoimmunity and hypertension in systemic lupus erythematosus

Abstract

We describe a mechanism responsible for systemic lupus erythematosus (SLE). In humans with SLE and in 2 SLE murine models, there was marked enrichment of isolevuglandin-adducted proteins (isoLG adducts) in monocytes and dendritic cells. We found that antibodies formed against isoLG adducts in both SLE-prone mice and humans with SLE. In addition, isoLG ligation of the transcription factor PU.1 at a critical DNA binding site markedly reduced transcription of all C1q subunits. Treatment of SLE-prone mice with the specific isoLG scavenger 2-hydroxybenzylamine (2-HOBA) ameliorated parameters of autoimmunity, including plasma cell expansion, circulating IgG levels, and anti-dsDNA antibody titers. 2-HOBA also lowered blood pressure, attenuated renal injury, and reduced inflammatory gene expression uniquely in C1q-expressing dendritic cells. Thus, isoLG adducts play an essential role in the genesis and maintenance of systemic autoimmunity and hypertension in SLE.

Authors

David M. Patrick, Néstor de la Visitación, Jaya Krishnan, Wei Chen, Michelle J. Ormseth, C. Michael Stein, Sean S. Davies, Venkataraman Amarnath, Leslie J. Crofford, Jonathan M. Williams, Shilin Zhao, Charles D. Smart, Sergey Dikalov, Anna Dikalova, Liang Xiao, Justin P. Van Beusecum, Mingfang Ao, Agnes B. Fogo, Annet Kirabo, David G. Harrison

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Figure 12

PU.1-K228R is insensitive to tBHP-mediated repression of C1qB.

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PU.1-K228R is insensitive to tBHP-mediated repression of C1qB. (A) Graph...
(A) Graphical representation of full-length PU.1 protein with the DNA binding region, H3 recognition helix, and individual lysines represented. (B) Mutated lysines within and flanking the H3 recognition helix are represented. HEK293T cells were cotransfected with C1qB273-Luciferase with empty expression vector (mock) or a PU.1 expression vector that expresses (C) wild-type (WT), (D) K222R, (E) K223R, (F) K228R, and (G) K238R. To determine the sensitivity of individual mutants to tBHP, HEK293T cells were cotransfected with C1qB273-Luciferase and a PU.1 expression vector and treated with vehicle or tBHP. Cells were cotransfected with (H) WT, (I) K222R, (J) K223R, (K) K228R, and (L) K238R. SV40-Renilla-Luciferase construct was used as an expression control. Data were analyzed with 2-tailed Student’s t test (n = 3–9, *P < 0.05, **P < 0.01, ***P < 0.001).