Xiaoping Qing scite author profile

The metalloproteinase ADAM17 (a disintegrin and metalloprotease 17) controls EGF receptor (EGFR) signaling by liberating EGFR ligands from their membrane anchor. Consequently, a patient lacking ADAM17 has skin and intestinal barrier defects that are likely caused by lack of EGFR signaling, and Adam17 −/− mice die perinatally with open eyes, like Egfr −/− mice. A hallmark feature of ADAM17-dependent EGFR ligand shedding is that it can be rapidly and posttranslationally activated in a manner that requires its transmembrane domain but not its cytoplasmic domain. This suggests that ADAM17 is regulated by other integral membrane proteins, although much remains to be learned about the underlying mechanism. Recently, inactive Rhomboid 2 (iRhom2), which has seven transmembrane domains, emerged as a molecule that controls the maturation and function of ADAM17 in myeloid cells. However, iRhom2 −/− mice appear normal, raising questions about how ADAM17 is regulated in other tissues. Here we report that iRhom1/2 −/− double knockout mice resemble Adam17 −/− and Egfr −/− mice in that they die perinatally with open eyes, misshapen heart valves, and growth plate defects. Mechanistically, we show lack of mature ADAM17 and strongly reduced EGFR phosphorylation in iRhom1/2 −/− tissues. Finally, we demonstrate that iRhom1 is not essential for mouse development but regulates ADAM17 maturation in the brain, except in microglia, where ADAM17 is controlled by iRhom2. These results provide genetic, cell biological, and biochemical evidence that a principal function of iRhoms1/2 during mouse development is to regulate ADAM17-dependent EGFR signaling, suggesting that iRhoms1/2 could emerge as novel targets for treatment of ADAM17/EGFRdependent pathologies.inactive Rhomboid proteins | a disintegrin and metalloprotease 17 | epidermal growth factor receptor | heparin-binding epidermal growth factor | transforming growth factor alpha

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iRHOM2 is a critical pathogenic mediator of inflammatory arthritis

Issuree¹,

Maretzky²,

McIlwain³

et al. 2013

J. Clin. Invest.

125

185

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iRHOM2, encoded by the gene Rhbdf2, regulates the maturation of the TNF-α convertase (TACE), which controls shedding of TNF-α and its biological activity in vivo. TACE is a potential target to treat TNF-α-dependent diseases, such as rheumatoid arthritis, but there are concerns about potential side effects, because TACE also protects the skin and intestinal barrier by activating EGFR signaling. Here we report that inactivation of Rhbdf2 allows tissue-specific regulation of TACE by selectively preventing its maturation in immune cells, without affecting its homeostatic functions in other tissues. The related iRHOM1, which is widely expressed, except in hematopoietic cells, supported TACE maturation and shedding of the EGFR ligand TGF-α in Rhbdf2-deficient cells. Remarkably, mice lacking Rhbdf2 were protected from K/BxN inflammatory arthritis to the same extent as mice lacking TACE in myeloid cells or Tnfa-deficient mice. In probing the underlying mechanism, we found that two main drivers of K/BxN arthritis, complement C5a and immune complexes, stimulated iRHOM2/ TACE-dependent shedding of TNF-α in mouse and human cells. These data demonstrate that iRHOM2 and myeloid-expressed TACE play a critical role in inflammatory arthritis and indicate that iRHOM2 is a potential therapeutic target for selective inactivation of TACE in myeloid cells.

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α-Actinin Is a Cross-Reactive Renal Target for Pathogenic Anti-DNA Antibodies

Deocharan¹,

et al. 2002

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Anti-DNA Abs commonly found in patients with systemic lupus erythematosus are thought to play an important pathogenic role in lupus nephritis. Anti-DNA Abs may contribute to renal disease by cross-reactivity with renal Ags, the identity of which remain elusive. To identify a target Ag for pathogenic anti-DNA Abs, we performed Western blotting and immunoprecipitations of mesangial cell lysates from the lupus-prone MRL-lpr/lpr mouse and a nonautoimmune BALB/c mouse with the pathogenic anti-DNA Ab R4A. We found that R4A (but not a nonpathogenic Ab mutant of R4A) binds to and immunoprecipitates a 100-kDa protein expressed on the cell surface and in lysates of MRL-lpr/lpr mesangial cells. DNase treatment of the lysate and of the R4A Ab did not effect binding, indicating that the binding of R4A to the 100-kDa protein was direct and not mediated by an antigenic bridge containing DNA. Binding was greatly diminished in BALB/c lysates, suggesting that Ag expression or availability at the level of the target organ may be a factor in determining susceptibility to lupus nephritis. Following identification of this 100-kDa protein as nonmuscle α-actinin, binding of R4A to α-actinin was confirmed by Western blot, ELISA, inhibition studies, and immunofluorescence. High titers of anti-α-actinin Abs were present in sera and kidney eluates of lupus mice with active nephritis. These results indicate that the nephritogenicity of some anti-DNA Abs may be mediated via cross-reactivity with α-actinin. Furthermore, variations in target Ag display between individuals may underlie differential susceptibility to anti-DNA Ab-induced renal disease.

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Urinary lipocalin‐2 is associated with renal disease activity in human lupus nephritis

Pitashny¹,

Schwartz²,

Qing³

et al. 2007

Arthritis & Rheumatism

123

114

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Objective. Pathogenic monoclonal anti-doublestranded DNA (anti-dsDNA) antibodies up-regulate the expression of lipocalin-2 in glomerular mesangial cells. This study was undertaken to investigate whether polyclonal anti-dsDNA antibodies promote the local secretion of lipocalin-2 in the kidneys of patients with systemic lupus erythematosus (SLE), and whether urinary lipocalin-2 represents a marker of kidney involvement in SLE.Methods. Hispanic, African American, and white patients with SLE and normal healthy control subjects from affiliated hospitals of the Albert Einstein College of Medicine were recruited for this cross-sectional study. Patients were classified based on the presence of active renal disease according to the SLE Disease Activity Index (SLEDAI). Correlations of clinical and laboratory data with urinary and serum levels of lipocalin-2 were assessed.Results. Among SLE patients, urinary lipocalin-2 levels were significantly higher in those with lupus nephritis ( Conclusion. The high prevalence of LN in SLE patients and the prognostic significance of kidney disease support the need for identifying early biomarkers to assess the risk of nephritis development and for following up patients with established disease. These findings indicate that urinary lipocalin-2 is a potential marker of the presence and severity of renal involvement in adult patients with SLE.

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Nephritogenic Anti‐DNA antibodies regulate gene expression in MRL/lpr mouse glomerular mesangial cells

Qing¹,

Zavadil²,

Crosby³

et al. 2006

Arthritis & Rheumatism

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Xiaoping Qing

iRhoms 1 and 2 are essential upstream regulators of ADAM17-dependent EGFR signaling

iRHOM2 is a critical pathogenic mediator of inflammatory arthritis

α-Actinin Is a Cross-Reactive Renal Target for Pathogenic Anti-DNA Antibodies

Urinary lipocalin‐2 is associated with renal disease activity in human lupus nephritis

Nephritogenic Anti‐DNA antibodies regulate gene expression in MRL/lpr mouse glomerular mesangial cells

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