Walter Back scite author profile

Small-vessel vasculitis (SVV) is a chronic autoinflammatory condition linked to antineutrophil cytoplasm autoantibodies (ANCAs). Here we show that chromatin fibers, so-called neutrophil extracellular traps (NETs), are released by ANCA-stimulated neutrophils and contain the targeted autoantigens proteinase-3 (PR3) and myeloperoxidase (MPO). Deposition of NETs in inflamed kidneys and circulating MPO-DNA complexes suggest that NET formation triggers vasculitis and promotes the autoimmune response against neutrophil components in individuals with SVV.SVV is a relapsing-remitting autoinflammatory disorder leading to necrotic inflammation of small-sized blood vessels and capillaries 1 . ANCAs directed against granule proteins of neutrophils, namely against PR3 in Wegener's granulomatosis and MPO in microscopic polyangiitis, are implicated in the pathogenesis of SVV 2 . In vitro studies have demonstrated an activating effect of ANCAs on cytokine-primed neutrophils 3 , which was further corroborated by animal models of these diseases 4,5 . However, the basic mechanism that induces the life-threatening exacerbations of vasculitis and the sustained autoimmune response against neutrophil components remains elusive.A unique type of cell death of neutrophil granulocytes has recently been discovered that is characterized by the active release of chromatin fibers, so-called NETs, that trap and kill invading microbes extracellularly 6 . However, this glutinous DNA web can also stick to the endothelium and cause tissue damage during sepsis 7 , similar to neutrophil-induced As ANCA can activate the respiratory burst by binding to PR3 or MPO on the neutrophil surface 3 , we examined whether ANCA-mediated activation of neutrophils induces NET formation. We primed isolated neutrophils with tumor necrosis factor-α and incubated them with purified IgG from individuals with SVV or healthy donors as performed previously 3 . We observed robust NET formation (as determined by immunofluorescence 6,8; Supplementary Methods online) in neutrophils incubated with ANCA-IgG (Fig. 1a and Supplementary Table 1 online) but not in those incubated with control IgG, in which most nuclei retained the typical lobulated structure (Fig. 1b). After 180 min, we found that 23% of neutrophils incubated with ANCA-IgG produced NETs, compared to 11% of control IgG-treated neutrophils (Fig. 1c). Incubation with phorbol 12-myristate 13-acetate (PMA), known as a strong inducer of NETs, triggered NET production in 38% of all neutrophils (Fig. 1c). We also induced NETs with a PR3-specific mouse monoclonal antibody ( Supplementary Fig. 1 online), supporting the hypothesis that PR3-specific autoantibodies within the ANCA-IgG fraction trigger NET formation. ANCA-induced cell death of neutrophils was previously regarded as a dysregulated form of apoptosis 9 , but the link to NETs had not been noticed. The morphological changes of neutrophil nuclei clearly indicated to us that ANCA-induced NETs were of nuclear rather than of mitochondrial origin, as recently desc...

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Peutz-Jeghers syndrome is caused by mutations in a novel serine threoninekinase

Jenne

Reimann

Nezu³

et al. 1998

Nat Genet

1,050

658

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Peutz-Jeghers (PJ) syndrome is an autosomal-dominant disorder characterized by melanocytic macules of the lips, multiple gastrointestinal hamartomatous polyps and an increased risk for various neoplasms, including gastrointestinal cancer. The PJ gene was recently mapped to chromosome 19p13.3 by linkage analysis, with the highest lod score at marker D19S886. In a distance of 190 kb proximal to D19S886, we identified and characterized a novel human gene encoding the serine threonine kinase STK11. In a three-generation PJ family, we found an STK11 allele with a deletion of exons 4 and 5 and an inversion of exons 6 and 7 segregating with the disease. Sequence analysis of STK11 exons in four unrelated PJ patients has identified three nonsense and one acceptor splice site mutations. All five germline mutations are predicted to disrupt the function of the kinase domain. We conclude that germline mutations in STK11, probably in conjunction with acquired genetic defects of the second allele in somatic cells, cause the manifestations of PJ syndrome.

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Cooperative control of striated muscle mass and metabolism by MuRF1 and MuRF2

Witt

Lerche

et al. 2007

EMBO J

154

199

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The muscle-specific RING finger proteins MuRF1 and MuRF2 have been proposed to regulate protein degradation and gene expression in muscle tissues. We have tested the in vivo roles of MuRF1 and MuRF2 for muscle metabolism by using knockout (KO) mouse models. Single MuRF1 and MuRF2 KO mice are healthy and have normal muscles. Double knockout (dKO) mice obtained by the inactivation of all four MuRF1 and MuRF2 alleles developed extreme cardiac and milder skeletal muscle hypertrophy. Muscle hypertrophy in dKO mice was maintained throughout the murine life span and was associated with chronically activated muscle protein synthesis. During ageing (months 4–18), skeletal muscle mass remained stable, whereas body fat content did not increase in dKO mice as compared with wild-type controls. Other catabolic factors such as MAFbox/atrogin1 were expressed at normal levels and did not respond to or prevent muscle hypertrophy in dKO mice. Thus, combined inhibition of MuRF1/MuRF2 could provide a potent strategy to stimulate striated muscles anabolically and to protect muscles from sarcopenia during ageing.

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Walter Back

Netting neutrophils in autoimmune small-vessel vasculitis

Peutz-Jeghers syndrome is caused by mutations in a novel serine threoninekinase

Cooperative control of striated muscle mass and metabolism by MuRF1 and MuRF2

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