Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0042384 (
vasculitis
)
20,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
PR3, also called myeloblastin, is a neutrophil serine protease that promotes myeloid cell proliferation by cleaving the
cyclin-dependent kinase inhibitor
p21(cip1/waf1). In addition, it is the target of ANCA in GPA, a necrotizing
vasculitis
. Anti-PR3 ANCA binding to membrane-expressed PR3 triggers neutrophil activation, potentiating vascular inflammation. This study performed in RBL cells identifies the structural motifs of PR3 membrane anchorage and examines its impact on PR3 proinflammatory and proliferative functions. With the use of MD simulations and mutagenesis, we demonstrate that the mutations of four hydrophobic (F180, F181, L228, F229) or four basic (R193, R194, K195, R227) amino acids abrogated PR3 membrane anchorage. The hydrophobic patch-deficient PR3 mutant (PR34H4A) was still able to cleave the synthetic substrate Boc-Ala-Pro-Val in cell lysates. However, in contrast to WT PR3, PR34H4A was not expressed at the plasma membrane after degranulation and failed to cleave extracellular fibronectin, was not externalized after apoptosis and did not impair macrophage phagocytosis of apoptotic cells, did not promote myeloid cell proliferation and failed to cleave p21/waf1. PR3 membrane insertion appears to be pivotal for its proinflammatory activities, such as extracellular proteolysis and impairment of apoptotic cell clearance, but also for myeloid cell proliferation. Targeting membrane-associated PR3 might constitute a novel, anti-inflammatory therapeutic strategy in inflammatory disease especially in
vasculitis
, but this approach has to be validated in mature neutrophils.
...
PMID:Molecular analysis of the membrane insertion domain of proteinase 3, the Wegener's autoantigen, in RBL cells: implication for its pathogenic activity. 2182 19
Dermatologic toxicities associated with anticancer-targeted therapy include hand-foot skin reactions,
vasculitis
, cutaneous epithelial proliferations, such as keratosis, keratoacanthoma, and invasive squamous cell carcinoma. In this case report, we describe alterations of tumor morphology and patterns of
cyclin-dependent kinase inhibitor
(CDKI) expression in a patient who received GSK2118436, a second-generation RAF inhibitor, for stage IV (M1c) metastatic melanoma. To explore the effects of GSK2118436 on the expression patterns of CDKI (p16, p21, p27, p57), we immunohistochemically evaluated in vivo melanoma cells pre- and posttreated with GSK2118436. After GSK2118436 treatment, the melanoma cells decreased in size and demonstrated hyperchromatic nuclei and indistinct nucleoli. p16 was strongly expressed in the cytoplasm of pretreated melanoma cells and in the nucleus and cytoplasm in posttreated melanoma cells. Expression of both p27 (nucleus) and p57 (cytoplasm) was increased in posttreated melanoma cells and no significant difference in p21 expression was noted in either pre- or posttreated tumor cells. These findings may help explain the molecular mechanisms by which tumor cells retain the ability to proliferate. The persistent activation of pro-oncogenic activities of CDKI (eg, p27 and p57) and/or compartmentalization of p16 in cytoplasm or nucleus may allow tumor cells to bypass BRAF-induced senescence mechanisms. Furthermore, awareness of changes in tumor morphology after treatment with RAF inhibitors may be helpful in histologic evaluation of the spectrum of dermatologic toxicity, which may occur on targeted therapy.
...
PMID:Changes in tumor morphology and cyclin-dependent kinase inhibitor expression in metastatic melanoma treated with selective second-generation BRAF inhibitor. 2287 67
