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Disease
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Target Concepts:
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Query: UMLS:C0034186 (
pyelonephritis
)
6,144
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Staphylococcus aureus is a common human cutaneous and nasal commensal and a major life-threatening pathogen. Adaptation to the different environments encountered inside and outside the host is a crucial requirement for survival and colonization. We identified and characterized a eukaryotic-like serine/threonine kinase with three predicted extracellular PASTA domains (SA1063, or Stk1) and its associated phosphatase (SA1062, or Stp1) in S. aureus. Biochemical analyses revealed that Stk1 displays autokinase activity on
threonine
and serine residues and is localized to the membrane. Stp1 is a cytoplasmic protein with manganese-dependent phosphatase activity toward phosphorylated Stk1. In-frame deletions of the stk1 and stp1 genes were constructed in S. aureus strain 8325-4. Phenotypic analyses of the mutants revealed reduced growth of the stk1 mutant in RPMI 1640 defined medium that was restored when adenine was added to the medium. Furthermore, the stk1 mutant displayed increased resistance to Triton X-100 and to fosfomycin, suggesting modifications in cell wall metabolism. The stk1 mutant was tested for virulence in a mouse
pyelonephritis
model and found to be strongly reduced for survival in the kidneys (approximately 2-log-unit decrease) compared to the parental strain. Renal histopathological analyses showed severe inflammatory lesions in mice infected with the parental S. aureus SH1000 strain, whereas the Deltastk1 mutant led to only minimal renal lesions. These results confirm the important role of Stk1 for full expression of S. aureus pathogenesis and suggest that phosphorylation levels controlled by stk1 are essential in controlling bacterial survival within the host.
...
PMID:Characterization of a serine/threonine kinase involved in virulence of Staphylococcus aureus. 1939 91
In prokaryotes and eukaryotes, phosphotransfer represents a common mechanism to regulate cellular functions. Recent work revealed that modulation of cellular processes by eukaryote-like serine/
threonine
kinases (STKs) and phosphatases (STPs) are widespread in bacteria. During the last two years, first evidence on the role of Ser/
Thr
phosphorylation/dephosphorylation in Staphylococcus aureus has emerged leading to the identification of a functional STK and corresponding STP. Due to homology to known STKs/STPs in other bacterial species the kinase was designated PknB or alternatively Stk/Stk1, and the phosphatase Stp. The role of these enzymes in S. aureus has been examined by use of knock-out mutants and a kinase-overexpressing strain. These studies uncovered PknB/Stk and Stp as modulators of cell wall structure and susceptibility to cell wall-acting antibiotics such as certain beta-lactams and tunicamycin. By utilizing transcriptional profile analysis a strong regulatory impact of PknB/Stk on the expression of genes encoding proteins which are involved in purine and pyrimidine biosynthesis, cell wall metabolism, autolysis, and glutamine synthesis could be identified. Moreover, PknB/Stk is able to phosphorylate MgrA, thereby regulating activity of the efflux pump NorA. In a mouse
pyelonephritis
model PknB/Stk has been shown to play a role in virulence. Overall, Ser/
Thr
phosphorylation/dephosphorylation is a common theme in regulation of cellular functions determining metabolic activity and virulence also in the major human pathogen S. aureus.
...
PMID:The impact of serine/threonine phosphorylation in Staphylococcus aureus. 1978 79
The Pim proteins are a family of highly homologous protein serine/
threonine
kinases that have been found to be overexpressed in cancer. Elevated levels of Pim1 kinase were first discovered in human leukemia and lymphomas. However, more recently Pim1 was found to be increased in solid tumors, including pancreatic and prostate cancers, and has been proposed as a prognostic marker. Although the Pim kinases have been identified as oncogenes in transgenic models, they have weak transforming abilities on their own. However, they have been shown to greatly enhance the ability of other genes or chemical carcinogens to induce tumors. To explore the role of Pim1 in prostate cancer, we generated conditional Pim1 transgenic mice, expressed Pim1 in prostate epithelium, and analyzed the contribution of PIM1 to neoplastic initiation and progression. Accordingly, we explored the effect of PIM1 overexpression in 3 different settings: upon hormone treatment, during aging, and in combination with the absence of one Pten allele. We have found that Pim1 overexpression increased the severity of mouse prostate intraepithelial neoplasias (mPIN) moderately in all three settings. Furthermore, Pim1 overexpression, in combination with the hormone treatment, increased inflammation surrounding target tissues leading to
pyelonephritis
in transgenic animals. Analysis of senescence induced in these prostatic lesions showed that the lesions induced in the presence of inflammation exhibited different behavior than those induced in the absence of inflammation. While high grade prostate preneoplastic lesions, mPIN grades III and IV, in the presence of inflammation did not show any senescence markers and demonstrated high levels of Ki67 staining, untreated animals without inflammation showed senescence markers and had low levels of Ki67 staining in similar high grade lesions. Our data suggest that Pim1 might contribute to progression rather than initiation in prostate neoplasia.
...
PMID:Conditional transgenic expression of PIM1 kinase in prostate induces inflammation-dependent neoplasia. 2356 17
