Gene/Protein
Disease
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Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UMLS:C0451641 (
urolithiasis
)
3,973
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It is believed that boundary compositions of matrix proteins might play a role in stone formation; however, few proteomic studies concerning matrix proteins in urinary stones have been conducted. In this study, we extracted low molecular weight proteins from calcium oxalate stones and measured their characteristic patterns by mass spectroscopy. A total of 10 stones were surgically removed from patients with
urolithiasis
. Proteins were extracted from the stones and identified by one-dimensional electrophoresis (sodium dodecyl sulfate buffer [SDS]-polyacrylamide gel electrophoresis [SDS-PAGE]). After in-gel digest, samples were analyzed by the surface-enhanced laser desorption ionization-time of flight (SELDI-TOF) technique. The peptide sequences were analyzed from the data of mass spectroscopy. Proteins were identified from Database Search (SwissProt Protein Database; Swiss Institute of Bioinformatics; http://www.expasy.org/sprot) on a MASCOT server (Matrix Science Ltd.; http://www.matrixscience.com). A total of three bands of proteins (27, 18, and 14 kDa) were identified from SDS-PAGE in each stone sample. A database search (SwissProt) on a MASCOT server revealed that the most frequently seen proteins from band 1 (27 kDa) were leukocyte elastase precursor, cathepsin G precursor, azurocidin precursor, and myeloblastin precursor (EC 3.4.21.76) (leukocyte proteinase 3); band 2 (18 kDa) comprised
calgranulin B
, eosinophil cationic protein precursor, and lysozyme C precursor; band 3 (14 kDa) showed neutrophil defensin 3 precursor, calgranulin A, calgranulin C, and histone H4. The modifications and deamidations found from the mass pattern of these proteins may provide information for the study of matrix proteins. Various lower molecular weight proteins can be extracted from calcium oxalate stones. The characteristic patterns and their functions of those proteins should be further tested to investigate their roles in stone formation.
...
PMID:Mass spectroscopic characteristics of low molecular weight proteins extracted from calcium oxalate stones: preliminary study. 1820 May 70
F344 rats chronically infected with Ureaplasma parvum develop two distinct profiles: asymptomatic urinary tract infection (UTI) and UTI complicated by struvite
urolithiasis
. To identify factors that affect disease outcome, we characterized the temporal host immune response during infection by histopathologic analysis and in situ localization of U. parvum. We also used differential quantitative proteomics to identify distinguishing host cellular responses associated with complicated UTI. In animals in which microbial colonization was limited to the mucosal surface, inflammation was indistinguishable from that which occurred in sham-inoculated controls, and the inflammation resolved by 72 h postinoculation (p.i.) in both groups. However, inflammation persisted in animals with microbial colonization that extended into the deeper layers of the submucosa. Proteome profiling showed that bladder tissues from animals with complicated UTIs had significant increases (P < 0.01) in proteins involved in apoptosis, oxidative stress, and inflammation. Animals with complicated UTIs (2 weeks p.i.) had the highest concentrations of the proinflammatory protein S100A8 (P <or= 0.005) in bladder tissues, and the levels of S100A8 positively correlated with those of proinflammatory cytokines GRO/KC (P <or= 0.003) and interleukin-1 alpha (P <or= 0.03) in urine. The bladder uroepithelium was a prominent cell source of S100A8-
S100A9
in animals with complicated UTIs (2 weeks p.i.), which was not detected in animals with asymptomatic UTIs (2 weeks p.i.) or in any bladder tissues harvested at earlier p.i. time points. Based on these results, we surmise that invasive colonization of the bladder triggers chronic inflammation and immune dysregulation, which may be critical to struvite formation.
...
PMID:Complicated urinary tract infection is associated with uroepithelial expression of proinflammatory protein S100A8. 1966 50
The aim of this study was to compare the comprehensive intracrystalline protein profiles of calcium oxalate monohydrate (COM) and dihydrate (COD) crystals precipitated from the same human urine samples. Three separate batches of COM and COD crystals were precipitated from pooled healthy human urine by the addition of sodium oxalate at calcium concentrations of 2 and 8 mM, respectively. Proteins in whole extracts of demineralised COM and COD crystals, as well as in spots excised from 2D-PAGE gels of the extracts, were identified using liquid chromatography and tandem mass spectrometry (LC-MS/MS). The number and type of individual proteins differed between COM and COD: 14 substantive proteins were found inside COM crystal extracts and 34 inside COD, with 9 proteins occurring in both crystal types. Numerous keratins were detected. However, in line with consensus in the proteomics literature, as well as a lack of published evidence linking them to
urolithiasis
, they were excluded as contaminants, leaving very few consistently detected proteins. On the basis of their known association with stone disease or identification in multiple runs, the principal proteins in COM crystal extracts were prothrombin fragment 1, protein
S100A9
, and IGkappaV1-5, while those in extracts of COD crystals included osteopontin, IGkappaV1-5, protein
S100A9
, annexin A1, HMW kininogen-1, and inter-alpha-inhibitor (IalphaI). In general, proteins incorporated into both hydromorphs were acidic (pI<6), smaller than 55 kDa, and calcium binders. We concluded that the incorporation of proteins into urinary COM and COD crystals is selective and that only a few of the urinary proteins associated with the two hydromorphs are likely to play any significant role in stone pathogenesis.
...
PMID:Comparison of the specific incorporation of intracrystalline proteins into urinary calcium oxalate monohydrate and dihydrate crystals. 2067 53
Calcium oxalate kidney stones contain low amounts of proteins, some of which have been implicated in progression or prevention of kidney stone formation. To gain insights into the pathophysiology of
urolithiasis
, we have characterized protein components of calcium oxalate kidney stones by proteomic approaches. Proteins extracted from kidney stones showed highly heterogeneous migration patterns in gel electrophoresis as reported. This was likely to be mainly due to proteolytic degradation and protein-protein crosslinking of Tamm-Horsfall protein and prothrombin. Protein profiles of calcium oxalate kidney stones were obtained by in-solution protease digestion followed by nanoLC-MALDI-tandem mass spectrometry, which resulted in identification of a total of 92 proteins in stones from 9
urolithiasis
patients. Further analysis showed that protein species and their relative amounts were highly variable among individual stones. Although proteins such as prothrombin, osteopontin, calgranulin A and
calgranulin B
were found in most stones tested, some samples had high contents of prothrombin and osteopontin, while others had high contents of calgranulins. In addition, calgranulin-rich stones had various neutrophil-enriched proteins such as myeloperoxidase and lactotransferrin. These proteomic profiles of individual kidney stones suggest that multiple systems composed of different groups of proteins including leucocyte-derived ones are differently involved in pathogenesis of individual kidney stones depending on situations.
...
PMID:Diversity in protein profiles of individual calcium oxalate kidney stones. 2387 95
