Gene/Protein
Disease
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Enzyme
Compound
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Gene/Protein
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Query: EC:3.1.27.1 (
RNase
)
16,360
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Podocytes are specialized epithelial cells with delicate interdigitating foot processes which cover the exterior basement membrane surface of the glomerular capillary. They are in part responsible for the extraordinary charge and size filtration characteristics of the glomerulus. To better understand disease processes affecting the glomerular filter, we searched for proteins with relative specificity to the podocyte using a monoclonal antibody strategy. The first such protein characterized (designated
glomerular epithelial protein 1
(
GLEPP1
)) is a membrane protein-tyrosine phosphatase (PTPase) with a large extracellular domain containing eight fibronectin type III-like repeats, a hydrophobic transmembrane segment, and a single PTPase domain. The
GLEPP1
PTPase domain shows homology with two other single domain transmembrane PTPases (PTP beta and Drosophila central nervous system PTP10D). This homology includes 2 cysteines in the PTPase domain not present in intracellular or tandem domain membrane PTPases.
GLEPP1
PTPase protein is distributed to the podocyte foot processes themselves.
RNase
protection assay shows that
GLEPP1
mRNA is also present in brain. By analogy with the CD45 PTPase of T cells, we expect that this receptor might play a role in maintaining foot process structure and/or function by regulating tyrosine phosphorylation of podocyte proteins.
...
PMID:GLEPP1, a renal glomerular epithelial cell (podocyte) membrane protein-tyrosine phosphatase. Identification, molecular cloning, and characterization in rabbit. 751 1
Glomerular epithelial protein 1
(
GLEPP1
) is a podocyte receptor membrane protein tyrosine phosphatase located on the apical cell membrane of visceral glomerular epithelial cell and foot processes. This receptor plays a role in regulating the structure and function of podocyte foot process. To better understand the utility of
GLEPP1
as a marker of glomerular injury, the amount and distribution of
GLEPP1
protein and mRNA were examined by immunohistochemistry, Western blot and
RNase
protection assay in a model of podocyte injury in the rat. Puromycin aminonucleoside nephrosis was induced by single intraperitoneal injection of puromycin aminonucleoside (PAN, 20 mg/100g BW). Tissues were analyzed at 0, 5, 7, 11, 21, 45, 80 and 126 days after PAN injection so as to include both the acute phase of proteinuria associated with foot process effacement (days 5-11) and the chronic phase of proteinuria associated with glomerulosclerosis (days 45-126). At day 5,
GLEPP1
protein and mRNA were reduced from the normal range (265.2 +/- 79.6 x 10(6) moles/glomerulus and 100%) to 15% of normal (41.8 +/- 4.8 x 10(6) moles/glomerulus, p < 0.005). This occurred in association with an increase in urinary protein content from 1.8 +/- 1 to 99.0 +/- 61 mg/day (p < 0.001). In contrast, podocalyxin did not change significantly at this time. By day 11,
GLEPP1
protein and mRNA had begun to return towards baseline. By day 45-126, at a time when glomerular scarring was present,
GLEPP1
was absent from glomerulosclerotic areas although the total glomerular content of
GLEPP1
was not different from normal. We conclude that
GLEPP1
expression, unlike podocalyxin, reflects podocyte injury induced by PAN.
GLEPP1
expression may be a useful marker of podocyte injury.
...
PMID:GLEPP1 receptor tyrosine phosphatase (Ptpro) in rat PAN nephrosis. A marker of acute podocyte injury. 1196 7
