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Query: UMLS:C0033687 (
proteinuria
)
24,015
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Diseases of the kidney filtration barrier are a leading cause of ESRD. Most disorders affect the podocytes, polarized cells with a limited capacity for self-renewal that require tightly controlled signaling to maintain their integrity, viability, and function. Here, we provide an atlas of in vivo phosphorylated, glomerulus-expressed proteins, including podocyte-specific gene products, identified in an unbiased tandem mass spectrometry-based approach. We discovered 2449 phosphorylated proteins corresponding to 4079 identified high-confidence phosphorylated residues and performed a systematic bioinformatics analysis of this dataset. We discovered 146 phosphorylation sites on proteins abundantly expressed in podocytes. The
prohibitin
homology domain of the slit diaphragm protein podocin contained one such site, threonine 234 (T234), located within a phosphorylation motif that is mutated in human genetic forms of
proteinuria
. The T234 site resides at the interface of podocin dimers. Free energy calculation through molecular dynamic simulations revealed a role for T234 in regulating podocin dimerization. We show that phosphorylation critically regulates formation of high molecular weight complexes and that this may represent a general principle for the assembly of proteins containing
prohibitin
homology domains.
...
PMID:Phosphoproteomic analysis reveals regulatory mechanisms at the kidney filtration barrier. 2451 Nov 33
Mitochondrial dysfunction and alterations in energy metabolism have been implicated in a variety of human diseases. Mitochondrial fusion is essential for maintenance of mitochondrial function and requires the
prohibitin
ring complex subunit
prohibitin
-2 (PHB2) at the mitochondrial inner membrane. Here, we provide a link between PHB2 deficiency and hyperactive insulin/IGF-1 signaling. Deletion of PHB2 in podocytes of mice, terminally differentiated cells at the kidney filtration barrier, caused progressive
proteinuria
, kidney failure, and death of the animals and resulted in hyperphosphorylation of S6 ribosomal protein (S6RP), a known mediator of the mTOR signaling pathway. Inhibition of the insulin/IGF-1 signaling system through genetic deletion of the insulin receptor alone or in combination with the IGF-1 receptor or treatment with rapamycin prevented hyperphosphorylation of S6RP without affecting the mitochondrial structural defect, alleviated renal disease, and delayed the onset of kidney failure in PHB2-deficient animals. Evidently, perturbation of insulin/IGF-1 receptor signaling contributes to tissue damage in mitochondrial disease, which may allow therapeutic intervention against a wide spectrum of diseases.
...
PMID:Inhibition of insulin/IGF-1 receptor signaling protects from mitochondria-mediated kidney failure. 2564 82
The kidney filtration barrier consists of three well-defined anatomic layers comprising a fenestrated endothelium, the glomerular basement membrane (GBM) and glomerular epithelial cells, the podocytes. Podocytes are post-mitotic and terminally differentiated cells with primary and secondary processes. The latter are connected by a unique cell-cell contact, the slit diaphragm. Podocytes maintain the GBM and seal the kidney filtration barrier to prevent the onset of
proteinuria
. Loss of
prohibitin
-1/2 (PHB1/2) in podocytes results not only in a disturbed mitochondrial structure but also in an increased insulin/IGF-1 signaling leading to mTOR activation and a detrimental metabolic switch. As a consequence, PHB-knockout podocytes develop
proteinuria
and glomerulosclerosis and eventually loss of renal function. In addition, experimental evidence suggests that PHB1/2 confer additional, extra-mitochondrial functions in podocytes as they localize to the slit diaphragm and thereby stabilize the unique intercellular contact between podocytes required to maintain an effective filtration barrier.
...
PMID:Prohibitin Signaling at the Kidney Filtration Barrier. 2855 7
Membranous nephropathy (MN) is the most common cause of nephrotic syndrome in adults, when not effectively treated. The aim of this study was to discover new targets for the diagnosis and treatment of MN. A reliable mouse model of MN was used by the administration of cationic bovine serum albumin (cBSA). Mice with MN exhibited
proteinuria
, histopathological changes, and accumulation of immune complexes in the glomerular basement membrane. Label-free proteomics analysis was performed to identify changes in protein expression, and the overexpressed proteins were evaluated. There were 273 proteins that showed significantly different expression in mice with MN, as compared to the controls. String analysis showed that functions related to cellular catabolic processes were downregulated in MN. Among the differentially expressed proteins,
prohibitin
1 (PHB1) and prohibitin 2 (PHB2) were upregulated in the kidneys of mice with MN, as demonstrated by immunohistochemistry (IHC), and this upregulation was observed in both the tubular cells and glomeruli. Both shRNA-mediated knockdown of PHB1 or PHB2 inhibited tumor suppressor p53 expression and significantly promoted podocyte proliferation. In addition, both PHB1 and PHB2 were responsible for cBSA-induced cytotoxicity. Microarray analysis further revealed that the upregulation of PHB1 and PHB2 may be due to a blockage of proteasome activity. These data demonstrate that the upregulation of PHB2 is involved in cBSA-mediated podocyte cytotoxicity, which may lead to MN development.
...
PMID:Involvement of prohibitin 1 and prohibitin 2 upregulation in cBSA-induced podocyte cytotoxicity. 3188 7
