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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Preservation of cell viability and function in the hyperosmolar environment of the renal medulla is a complex process that requires selective gene expression. We have identified a new member of the heat shock protein (hsp) 70 superfamily that is up-regulated in renal inner medullary
collecting duct
cells (mIMCD3 cells) during exposure to hyperosmotic NaCl stress. Known as
osmotic stress protein 94
, or
Osp94
, this 2935-base pair cDNA encodes an 838-amino acid protein that shows greatest homology to the recently discovered hsp110/SSE gene subfamily. Like the hsps,
Osp94
has a putative amino-terminal ATP-binding domain and a putative carboxyl-terminal peptide-binding domain. The in vitro translated
Osp94
product migrated as a 105-110-kDa protein on SDS-polyacrylamide gel electrophoresis. In mIMCD3 cells,
Osp94
mRNA expression was greatly up-regulated by hyperosmotic NaCl or heat stress. In mouse kidney,
Osp94
mRNA expression paralleled the known corticomedullary osmolality gradient showing highest expression in the inner medulla. Moreover, inner medullary
Osp94
expression was increased during water restriction when osmolality is known to increase. Thus,
Osp94
is a new member of the hsp110/SSE stress protein subfamily and likely acts as a molecular chaperone.
...
PMID:Osmotic stress protein 94 (Osp94). A new member of the Hsp110/SSE gene subfamily. 864 34
Hsp110,
Osp94
, and Hsp70RY are members of the recently described Hsp110/SSE subfamily of (heat and osmotic) stress proteins whose members are structurally related to the Hsp70/BiP gene superfamily. To date, little is known about the response of this gene family to stresses in vitro or in vivo. In this study, an analysis of mRNA expression showed that Hsp110 and
Osp94
, like Hsp70, are induced in renal murine inner medullary
collecting duct
(mIMCD3) epithelial cells by heat shock, hyperosmotic NaCl, and cadmium, whereas low pH had a suppressive effect on
Osp94
. H2O2 decreased expression of
Osp94
while inducing levels of Hsp110 and Hsp70 message. Tunicamycin, hypertonic urea, and tumor necrosis factor- had no effects. Hsp70RY was responsive exclusively to cadmium chloride. Moreover, enhanced expression of Hsp110 and
Osp94
was subsequent to induction of Hsp70 and was suppressed by inhibition of protein synthesis by cycloheximide. RT-PCR analysis showed Hsp110,
Osp94
, and Hsp70RY are ubiquitously expressed in mouse tissues. In murine kidney, there was a corticomedullary gradient of expression of Hsp110,
Osp94
, Hsp70RY, and Hsp70 but not Hsc70 or BiP. Furthermore, dehydration increased inner medullary expression of Hsp110 and
Osp94
. An analysis of stress tolerance in mIMCD3 cells showed that heat shock and hyperosmotic NaCl stress are cross-tolerant stresses, suggesting hyperosmolality is a physiological correlate of heat shock in mammalian kidney. Thus Hsp110 and
Osp94
behave as heat shock proteins, although they are regulated differently than Hsp70.
...
PMID:Characterization of the Hsp110/SSE gene family response to hyperosmolality and other stresses. 984 96
Intracellular ionic strength may play an important role in regulating the expression of genes encoding osmolyte-accumulating molecules. To establish whether a strict relation exists between these variables, intracellular ionic strength (sum of Na+, Cl- and K+ concentrations) and the relative abundance of mRNA derived from various tonicity-sensitive genes was examined using electron microprobe analysis and Northern blots on primary cultures of rat papillary
collecting duct
(PCD) cells following acute or long-term alterations in medium tonicity. Hypertonic medium (450 mosmol kg(-1)) evoked an initial rise in intracellular ionic strength (269 +/- 5 vs. 194 +/- 7 mmol (kg wet weight (wt))(-1) in isotonic controls; means +/- S.E.M.), which subsequently declined gradually, and a significantly higher abundance of bgt1 (Na+- and Cl- -dependent betaine transporter), smit (Na+/myo-inositol cotransporter), ar (aldose reductase) and osp94 (
osmotic stress protein 94
) mRNAs. Conversely, exposure to hypotonic medium (200 mosmol kg(-1)) for 12 h was associated with significantly reduced intracellular ionic strength (153 +/- 4 mmol (kg wet wt)(-1)) and significantly reduced the abundance of smit and ar mRNAs. PCD cells preconditioned in hypotonic medium and re-exposed to isotonic medium showed significantly higher abundance of these mRNAs than isotonic controls, although the intracellular ionic strength did not differ. Two further tonicity-sensitive genes responded differently to medium tonicity: while the abundance of hsp70 (heat shock protein 70) mRNA increased significantly following both hypo- and hypertonic stress, inos (inducible nitric oxide synthase) mRNA abundance correlated inversely with medium tonicity. These findings support the view that the effect of intracellular ionic strength on the expression of bgt1, smit, ar and osp94 is modulated by additional factors such as cell volume, and that its effect on the pathways regulating hsp70 and inos is even more complex.
...
PMID:Relationship between intracellular ionic strength and expression of tonicity-responsive genes in rat papillary collecting duct cells. 1218 Dec 87
Osp94
(osmotic stress protein of 94 kDa) is known to be up-regulated by hypertonic and heat-shock stresses in mouse renal inner medullary
collecting duct
(mIMCD3) cells. To investigate the molecular mechanism of transcriptional regulation of the
Osp94
gene under these stresses, we cloned and characterized the 5'-flanking region of the gene. Sequence analysis of the proximal 4 kb 5'-flanking region revealed a TATA-less G/C-rich promoter region containing a cluster of Sp1 sites. We also identified upstream sequence motifs similar to the consensus TonE/ORE (tonicity-response element/osmotic response element) as well as the consensus HSE (heat-shock element). Luciferase activities in cells transfected with reporter constructs containing a TonE/ORE-like element (
Osp94
-TonE; 5'-TGGAAAGGACCAG-3') and HSE enhanced reporter gene expression under hypertonic stress and heat-shock stress respectively. Electrophoretic gel mobility-shift assay showed a slowly migrating band binding to the
Osp94
-TonE probe, probably representing binding of TonEBP (TonE binding protein) to this enhancer element. Furthermore, treatment of mIMCD3 cells with MAPK (mitogen-activated protein kinase) inhibitors (SB203580, PD98059, U0126 and SP600125) and a proteasome inhibitor (MG132) suppressed the increase in
Osp94
gene expression caused by hypertonic NaCl. These results indicate that the 5'-flanking region of
Osp94
gene contains a hypertonicity sensitive cis -acting element,
Osp94
-TonE, which is distinct from a functional HSE. Furthermore, the MAPK and proteasome systems appear to be, at least in part, involved in hypertonic-stressmediated regulation of
Osp94
through
Osp94
-TonE.
...
PMID:Regulation of expression of the stress response gene, Osp94: identification of the tonicity response element and intracellular signalling pathways. 1501 8
A proteome map of the most abundant proteins in the murine inner medullary
collecting duct
(mIMCD3) cell line was generated by 2-dimensional gel electrophoresis (2D-GE) combined with MALDI-TOF/TOF mass spectrometry. The 2-D model map identifies 77 distinct constitutive proteins and a total of 86 spots including isoforms. Protein identification was based on both peptide mass fingerprinting (MS) and peptide fragmentation (MS/MS) data. High confidence Mascot scores were obtained in the database search, due to the high quality and the number of MS/MS spectra which provided matching sequence information to the database. A functional classification of the identified proteins showed that a high proportion were stress proteins, such as heat shock proteins and proteins with anti-oxidant activity. Other proteins identified were involved in cytoskeletal maintenance, metabolism and energy generation, as well as in translation, transcription, RNA processing and other cell cycle processes. Exposure of the mIMCD3 cells to hyperosmotic stress using 600 mOsmol/kg NaCl or Urea or 700 mOsmol/kg NaCl-Urea (50:50) resulted in the greatest proteome upregulation in 700 mosM NaCl-Urea and the greatest downregulation in 600 mosM NaCl. Several proteins with molecular chaperone function were induced, such as alpha-B crystallin, two Hsp70 isoforms, the osmotic stress protein (
Osp94
), as well as aldose reductase. Additional isoforms of the translation elongation factors Eef2 and Eef1a1 were induced. Characterization of the phosphoproteome of mIMCD3 cells with a phosphoprotein-specific stain showed a significant proportion of the proteome was phosphorylated. Additionally, exposure of mIMCD3 cells to 600 mOsmol/kg NaCl hyperosmotic stress resulted in a 1.8-fold higher phosphorylation level of the most acidic isoform of the heat shock protein Hsp27 compared to its phosphorylation level under iso-osmotic conditions.
...
PMID:Constitutive and inducible stress proteins dominate the proteome of the murine inner medullary collecting duct-3 (mIMCD3) cell line. 1671 11
