Cellular Response to Hyperosmotic Stresses

Burg, Maurice B.; Ferraris, Joan D.; Dmitrieva, Natalia I.

doi:10.1152/physrev.00056.2006

Cited by 656 publications

(867 citation statements)

References 348 publications

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“…Probably the toxicity of glycerol is due to its action on the cytoskeleton; in addition to our findings two facts support this theory. First it has been suggested that the cytoskeleton acts as a cell volume sensor and also offers protection against the deleterious effect of excessive shrinkage [38], and has been proposed that the toxicity of glycerol for human erythrocytes is due to the fact that glycerol renders red cells susceptible to osmotic stress at thawing [39]. As indicated before glycerol induced cellular damage, since a significant decrease in the percentage of intact membranes was observed in samples incubated in presence of 5 % glycerol, but also concentrations of glycerol of 3.5% resulted in a significant increase in the percentage of necrotic (ethidium +) spermatozoa.…”

Section: -Discussionmentioning

confidence: 99%

Toxicity of glycerol for the stallion spermatozoa: Effects on membrane integrity and cytoskeleton, lipid peroxidation and mitochondrial membrane potential

et al. 2012

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Section: -Discussionmentioning

confidence: 99%

Toxicity of glycerol for the stallion spermatozoa: Effects on membrane integrity and cytoskeleton, lipid peroxidation and mitochondrial membrane potential

et al. 2012

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“…8). This finding might show that two copies of the elements are suffient to drive a maximum transcriptional activity or that the observed equivalent activity is due to the impaired efficiency of protein synthesis by hypertonic stress, although the molecular mechanism by which hypertinicity inhibits translation is not well understood (42). In addition, the AP1/Sp-1 element of the MCP1 gene was insensitive to hyperosmolality because the D5 deletion construct containing the AP1/Sp-1 element failed to increase reporter activity (Fig.…”

Section: Probementioning

confidence: 99%

Hypertonicity-Induced Expression of Monocyte Chemoattractant Protein-1 through a Novel Cis-Acting Element and MAPK Signaling Pathways

Kojima

Taniguchi

Tsuzuki

et al. 2010

The Journal of Immunology

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MCP1 is upregulated by various stimuli, including LPS, high glucose, and hyperosmolality. However, the molecular mechanisms of transcriptional regulation of the MCP1 gene under hyperosmolar conditions are poorly understood. Treatment of NRK52E cells with NaCl or mannitol resulted in significant elevation of MCP1 mRNA and protein in a time- and dose-dependent manner. Treatment with a p38MAPK inhibitor (SB203580), an ERK inhibitor (PD98059), or an MEK inhibitor (U0126), suppressed the increase in MCP1 expression caused by hypertonic NaCl, whereas a JNK inhibitor (SP600125) and an AP1 inhibitor (curcumin) failed to attenuate MCP1 mRNA expression by NaCl. In the 5′-flanking region of the MCP1 gene, there is a sequence motif similar to the consensus TonE/ORE as well as the consensus C/E binding protein (BP), NF-κB, and AP1/Sp1 sites. Luciferase activity in cells transfected with reporter constructs containing a putative TonE/ORE element (MCP1-TonE/ORE) enhanced reporter gene expression under hypertonic stress. Results of electrophoretic gel mobility shift assay showed a slow migration of the MCP1-TonE/ORE probe, representing the binding of TonEBP/OREBP/NFAT5 to this enhancer element. These results indicate that the 5′-flanking region of MCP1 contains a hypertonicity-sensitive cis-acting element, MCP1-TonE/ORE, as a novel element in the MCP1 gene. Furthermore, p38MAPK and MEK–ERK pathways appear to be, at least in part, involved in hypertonic stress-mediated regulation of MCP1 expression through the MCP1-TonE/ORE.

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“…The kidney is highly specialized for ionic and osmotic regulation, and the cells in the renal medulla are exposed to high levels of NaCl and urea. High NaCl and urea concentrations are stressful to cells, altering their function or even killing them by apoptosis (Burg et al, 2007).…”

Section: Hsps and Osmoregulationmentioning

confidence: 99%

Natural annual cycle of heat shock protein expression in land snails: desertversusMediterranean species ofSphincterochila

Arad

Mizrahi

Goldenberg

et al. 2010

Journal of Experimental Biology

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SUMMARYLand snails are subject to daily and seasonal variations in temperature and in water availability, and have evolved annual cycles of activity and aestivation as part of their survival strategy. We tested in the field whether adaptation to different habitats affects the endogenous levels of heat shock proteins (HSPs) in two closely related Sphincterochila snail species, a desiccation-resistant desert species, Sphincterochila zonata, and a Mediterranean-type, desiccation-sensitive species, S. cariosa. We examined HSP levels in various tissues of snails during aestivation and after resumption of activity. Our study shows that, during aestivation, S. cariosa had higher standing stocks of Hsp70 in the foot and the hepatopancreas, and of small HSPs (sHSPs) in all the examined tissues, whereas S. zonata had higher stocks of Hsp70 in the kidney and of Hsp90 in the kidney and in the hepatopancreas. Arousal induced a general upregulation of HSPs, except for Hsp90, the expression of which in the foot was higher during aestivation. We suggest that the stress protein machinery is upregulated during arousal in anticipation of possible oxidative stress ensuing from the accelerating metabolic rate and the exit from the deep hypometabolic state. Our findings support the concept that, in land snails, aestivation and activity represent two distinct physiological states, and suggest that land snails use HSPs as important components of the aestivation mechanism, and as part of their survival strategy during and after arousal. Our study also indicates that adaptation to different habitats results in the development of distinct strategies of HSP expression with likely consequences for the ecology and distribution of land snails. Supplementary material available online at

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Cellular Response to Hyperosmotic Stresses

Cited by 656 publications

References 348 publications

Toxicity of glycerol for the stallion spermatozoa: Effects on membrane integrity and cytoskeleton, lipid peroxidation and mitochondrial membrane potential

Toxicity of glycerol for the stallion spermatozoa: Effects on membrane integrity and cytoskeleton, lipid peroxidation and mitochondrial membrane potential

Hypertonicity-Induced Expression of Monocyte Chemoattractant Protein-1 through a Novel Cis-Acting Element and MAPK Signaling Pathways

Natural annual cycle of heat shock protein expression in land snails: desertversusMediterranean species ofSphincterochila

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