Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
 17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Survival of V-79 Chinese hamster cells was assessed by colony growth assay after hypothermic exposure in the presence of iron chelators. At 5 degrees C, maximum protection from hypothermic damage was achieved with a 50 microM concentration of the intracellular ferric iron chelator Desferal. A 3-hr prehypothermic incubation with 50 microM Desferal followed by replacement with chelator-free medium at 5 degrees C also provided some protection. This was not observed when the extracellular chelator DETA-PAC (50 microM) was used prior to cold storage. Treating 5 degrees C-stored cells with Desferal just prior to rewarming was ineffective, but treating cells with Desferal during hypothermia exposure after a significant period of unprotected cold exposure ultimately increased the surviving fraction. Submaximal protection during hypothermia was achieved to various degrees with extracellular chelators at 5 degrees C, including 50 microM DETAPAC and 110 microM EDTA. EGTA (110 microM) had little effect. The sensitization of cells at 5 degrees C with 200 microM FeCl3 could be reduced or eliminated with Desferal in accordance with a 1:1 binding ratio. At 10 degrees C, 50 microM Desferal, 50 microM DETAPAC, and 110 microM EDTA were as or less effective in protecting cells than at 5 degrees C. An Arrhenius plot of cell inactivation rates shows a break at 7-8 degrees C, corresponding to maximum survival for control cells and cells in 50 microM Desferal; however, the amount of protection offered by the chelator increases with decreasing temperature below about 19 degrees C, and sensitization increases above that point. It has not previously been shown that iron chelators protect against cellular hypothermia damage which is uncomplicated by previous or simultaneous ischemia. This may be relevant to the low-temperature storage of transplant organs, in which iron of intracellular origin and in the perfusate may be active and damaging.
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PMID:Factors influencing survival of mammalian cells exposed to hypothermia. IV. Effects of iron chelation. 239 29

Cold preservation results in cell death via iron-dependent formation of reactive oxygen species, leading to apoptosis during rewarming. We aimed to study cold-induced damage (i.e., injury as a consequence of hypothermia itself and not cold ischemia) in proximal tubular cells (PTC) in various preservation solutions presently applied and to clarify the role of mitochondria in this injury. Primary cultures of rat PTC were incubated at 4 degrees C for 24 h in culture medium, UW, Euro-Collins or HTK solution with and without the iron chelator desferal and rewarmed at 37 degrees C in culture medium. Cell damage, morphology, and apoptosis were studied and mitochondrial membrane potential was assessed by fluorescence microscopy. Cold incubation of PTC in culture medium followed by rewarming caused marked cell damage compared to warm incubation alone (LDH release 39+/-10% vs. 1.6+/-0.3%). Cold-induced damage was aggravated in all preservation solutions (LDH release 85+/-2% for UW; similar in Euro-Collins and HTK). After rewarming, cells showed features suggestive for apoptosis. Desferal prevented cell injury in all solutions (e.g., 8+/-2% for UW). Mitochondrial membrane potential was lost during rewarming and this loss could also be inhibited by desferal. Trifluoperazine, which is known to inhibit mitochondrial permeability transition (MPT), was able to prevent cold-induced injury (LDH 85+/-5% vs. 12+/-2%). We conclude that cold-induced injury occurs in PTC and is aggravated by UW, Euro-Collins, and HTK solution. Iron-dependent MPT is suggested to play a role in this damage. Strategies to prevent cold-induced injury should aim at reducing the availability of "free" iron.
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PMID:Hypothermia causes a marked injury to rat proximal tubular cells that is aggravated by all currently used preservation solutions. 1296 15