Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: UMLS:C0020672 (
hypothermia
)
17,327
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hypothermia
is known to be a common feature of energy restriction (ER) and essential for a life-prolonging effect of ER. The heart is sensitive to
hypothermia
, but the heart in ER mice acquires some adaptation to
hypothermia
. The aim of the present study was to characterize the gene expression profile associated with ER-induced cold resistance of heart. We analyzed the expression of heart mRNA from ER (200 kJ/week) or control (400 kJ/week) B6 11-month-old male mice using cDNA array membranes including 588 genes. Eighty-eight out of 588 genes were expressed in the heart. mRNAs increased by ER were glutathion S-transferase Mu1, transcriptional factor 1 for heat shock gene (
HSF1
), and fetal myosin alkali light chain genes. mRNA decreased by ER were seven genes in four categories: (1). cell cycle or apoptosis-related proteins (cyclin G and nucleoside diphosphate kinase B); (2). stress response proteins (oxidative stress-induced protein); (3). DNA repair proteins (protein involved in DNA double-strand break repair, Rad23 UV excision repair protein homologue and ubiquitin-conjugating enzyme); and (4). cell-surface antigens (lamimin receptor 1). These data suggest that the heart of ER mice adapts to
hypothermia
involving heat shock proteins and their transcriptional factors and by changing structure and property of myofibrils. It is also suggested that ER induces protection against oxidative stress and inhibits cell proliferation of "nonmuscle cells" in the heart. Gene expression analysis using cDNA array was useful for screening genes associated with ER-induced cold adaptation.
...
PMID:Characterization of gene expression profile associated with energy restriction-induced cold tolerance of heart. 1242 94
Environmental factors such as outside temperature at the time of death are very important for forensic diagnoses and police investigations. In particular, death in a cold environment is associated with factors of forensic interest, including
hypothermia
, drowning in cold water, or postmortem body movement by a suspect.
Hypothermia
raises a special problem because of the difficulty of evaluation during autopsy. We describe here a unique method of estimating antemortem environmental temperature, involving the immunohistochemical analysis of HSP70 expression patterns in glomerular podocytes. Using this method, we found that HSP70 was present in glomerular podocytes at autopsy and that HSP70 was highly expressed, mainly in the nucleus of podocytes, in deaths associated with exposure to cold. Interestingly, this expression pattern was specific to death in a cold environment, including
hypothermia
and drowning in cold water. Analysis of the pattern of HSP70 expression in glomeruli may therefore be very useful in forensic diagnosis, for determining whether the antemortem environmental temperature was low. Moreover, immunohistochemical and real-time PCR assays of the molecular mechanism of HSP70 and
HSF1
expression in glomeruli following exposure to cold indicated that HSP70 was rapidly translocated to the nucleus of podocytes following exposure to cold, but without new protein synthesis.
...
PMID:Estimates of exposure to cold before death from immunohistochemical expression patterns of HSP70 in glomerular podocytes. 2324 72
