UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

alpha B crystallin, a heat-shock-like protein, is a major component of the soluble protein fraction of the heart and is thought to play a protective role in stress situations. During an ischemic episode, the cytosol of cardiomyocytes acidifies, thus causing the aggregation of the protein with cytoskeletal elements. After homogenization of the tissue, alpha B crystallin can then be recovered with the insoluble cell components. This study investigated the change of the solubility properties of crystallin in the ischemic heart. The distribution of crystallin in the soluble and insoluble cellular fractions was determined by centrifugation of heart homogenates and immunoblot analysis with anti-alpha B crystallin antibodies. The proportion of aggregated alpha B-crystallin increased in hearts reperfused after total normothermic ischemia of increasing severity. alpha B crystallin aggregation was proportional to the amount of lactate dehydrogenase activity released by the hearts and was inversely correlated to the ability of the hearts to recover contractile activity after the ischemic episode. This study shows that the amount of aggregated crystallin can be used as a new marker for the ischemic damage of the heart. Biopsies of a few milligrams are sufficient for the analysis.
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PMID:Determination of alpha B crystallin aggregation: a new alternative method to assess ischemic damage of the heart. 156 52

Rat hearts were perfused in the working heart or Langendorff mode and then subjected to total normothermic ischemia. The content of alpha-crystallin in the water soluble protein fraction obtained from these hearts diminished in a time-dependent manner during ischemia. The protein was recovered in the low g pellet of the homogenate. The redistribution was dramatic, selective for alpha-crystallin and irreversible. Large crystallin clumps formed also when exposing the soluble protein fraction of control hearts to slightly acidic pH (6.5-7.0). Electron microscopic analysis showed that aggregation of the globular homo-oligomeric units of crystallin occurred. The aggregates probably represented denatured protein and were similar in appearance to lenticular alpha H-crystallin. In purified form, however, cardiac crystallin particles did not cluster at pH 6.5. Aggregation only occurred in the presence of other protein components (including, probably, cytosolic actin) of the soluble fraction. A direct and selective interaction between actin and cardiac crystallin could be demonstrated using actin-Sepharose affinity chromatography procedures. The results suggest that large aggregates of cardiac crystallin form very early during ischemia, due to acidification of the cytosol. Cardiac crystallin is highly homologous to stress proteins and is localized on the Z-disks, where it plays probably a structural or protective role. Its rapid and complete denaturation could be involved in the genesis of the irreversible structural damages occurring during ischemia.
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PMID:Cardiac alpha-crystallin. III. Involvement during heart ischemia. 228 Jul 61

Preconditioning the brain with sublethal cerebral ischemia induces tolerance to subsequent lethal periods of ischemia (ischemic tolerance). The purpose of this study is to investigate the role of low-molecular weight stress proteins, 27-kDa heat shock protein (HSP27) and alpha B crystallin, in ischemic tolerance. We measured the content of these proteins with enzyme immunoassay in the rat hippocampus and cerebral cortex following 6 min of ischemia with and without preconditioning with 3 min of ischemia and 3 days of reperfusion. We also visualized the localization of HSP27 immunohistochemically in comparison with that of HSP70. A 3-min period of ischemia caused a 2.4-fold increase in HSP27 content in the hippocampus after 3 days. Immunohistochemical localization of HSP27 was found in glial cells in all subregions of the hippocampus, whereas HSP70 immunostaining was seen only in CA1 pyramidal neurons. HSP27 content in the hippocampus decreased 2 h after 6 min of ischemia. HSP27 content progressively increased in the unpreconditioned hippocampus after 1 and 3 days, but returned to preischemic levels in the preconditioned hippocampus. HSP27 and HSP70 immunostaining was seen in CA1 pyramidal neurons after 1 day both with and without preconditioning. After 3 and 7 days, an intense HSP27 staining was observed in reactive glial cells in the CA1 without preconditioning, whereas the staining decreased in the preconditioned hippocampus. HSP70 staining was seen only in neurons at these time points. We observed no significant changes in HSP27 content in the cerebral cortex although neurons in the third and fifth layers were immunostained after 1 and 3 days. We observed no alterations in alpha B crystallin content after ischemia both in the hippocampus and the cortex. The present study demonstrated that cerebral ischemia induces HSP27 expression but not alpha B crystallin. Both HSP27 and HSP70 induction had a good temporal correlation with the induction of ischemic tolerance. However, different sites of action were suggested because the localization and cell types of HSP27 induction were quite different from those of HSP70 induction. The result suggests that it is unlikely that HSP27 is directly involved in the protection afforded by ischemic preconditioning.
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PMID:Induction of 27-kDa heat shock protein following cerebral ischemia in a rat model of ischemic tolerance. 813 Oct 73

Advances in computer technology provide a wide range of applications which are revolutionizing the practice of medicine. The development of new software for the office creates a web of communication among physicians, staff members, health care facilities and associated agencies. This provides the physician with the prospect of a paperless office. At the other end of the spectrum, the development of 3D work stations and software based on computational chemistry permits visualization of protein molecules involved in disease. Computer assisted molecular modeling has been used to construct working 3D models of lens alpha-crystallin. The 3D structure of alpha-crystallin is basic to our understanding of the molecular mechanisms involved in lens fiber cell maturation, stabilization of the inner nuclear region, the maintenance of lens transparency and cataractogenesis. The major component of the high molecular weight aggregates that occur during cataractogenesis is alpha-crystallin subunits. Subunits of alpha-crystallin occur in other tissues of the body. In the central nervous system accumulation of these subunits in the form of dense inclusion bodies occurs in pathological conditions such as Alzheimer's disease, Huntington's disease, multiple sclerosis and toxoplasmosis (Iwaki, Wisniewski et al., 1992), as well as neoplasms of astrocyte origin (Iwaki, Iwaki, et al., 1991). Also cardiac ischemia is associated with an increased alpha B synthesis (Chiesi, Longoni et al., 1990). On a more global level, the molecular structure of alpha-crystallin may provide information pertaining to the function of small heat shock proteins, hsp, in maintaining cell stability under the stress of disease.
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PMID:Advances in computer technology: impact on the practice of medicine. 872 7

The protective effects of heat shock proteins (HSPs) during myocardial ischemia are now well documented, but little is known about the mechanisms of protection and the specificity of different HSPs. Because cytoskeletal injury plays a crucial role in the pathogenesis of irreversible ischemic damage, we tested whether overexpression of specific HSPs protects the integrity of microtubules during simulated ischemia in rat neonatal cardiac myocytes. Overexpression of specific HSPs was achieved by adenovirus-mediated transgene expression. Damage was assessed by comparing control cells to cells that were subjected to a simulated ischemia protocol. Microtubular integrity was measured by indirect immunofluorescence, confocal microscopy, and image analysis. Within 14 h of simulated ischemia, microtubular integrity decreased significantly in uninfected myocytes (from 24.6 +/- 1.2 to 13.2 +/- 0.4) and in myocytes infected with a control virus that expressed no transgene (from 25.9 +/- 1.8 to 13.1 +/- 1.4). Microtubular integrity after ischemia was significantly better preserved in cells overexpressing constitutive Hsp70 (21.7 +/- 1.6) or alphaB-crystallin (18.0 +/- 2.7) but not in cells overexpressing inducible Hsp70 (11.5 +/- 0.8) or Hsp27 (14.0 +/- 2.2). We conclude that specific HSPs protect the microtubules during simulated cardiac ischemia.
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PMID:Specific heat shock proteins protect microtubules during simulated ischemia in cardiac myocytes. 984 25

Heat shock proteins present a complex family of proteins exerting chaperone-like activities that are classified according to their molecular weight. We especially explored protective functions of inducible heat shock protein 70, the mitochondrial heat shock protein 60 and 10, and the small heat shock proteins HSP27 and alphaB-crystallin against ischemic, reoxygenation-mediated injury using transgenic animals and hearts under in vivo conditions and in isolated cardiac myocyte-derived cells using adenoviral vectors. We noted with great interest that differential protective effects are exerted by specific hsps. For example, alpha-B-crystallin and constitutive hsp70 markedly protect microtubular structure in cardiac myocytes from ischemia-induced injury. Inducible hsp70, hsp60 and hsp10 when coexpressed, and hsp27 and alphaB-crystallin have an overall protective effect against ischemic injury as determined by the release of enzymes like creatine kinase and LDH. We did not note inflammatory or immune responses elicited by the expression of hsps in transgenic animals and cardiac myocytes. The specific cell types in which hsps are expressed may contribute to the protective effect of hsps versus their inflammatory and immunogenic effects when expressed in other cell types.
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PMID:Heat shock proteins and protection against ischemic injury. 1023 Oct 10

The small heat shock proteins alpha B crystallin and HSP27 exert a protective effect in response to simulated ischemia. A model is proposed whereby proteins not in their final folding state bind to the outside of the large oligomeric small heat shock protein complexes thus finding a safe haven during ischemia. After the ischemia is resolved, these proteins may be released and, with the help of HSP70, are shuttled to a productive refolding pathway resulting in proteins in their final folding state, which can assume their normal activity in cells recovered from ischemic injury.
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PMID:Small heat shock proteins and protection against injury. 1041 21

AlphaB-crystallin and heat shock protein (hsp) 25 are structurally and functionally related small stress proteins induced by a variety of insults, including heat and ischemia. Cytoprotection by these two hsp is thought to result from molecular chaperoning and/or cytoskeletal stabilization. Because renal ischemia is characterized by disruption of the renal tubular cell actin cytoskeleton, this study was conducted to determine the localization and quantify the expression and phosphorylation of both hsp in renal cortex, isolated glomeruli, outer medulla, and inner medulla of rats after bilateral renal ischemia. Sham-operated kidneys had similarly small amounts of hsp25 and alphaB-crystallin in cortex and glomeruli, with substantially greater amounts of alphaB-crystallin versus hsp25 in outer and inner medulla. Ischemia resulted in significantly increased hsp25 (and hsp70i) but variable alphaB-crystallin levels in cortex and outer medulla, and progressively decreased glomerular hsp25 phosphorylation. In sham-operated kidneys, hsp25 localized to glomeruli, vessels, and collecting ducts, with alphaB-crystallin primarily in medullary thin limbs and collecting ducts. After ischemia, hsp25 accumulated in proximal tubules in cortex and outer medulla, while alphaB-crystallin labeling became nonhomogeneous in outer medulla, and increased in Bowman's capsule. It is concluded that: (1) There is striking differential expression of hsp25 and alphaB-crystallin in various renal compartments; and (2) Renal ischemia results in differential accumulation of hsp25 and alphaB-crystallin, with hsp25 part of a generalized stress response in renal proximal tubular cells, which may play a role in recovery from ischemia-induced actin filament disruption.
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PMID:Ischemic acute renal failure induces differential expression of small heat shock proteins. 1066 28

We have investigated whether translocation of constitutive low molecular weight stress proteins (alphaB-crystallin and HSP27) to the myofilament/cytoskeletal compartment occurs during ischemic preconditioning and assessed if this is causally associated with cardioprotection. Triton-insoluble preparations from fresh or aerobically perfused rat hearts (n=4/group) contained relatively little alphaB-crystallin (96 +/- 43 and 43 +/- 36 units respectively) or HSP27 (177 +/- 32 and 101 +/- 26 units respectively). Three preconditioning cycles of (5 min ischemia + 5 min reperfusion) increased the Triton-insoluble crystallin to 864 +/- 61 units (P<0.05) and HSP27 to 1353 +/- 53 units (P<0.05). Two hours of aerobic perfusion following the preconditioning protocol resulted the return of alphaB-crystallin and HSP27 to near control levels (189 +/- 14 units and 252 +/- 24 units, respectively). Stress protein translocation, comparable to that achieved by the IPC protocol was induced by aerobic perfusion with hypercarbic (pH 6.8) perfusion. Thus, three cycles of 5 min hypercarbia + 5 min normocarbia increased alphaB-crystallin to 628 +/- 30 units (P<0.05) and HSP27 to 1353 +/- 53 units. In parallel functional studies, the recovery of LVDP after 35 min ischemia and 60 min of reperfusion was 43 +/- 7% in the ischemic control group, 61 +/- 3% (P<0.05) in the preconditioned group and 42 +/- 6% in the hypercarbic group. Thus, translocation of alphaB-crystallin and/or is not of-itself sufficient to induce cardioprotection. Using a phospho-specific antibody, we have demonstrated that preconditioning not only translocates alphaB-crystallin but also increases its phosphorylation at Ser-59 by 9.7-fold compared to aerobic controls (1616 +/- 402 v 166 +/- 28 units respectively). In contrast, hypercarbia while eliciting a comparable translocation, failed to alter the phosphorylation state of alphaB-crystallin. Preconditioning-induced phosphorylation was significantly attenuated by 50 microM genistein (by 61%), 10 microM SB203580 (by 91%) and 10 microM bisindolylmaleimide (by 68%), but not by 10 microM PD98059 (by 4%). Our findings are consistent with the possibility that ischemic preconditioning may be mediated by phosphorylation and translocation of constitutive low molecular weight stress proteins, particularly alphaB-crystallin.
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PMID:Ischemic preconditioning: a potential role for constitutive low molecular weight stress protein translocation and phosphorylation? 1088 50

We investigated whether enhanced expression of alphaB crystallin, a stress-inducible molecular chaperone of the small heat shock family, can protect myocardial contractile apparatus against ischemia reperfusion (I/R) injury. Transgenic mice overexpressing alphaB crystallin were generated using the 0.76 kb rat alphaB crystallin cDNA cloned into a pCAGGS plasmid driven by a human cytomegalovirus expression system. Southern analysis confirmed transgene integration and Northern and Western blotting characterized expression (3.1-fold and 6.9-fold elevations in myocardial mRNA and protein levels, respectively). Extent of functional recovery over a 3 h reperfusion period following a 20 min ischemic period in transgenic and wild-type mouse hearts was assessed using an ex vivo work-performing heart preparation. The transgenic group displayed significantly higher values of DP at R45 min (29.14+/-1.9 mm Hg vs. 17.6+/-0.7 mm Hg), R60 min (31.56+/-1.7 mm Hg vs. 17.8+/-0.8 mm Hg), and R75 min (32.5+/-2.2 mm Hg vs. 16.9+/-0.9 mm Hg), and of dLVP/dt at R45 min (1740.2+/-111.5 mm Hg.s-1 vs. 548.7+/-82.2 mm Hg.s-1) and R60 min (1199.8+/-104.6 mm Hg.s-1 vs. 466.9+/-61.1 mm Hg.s-1). The transgenic group also displayed development of less oxidative stress, decreased extent of infarction, and attenuated cardiomyocyte apoptotic cell death. Transgene overexpression of alphaB crystallin was therefore successful in diminishing the independent contributory effects of both necrosis and apoptosis on I/R-induced cell death.
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PMID:Transgene overexpression of alphaB crystallin confers simultaneous protection against cardiomyocyte apoptosis and necrosis during myocardial ischemia and reperfusion. 1115 55

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