Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 is a 20-kd peptide highly homologous to the small heat-shock proteins. This protein forms soluble homomultimeric complexes (M(r), 300-700 kd) and is very abundant in cardiac muscle cells. In vitro experiments (affinity column chromatography and binding studies with isolated proteins) have shown that alpha B-crystallin interacts directly with actin and, in particular, with desmin filaments. The immunocytochemical localization of alpha B-crystallin within the cardiomyocytes showed that the protein is distributed exclusively in the central region of the I bands (Z lines), where desmin is localized. In vitro studies have further shown that the binding affinity of alpha B-crystallin to actin and desmin filaments increases considerably at slightly acidic pH (6.5) or after a heat treatment (45 degrees C). Moreover, alpha B-crystallin was found to prevent effectively the tendency of actin filaments to form aggregates (i.e., paracrystals) at acidic pH. These in vitro data suggest a protective role of alpha B-crystallin during stress conditions such as ischemia of the heart. Crystallin could prevent the aggregation of filaments, which might occur during the acidification of the cytosol and lead eventually to irreversible structural damage.
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PMID:Alpha B-crystallin in cardiac tissue. Association with actin and desmin filaments. 162 87

Cytoskeletal proteins (i.e., cytokeratins, vimentin, actin, and desmin) are normally present in the placental chorionic villi and are related to the maintenance of the villous shape, and to the ability of the villi to contract and permit a normal blood flow. In areas of villitis of unestablished etiology, the normal reactivity of these proteins in the villous core around fetal stem vessels disappears, and an increased number of cytokeratin positive cells is identified. The vascular damage in stem villi with villitis could develop ischemia in the villous tree promoting cytotrophoblast proliferation. Increased numbers of these areas could be related with the appearance of abnormal pregnancies.
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PMID:Cytoskeletal proteins in chronic villitis of unestablished etiology. 171 12

Ischemia is known to produce damage to subcellular organelles, such as nuclei and mitochondria, in myocardial tissue. We tested the hypothesis that during myocardial ischemia various cytoskeletal and contractile proteins also undergo changes. We induced total global ischemia by incubation in buffer of tissue samples from six human left ventricles that were obtained from heart transplant recipients. Samples were removed from the incubation medium at different time intervals and investigated by immunohistochemistry using monoclonal antibodies against myosin, actin, tropomyosin, troponin T, myomesin, desmin, tubulin, and vinculin. The degree of ischemic injury was determined by electron microscopy. Ischemic cardiomyopathic human tissue showed disturbances of the localization pattern of myosin, actin, tropomyosin, and troponin T as early as 10 minutes after the onset of ischemia; this disruption was complete at 20 minutes. Tubulin also started changing at 10 minutes, but complete disruption was only evident after 120 minutes. Desmin and myomesin showed an intermediate response; changes began at 30 to 40 minutes, and disruption was complete at 90 to 120 minutes. Vinculin was most resistant to ischemia. Ultrastructurally, the tissue showed moderate reversible ischemic injury during the entire period of 180 minutes. Measuring the exposure time in seconds allowed quantitation of the intensity of the fluorescence. We reached the following conclusions: (1) Ischemia causes damage to the contractile proteins sooner than to the cytoskeleton and subcellular organelles. (2) Diseased human hearts are extremely susceptible to the effects of ischemia. These findings are important for the situation of induced cardiac arrest in heart operations and for preservation of donor hearts for transplantation.
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PMID:Ischemia induces early changes to cytoskeletal and contractile proteins in diseased human myocardium. 760 73

In order to further our understanding of the biological role of desmin, the muscle-specific intermediate filament protein, a null mutation in the desmin gene was introduced into the germ line of mice. Despite the complete lack of desmin, these mice developed and reproduced. Since we show that skeletal, cardiac, and smooth muscles form in the Des-/- mice, it is reasonable to propose that desmin is not essential for myogenic commitment or for myoblast fusion or differentiation in vivo. However, morphological abnormalities were observed in the diaphragm of adult mice; these were demonstrated by disorganized, distended, and nonaligned fibers. The heart presented areas of hemorrhaging in which fibrosis and ischemia were observed. We have also shown that the absence of desmin produces specific defects in smooth muscles. In conclusion, our results have demonstrated that desmin is not required for the differentiation of skeletal, cardiac, and smooth muscles but is essential to strengthen and maintain the integrity of these tissues.
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PMID:Cardiovascular lesions and skeletal myopathy in mice lacking desmin. 862 40

The decrease in Ca2+ responsiveness of myofilaments in stunned myocardium implies that there may be structural changes in proteins composing the contractile machinery. To elucidate the lesion in stunned myocardium, isolated guinea pig hearts were subjected to global ischemia at 37 degrees C and reperfused. SDS-PAGE revealed that the contents of desmin, alpha-actinin, and spectrin decreased in the myofibrillar fraction isolated from hearts reperfused after 60-minute ischemia compared with nonischemic control hearts. To examine the change of cytoskeletal proteins in stunned myocardium, immunohistochemical studies with antibodies against these proteins were performed after 15 minutes of ischemia. In stunned myocardium, the staining was largely intact, but there were some lesions where desmin was not stained and alpha-actinin and spectrin were only weakly identified. The percentage of normally stained areas in the myocardium (percent stained area), quantified by image processing, was significantly lower in stunned myocardium (79.6 +/- 3.6%, mean +/- SEM) than in nonischemic control myocardium (96.5 +/- 0.7%). Percent recovery of developed pressure significantly correlated with percent stained area (r = .82, P < .001). In hearts subjected to 15-minute ischemia but not reperfused, or in hearts reperfused with Ca(2+)-free solution after 15-minute ischemia, staining by the antibodies remained intact, suggesting that the change of the cytoskeletal proteins is mediated by Ca2+ overload during reperfusion. In hearts treated with the protease inhibitor leupeptin (50 mumol/L) or calpain inhibitor I (100 mumol/L), both developed pressure and staining were well preserved. These results indicate that contractile dysfunction in stunned myocardium has a strong correlation with the disappearance of cytoskeletal proteins that may be mediated by a Ca(2+)-dependent intracellular protease activated during reperfusion. The disruption of cytoskeletal proteins is a possible mechanism for stunning, although it may be a secondary effect of protease activation.
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PMID:Inhomogeneous disappearance of myofilament-related cytoskeletal proteins in stunned myocardium of guinea pig. 878 78

To define the potential for erythropoietin gene expression in injured kidneys, marker gene expression was examined in transgenic mice bearing a homologously recombined erythropoietin--simian virus 40 T antigen (Epo-TAg) transgene. Three types of renal injury were studied: ureteric obstruction, global ischemia following clamping of the renal pedicle, and focal needlestick injury. All modes of injury were associated with an expansion of the interstitial space, which contained an increased number of cells. Alterations observed in the interstitial fibroblast-like cells included an increased number and complexity of cellular processes, enhanced expression of contractile elements, particularly of the intermediate filament desmin, and reduced expression of ecto-5'-nucleotidase. Following each type of injury there was a focal or general reduction in the proportion of such cells that could be stimulated to express Epo-TAg. However, some positively staining cells were present even in severely injured regions and more could be recruited to express Epo-TAg by severe anemic or hypoxic stimulation, indicating that cells with the potential for erythropoietin gene expression were neither absent nor completely refractory to stimulation in these regions. In all injured kidneys, Epo-TAg expression was limited to the fibroblast-like population. Double labeling experiments showed that cells expressing Epo-TAg also expressed increased amounts of desmin, demonstrating that the myofibroblast features which develop in response to injury and the capacity for erythropoietin gene expression are not mutually exclusive.
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PMID:The interstitial response to renal injury: fibroblast-like cells show phenotypic changes and have reduced potential for erythropoietin gene expression. 929 Nov 92

A case of atypical decubital fibroplasia of the right forearm arising in a 25-year-old male with melorheostosis is presented. The diagnosis of melorheostosis involving the right-sided bones was made by radiographical studies, and the patient has been obliged to use crutches due to the contracture and limited range of motion of the right leg. Two painless masses occurred in the subcutis of the posterior aspect of the right forearm over the excrescences of the underlying ulna due to melorheostotic deformity. Grossly, ill-defined firm masses, which measured 3 x 6 x 1.5 cm and 4 x 5 x 1 cm, respectively, were white and intermingled with yellow fatty tissue. Histologically, the lesions consisted of a proliferation of plump fibroblastic cells with abundant collagenous stroma. Vascular proliferation and occasional eosinophilic degeneration of the collagen fibers were also seen. The gross and histological features were those of atypical decubital fibroplasia (ischemic fasciitis). Immunohistochemically, the plump fibroblastic cells were positive for vimentin, but negative for desmin, muscle specific actin, and alpha-smooth muscle actin. Chondroid metaplasia was focally noted and round-shaped cells within this area were positive for S-100 protein. This lesion seemed to be a fibroblastic response against the long-standing, intermittent ischemia of the subcutaneous tissue between the bony excrescences due to melorheostosis and the weight-bearing forces of the crutch.
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PMID:Atypical decubital fibroplasia in a young patient with melorheostosis. 958 81

Hepatic ischemia-reperfusion (IR) injury caused by portal vein clamping is a common problem in hepatobiliary surgery. Endothelin (ET) is a potent vasoconstrictor and is associated with IR injury. This study evaluated the effect of ET on liver cell injury and hepatic regeneration after hepatectomy with IR. The portal veins of rats were clamped for 20 min, then unclamped and a 70% partial hepatectomy was performed. TAK-044 (TAK), the nonselective ETA/ETB receptor antagonist, was administered s.c. 30 min before laparotomy [TAK(+)]. Portal blood ET-1, GOT levels, hepatic blood flow, histologic change, DNA synthesis of hepatocytes, and the relationship of Ito cells and perisinusoidal cells were evaluated. ET-1 concentration increased after IR and was significantly higher in the TAK(+) group owing to the blockade of ET receptors. Increased GOT levels and sinusoidal congestion were reduced, but DNA synthesis of hepatocytes and hepatic blood flow did not change in the TAK(+) group. Changes in desmin staining showed that Ito cells might be related to IR injury. In conclusion, ET-1 was associated with IR injury and TAK-044 reduced but did not affect hepatocyte DNA synthesis after partial hepatectomy.
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PMID:Endothelin in liver cell injury and regeneration after 70% hepatectomy with portal ischemia. 959 18

A case of atypical decubital fibroplasia with unusual histology arising in the buttock of a 68-year-old bed-ridden male in presented. The lesion measuring 5.4 cm in greatest dimension was histologically characterized by a proliferation of fibroblasts with oval to spindle nuclei and dense fibrous stroma with focal hyalinization and calcification. Ganglion-like fibroblastic cells and multinucleated giant cells of osteoclast type were also observed. There were numerous elastic fibers within and adjacent to the proliferating stromal cells. The proliferating stromal cells were positive for vimentin and collagen type IV but negative for CAM 5.2, epithelial membrane antigen, desmin, alpha-smooth muscle actin, muscle actin, HHF35, S-100 protein and CD34. Ultrastructurally, they were of a fibroblastic nature. The hypercellularity, lack of zones of fibrinoid necrosis, lack of lobulation and the presence of multinucleated giant cells were different from the originally described lesion. This condition represents a variant of atypical decubital fibroplasia. Pathogenic factors of this lesion are considered to be chronically repeated pressure and associated intermittent ischemia. The recognition of the lesion and its distinction from a sarcoma is essential.
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PMID:Atypical decubital fibroplasia with unusual histology. 1187 17

To delineate the in vivo cardiac functions requiring normal delta protein kinase C (PKC) activity, we pursued loss-of-function through transgenic expression of a deltaPKC-specific translocation inhibitor protein fragment, deltaV1, in mouse hearts. Initial results using the mouse alpha-myosin heavy chain (alphaMHC) promoter resulted in a lethal heart failure phenotype. Viable deltaV1 mice were therefore obtained using novel attenuated mutant alphaMHC promoters lacking one or the other thyroid response element (TRE-1 and -2). In transgenic mouse hearts, deltaV1 decorated cytoskeletal elements and inhibited ischemia-induced deltaPKC translocation. At high levels, deltaV1 expression was uniformly lethal, with depressed cardiac contractile function, increased expression of fetal cardiac genes, and formation of intracardiomyocyte protein aggregates. Ultrastructural and immunoconfocal analyses of these aggregates revealed focal cytoskeletal disruptions and localized concentrations of desmin and alphaB-crystallin. In individual cardiomyocytes, cytoskeletal abnormalities correlated with impaired contractile function. Whereas desmin and alphaB-crystallin protein were increased approximately 4-fold in deltaV1 hearts, combined overexpression of these proteins at these levels was not sufficient to cause any detectable cardiac pathology. At low levels, deltaV1 expression conferred striking resistance to postischemic dysfunction, with no measurable effects on basal cardiac structure, function, or gene expression. Intermediate expression of deltaV1 conferred modest basal contractile depression with less ischemic protection, associated with abnormal cardiac gene expression, and a histological picture of infrequent cardiomyocyte cytoskeletal deformities. These results validate an approach of deltaPKC inhibition to protect against myocardial ischemia, but indicate that there is a threshold level of deltaPKC activation that is necessary to maintain normal cardiomyocyte cytoskeletal integrity.
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PMID:Ischemic protection and myofibrillar cardiomyopathy: dose-dependent effects of in vivo deltaPKC inhibition. 1238 52


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