Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatic malignancy accounts for a large number of cancer-related deaths worldwide. Radiologic evaluation of the liver is critically important in the selection of patients for surgical treatment and newer modalities including computed tomographic arterial portography and intraoperative sonography show promise in the detection of small lesions. Advances in our understanding of the segmental anatomy of the liver, studies of intraoperative hepatic ischemia, and improved care of patients following major hepatic resections have extended the limits of surgical treatment of liver lesions, especially in cirrhotic patients with limited functional reserve. Along with hepatitis B, new data suggest that hepatitis C is also important as an agent causing hepatocellular carcinoma. In addition, the tumor suppressor gene p53 is frequently mutated in aflatoxin-induced hepatoma. In endemic regions, mass screening for early hepatocellular carcinoma appears to increase the surgical cure rate. Resectional surgery remains the best treatment for primary liver cancer and, in selected cases, liver transplantation is worthwhile. Liver resection for some patients with metastases of colorectal origin is now considered standard therapy and studies of regional chemotherapy for liver cancer are beginning to show promise. It remains to be seen whether adjuvant chemotherapy after liver resection will increase cure rates.
 ...
PMID:Primary and secondary hepatic malignancies. 758 84

p21(WAF1/CIP1/SDI1), an inhibitor of cyclin-dependent kinases, is expressed at varying levels in human adrenal glands removed during surgery or organ recovery. In glands with p21 mRNA, nuclear p21 immunoreactivity, which was occasionally extensive, colocalized with p53 immunoreactivity and DNA damage, as evidenced by in situ end-labeling. Many cells showed morphological features of apoptosis when observed by fluorescent DNA dye staining and electron microscopy. This pattern was also associated with high levels of cytoplasmic heat shock protein 70. To address the question of the origin of p21 expression in some human adrenal glands, rat adrenal glands were subjected to 30 min of ischemia followed by 8 h of reperfusion. Cells with nuclear p21 and p53 appeared in the adrenal cortex together with DNA damage detected by in situ end-labeling. Nuclear p21 immunoreactivity was also produced in adrenal tissue fragments incubated at 37 degrees C in vitro. However, in this case, p21 expression was confined to the cut edge of the tissue. In contrast, p21 in human adrenal glands, as in ischemic rat glands, was within the inner regions of the cortex, supporting an origin of the protein in vivo rather than postmortem. The p53/p21 pathway of reaction to cellular injury, potentially leading to apoptosis, may play a role in tissue damage such as that resulting from ischemia/reperfusion. In the human adrenal cortex this process may be a precursor of adrenal failure.
 ...
PMID:Expression of p21(WAF1/CIP1/SDI1) and p53 in apoptotic cells in the adrenal cortex and induction by ischemia/reperfusion injury. 860 38

Types of growth include embryonic, fetal, neonatal, juvenile and mature. Until full differentiation is achieved, cells grow through proliferation from progenitor cells. At maturity, the cellular genome is fixed with committed patterns of cell cycle duration and adaptation, ranging from static to renewing type 3. The static cell type cannot proliferate and adapts through hypertrophy. The renewing type continuously proliferates even without stimulus. In all cell types the processes of differentiation and proliferation are mutually exclusive. Cellular kinetics involve (a) the duration of the cell cycle, (b) the birth rate of cells, and (c) the growth rate fractions. The duration of the cell cycle is 2-4 days. All growth factors (GF) exert their influence during G1 phase. Release a GF by one cell type can influence the proliferation of another (= paracrine stimulation). At the end of G1 is the point of highest sensitivity to toxicity. Tumor suppressor genes act here through tyrosine phosphorylation. During S, the cell replicates its chromosomes. During G2 the immune surveillance and DNA damage repair mechanisms operate. Injured cells stay here longer enabling repair of their damaged DNA. Cell division involves both nuclear (mitosis) and cytoplasmic (cytokinesis) phases giving rise to 2 new cells. The cell cycle has 2 checkpoints. The first involves the G1-S transition and the second the G2-M transition. The types of cell cycle inhibition include (a) cycle- and phase-specific inhibition; (b) cycle-and nonphase-specific inhibition; (c) noncycle-and nonphase-specific inhibition, and finally (d) noncycle, nonphase-, and nonorgan-specific inhibition. Proliferation is a circadian process and it is stimulated by a variety of stimuli which include (1) interference with hormonal feedback pathways; (2) inhibition of the tissue trophic activity; (3) sustained presence of antigenic substances; (4) tissue ischemia; (5) changes of conditions luminally or on surfaces of tissues; (6) sustained cytotoxicity; (7) cell death; and (8) surgical resection. Proliferation can be arrested through senescence, apoptosis, injury or even during the development of immune cells. In the past, tissue/cell kinetics have been studied by tritiated thymidine histoautoradiography. Recently, monoclonal antibodies to proliferation-associated antigens, have been successfully employed. These antigens are cycle-associated proteins and include (1) PCNA; (2) p53; (3) Ki67; (4) AGNOR; (5) Statin; and (6) BrdU. Practical examples are given comparing PCNA and BrdU markers from 3 tissues, i.e. liver, glandular stomach, and uterus, across 2 or 3 strains of rats. Mean values of labeling indices are cited. Within the PCNA marker, 2 different clones are compared from the glandular stomach of SD rats of 2 different ages. Gender and across species comparisons are also made. All these comparisons denote that in every study where markers are used (a) there is a need for a concurrent study control group of the same age; (b) there is a need for in-house control data for this particular organ by species, strain, gender and age; (c) there is ancillary assessment of the trophic status of the target tissue; (d) there is a need for at least 2 different time points during assessment; (e) there is a need for such proliferation data prior to commencing the 2 year rodent bioassay; and (f) that PCNA is the most reliable and versatile of all markers used, capable of rendering good results even from archival specimens.
 ...
PMID:Proliferation markers. 867 72

The tumor suppressor gene p53 recently has been associated with the induction of cell death in response to some forms of cellular damage. A possible role for p53-related modulation of neuronal viability has been suggested by the finding that p53 expression is increased in damaged neurons in models of ischemia and epilepsy. We evaluated the possibility that p53 expression (in knockout mice) is required for induction of cell damage in a model of seizure activity normally associated with well defined patterns of cell loss. Subcutaneous injection of kainic acid, a potent excitotoxin, induced comparable seizures in both wild-type mice (+/+) and mice deficient in p53 (-/-). Using a silver impregnation technique to examine neurodegeneration in animals killed 7 d after kainate injection, we found that a majority of +/+ mice exhibited extensive cell loss in the hippocampus, involving subregions CA1, CA3, the hilus, and the subiculum. Apoptotic cell death, as identified with an in situ nick end labeling technique to detect DNA fragmentation, was confirmed in CA1- but not CA3-degenerating neurons. In marked contrast, a majority of p53 -/- mice displayed no signs of cell damage; in the remaining p53 -/- mice, damage was mild to moderate and was confined almost entirely to cells in CA3b of the dorsal hippocampus. In +/+ mice, but not in -/- mice, damaged neurons also were observed in the amygdala, piriform cortex, cerebral cortex, caudate-putamen, and thalamus after kainate treatment. The pattern and extent of damage in mice heterozygous for p53 (+/-) were identical to those seen in +/+ mice, suggesting that a single copy of p53 is sufficient to confer neuronal vulnerability. These results demonstrate that p53 influences viability in multiple neuronal subtypes and brain regions after excitotoxic insult.
 ...
PMID:Loss of the p53 tumor suppressor gene protects neurons from kainate-induced cell death. 877 85

A role for p53-related modulation of neuronal viability has been suggested by the finding that p53 expression is increased in damaged neurons in models of ischemia and epilepsy. These findings were recently extended with the demonstration that mice deficient in p53 ("knock-out" mice) exhibit almost complete protection from seizure-induced brain injury, whereas wild-type mice display significant neuronal cell loss in the hippocampus and other brain regions. Because the p53 knock-out mice used in the latter study expressed a global p53 deficiency in all cell types, it was not possible to conclude that protection was conferred by the exclusive absence of p53 in neurons. Therefore, in the present study, we determined whether p53 expression in isolated neurons is directly coupled to a loss of viability associated with excitotoxic challenge. Primary cultures of hippocampal or cortical neurons were derived from animals containing p53 (+/+, +/-) or those deficient in p53 (-/-). p53-Deficient neurons appeared identical to wild-type neurons with respect to morphology, neurofilament expression, and resting levels of intracellular calcium. Neurons containing at least one copy of p53 were severely damaged by exposure to kainic acid or glutamate. Cell damage was assessed by direct cell counting and by nuclear morphology after propidium iodide staining of DNA. In contrast, neurons deficient in p53 (-/-) exhibited little or no damage in response to excitotoxin treatment. Despite their divergent outcomes, p53 (+/+) and p53 (-/-) neurons demonstrated similar sustained elevations in intracellular calcium levels triggered by glutamate exposure. Restoring p53 expression to p53-deficient neurons, using adenovirus-mediated transduction, was sufficient to promote neuronal cell death even in the absence of excitotoxin. These results demonstrate a direct relationship between p53 expression and loss of viability in CNS neurons.
 ...
PMID:Evidence for p53-mediated modulation of neuronal viability. 882 16

Changes in gene expression including that of c-fos occur following cerebral ischemia. Proto-oncogenes c-myc and s-myc and oncosuppressor gene p53 are known to induce apoptosis in some types of cells, whereas proto-oncogene bcl-2 inhibits apoptosis. Possible induction of mRNAs for c-myc, N-myc, s-myc, c-fos, p53 and bcl-2 was examined following focal ischemia in the rat anterior cortex, hippocampus, thalamus and cerebellum by Northern blot analysis. Animals were decapitated 1, 2, 6, 12, and 24 hours following the left middle cerebral artery (MCA) occlusion. In sham-operated control rats, the mRNAs for c-myc, N-myc, c-fos and p53 were present in the anterior cortex, hippocampus, thalamus on both sides, and in the cerebellum, whereas those for s-myc and bcl-2 were not. The c-myc gene expression was rapidly and markedly induced by the MCA occlusion in the ipsilateral anterior cortex, hippocampus and thalamus in a time-dependent manner. In these regions, the c-fos gene expression was also induced as early as 1 hour after the MCA occlusion. The p-53 mRNA was induced in the ipsilateral hippocampus at 24 hours after MCA occlusion. In contrast, mRNAs for N-myc, s-myc and bcl-2 were not induced following MCA occlusion. These results indicate a possibility that high-level expression of the c-myc gene may be involved in the ischemic cellular events including apoptosis.
 ...
PMID:Up-regulation of c-myc gene expression following focal ischemia in the rat brain. 898 58

In three different models of acute renal failure (ischemia, ureteral obstruction, and cisplatin administration), the p21WAF1/CIP1/SDI1 gene, the protein product of which is associated with cell-cycle interruption, terminal differentiation, and cellular senescence, was activated in murine kidney cells. This transcription was localized in kidney only to cells of thick ascending limbs and distal convoluted tubules. Although the tumor suppressor protein, p53, can trans-activate the p21 gene in some cells, increased levels of nuclear p53 protein could be demonstrated only in the cisplatin model of acute renal failure. High levels of p21 mRNA were induced in kidney of p53 "null" mice, demonstrating that p21 gene activation was through a p53-independent pathway. We also present evidence that, in the cisplatin model, both p53-independent and p53-dependent induction of p21 mRNA occur simultaneously. We conclude that p21 gene activation is a general response to renal injury and could be a key determinant of cell fate in the cell in which it is expressed.
 ...
PMID:The p53-independent activation of transcription of p21 WAF1/CIP1/SDI1 after acute renal failure. 899 95

p53, Bax and Bcl-xL proteins have been implicated in apoptotic neuronal cell death. We have investigated whether those proteins are involved in 6-OHDA-induced PC12 cell death. After a 24-h exposure to the neurotoxin (100 microM), morphological evidence for apoptosis was observed in PC12 cells. Up-regulation of p53 and Bax proteins was demonstrated 4 and 6 h, respectively, after 6-OHDA treatment; in contrast, no change in Bcl-xL levels was found. These findings suggest that p53 and Bax could be relevant markers of neuronal apoptosis as previously described in kainic acid- or ischemia-induced neuronal cell death and may participate to neuronal degeneration in Parkinson's disease.
 ...
PMID:p53 and Bax activation in 6-hydroxydopamine-induced apoptosis in PC12 cells. 909 77

Myocyte cell loss is a prominent and important pathogenic feature of cardiac ischemia. We have used cultured neonatal rat cardiac myocytes exposed to prolonged hypoxia as an experimental system to identify critical factors involved in cardiomyocyte death. Exposure of myocytes to hypoxia for 48 h resulted in intranucleosomal cleavage of genomic DNA characteristic of apoptosis and was accompanied by increased p53 transactivating activity and protein accumulation. Expression of p21/WAF-1/CIP-1, a well-characterized target of p53 transactivation, also increased in response to hypoxia. Hypoxia did not cause DNA laddering or cell loss in cardiac fibroblasts. To determine whether the increase in p53 expression in myocytes was sufficient to induce apoptosis, normoxic cultures were infected with a replication-defective adenovirus expressing wild-type human p53 (AdCMV.p53). Infected cells expressed high intracellular levels of p53 protein and exhibited the morphological changes and genomic DNA fragmentation characteristic of apoptosis. In contrast, no genomic DNA fragmentation was observed in myocytes infected with the control virus lacking an insert (AdCMV.null) or in cardiac fibroblasts infected with AdCMV.p53. These results suggest that the intracellular signaling pathways activated by p53 might play a critical role in the regulation of hypoxia-induced apoptosis of cardiomyocytes.
 ...
PMID:p53 and the hypoxia-induced apoptosis of cultured neonatal rat cardiac myocytes. 916 93

We investigated the relationship between apoptosis and selective protein expression in brain from rats subjected to 8 (n=10) or 12 min (n=10) of forebrain ischemia and 48 h of reperfusion, and control sham operated (n=2) and normal (n=2). Coronal sections were processed for double staining with DNA fragmentation detection and immunohistochemical staining. In five of ten 8-min ischemic and three of ten 12-min ischemic animals, nearly all dead granule cells within the dentate gyrus exhibited apoptotic morphology. In the remaining animals, no granule cell death was evident. In the pyramidal regions (CA1/2), nearly all dead cells were necrotic with only scattered apoptotic cells present. The immunoreactive expression of wt-p53, p53-response proteins (WAF1, Bax and Gadd45), and a cell cycle protein (cyclin D) were detected and preferentially localized to nuclei of apoptotic granule cells, and were weakly expressed in nuclei of necrotic pyramidal CA1/2 cells. Thus, 48 h after 8 or 12 min of forebrain ischemia in the rat, most pyramidal cells and dentate granule cells undergo distinct cell death pathways of necrosis or apoptosis, respectively. In addition, the selective expression of proteins associated with DNA damage and cell cycle in apoptotic dentate granule cells suggests a role for these proteins in the induction of apoptosis.
 ...
PMID:Granule cell apoptosis and protein expression in hippocampal dentate gyrus after forebrain ischemia in the rat. 926 35


1 2 3 4 5 6 7 8 9 10 Next >>