Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004135 (ATM)
 13,001 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ataxia telangiectasia has been associated with varying clinical and laboratory abnormalities of the cutaneous, immune, neurological, and endocrine systems. Recently, a primary defect in tissue differentiation has been proposed as a probable cause of the disease. The presence of biochemically abnormal collagen in the skin of two siblings with the disease may further support this hypothesis.
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PMID:Abnormal collagen in ataxia telangiectasia. 125 40

Angiotensin II (ANG II) is the primary mediator of the renin-angiotensin system, which has an important functional role in cardiovascular homeostasis. The angiotensin receptor and its functional correlates have been redefined by the cloning of angiotensin receptors and the discovery and widespread study of specific nonpeptide ANG II-receptor antagonists losartan (AT1 selective) and PD123177 (AT2 selective). With these antagonists, it has been possible to extend the concept of ANG II-receptor heterogeneity to virtually every tissue and species. The losartan-sensitive sites have been shown to mediate all of the major ANG II-induced biologic effects, including vasoconstriction, aldosterone and catecholamine release, and central, ANG II-induced drinking behavior. The function of the AT2 site is not fully understood, but it may be involved in neuronal ion channel modulation and in fibroblast collagen metabolism. The presence of AT2 sites in fetal tissues and in discrete locations in the brain has encouraged continued research. Losartan, which represents the first of a new class of therapeutic agents, is currently undergoing clinical trials. A growing number of other AT1-selective ANG II-receptor antagonists are under development, including L-158,809, SKF 108566, and GR117285. Rat AT1-receptor subtypes have been cloned and sequenced (AT1A and AT1B). Human ANG II receptors have also been cloned and shown to have high affinity for losartan. A number of atypical angiotensin-binding sites have been identified from mycoplasma, amphibians, and mouse neuroblastoma, which are not sensitive to either losartan or PD123177.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II receptors and functional correlates. 129 Jun 17

Ataxia-telangiectasia and xeroderma pigmentosum are human hereditary diseases in which patients are cancer prone and demonstrate increased sensitivity to DNA damage by ionizing and ultraviolet radiation, respectively. In culture, both ataxia-telangiectasia and xeroderma pigmentosum skin fibroblasts show increased synthesis and secretion of the extracellular matrix proteins fibronectin and collagen. To determine whether these differences in protein production result from fundamental abnormalities in regulation of genes associated with cellular interactions, we compared the effects of trifluoperazine and 12-O-tetradecanoylphorbol-13-acetate on expression of the extracellular matrix-degrading metalloproteinases, procollagenase and prostromelysin, by normal, ataxia-telangiectasia, and xeroderma pigmentosum fibroblasts. After trifluoperazine treatment the overall levels of these metalloproteinases were much greater in three ataxia-telangiectasia cell strains and in cells from xeroderma pigmentosum complementation groups A and D than in normal cells. In contrast, cells from xeroderma pigmentosum complementation group C produced only slightly more procollagenase than normal cells. 12-O-tetradecanoylphorbol-13-acetate also induced higher than normal levels of procollagenase in some ataxia-telangiectasia and xeroderma pigmentosum strains, but less than that induced by trifluoperazine. Because increased extracellular accumulation of matrix-degrading enzymes has long been implicated in metastatic progression, this altered expression of procollagenase and prostromelysin in ataxia-telangiectasia and xeroderma pigmentosum cells could play an important role in the pathogenesis of various tumors in individuals with these genetic diseases.
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PMID:Enhanced expression of procollagenase in ataxia-telangiectasia and xeroderma pigmentosum fibroblasts. 217 6

We describe the clinical features and findings of biopsied sural nerves of 4 cases of xeroderma pigmentosum. Nine genetic forms of xeroderma pigmentosum have been reported by complementation studies. These four cases were diagnosed as Group A xeroderma pigmentosum by complementation studies using cultured skin fibroblasts. All cases had delayed mental and motor development in areas such as head control over 4 months of age and walking without support over 18 months of age. Three cases had the gradual onset of a gait disturbance between 6 and 9 years of age. Motor conduction velocity and sensory conduction velocity of the ulnar nerve were slightly delayed. The sural nerve of the slightly impaired patient showed a normal density of myelinated fibers, but a selective reduction of the large myelinated fibers with zebra-body-like structures in Schwann cell cytoplasm. The population density of all nerve fibers was severely diminished in the severely impaired cases. Ultrastructural observation disclosed many denervated Schwann cells and pockets of collagen isolated by loops of denervated Schwann cell cytoplasm. These findings suggest that the degenerative process in peripheral nerves of xeroderma pigmentosum is axonal. Peripheral neuropathy in Group A xeroderma pigmentosum resembles that of patients with ataxia telangiectasia who are known to have a defect in the repair mechanisms of their DNA in cultured skin fibroblasts.
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PMID:Peripheral neuropathy in four cases of group A xeroderma pigmentosum. 283 98

Glomerular mesangial cells and cardiac fibroblasts have been called "myofibroblasts" because of their phenotypic characteristics (resembling both the fibroblast and muscle cells). Thus, it is not surprising that AII would have similar effects on both cell types, which play critical roles in target organ stress response and wound healing, ultimately leading to remodeling changes. These effects are primarily mediated by the AT1 receptor and include: 1) growth: hyperplasia in cardiac fibroblasts and hypertrophy in normal adult mesangial cells and 2) matrix production: there appears to be an early upregulation of fibronectin message which is later followed by an increase in collagens. It is likely that elevated production of fibronectin may activate signal transduction pathways which lead to increased expression of collagen genes, and which may be critical for the organization and laying down of collagens. Thus, an overall theme that emerges is the impact of AII on both growth and wound repair. Other potential important cellular effects of AII in these systems include: 1) stimulation of growth factors, cytokines, and arachidonic acid products that could have autocrine or paracrine effects, 2) regulation of cell migration and adhesion, 3) alteration of responses to neurohormones, 4) development and maintenance of a differentiated phenotype, and others. Molecular techniques including subtraction hybridization, differential display, antisense knockout, and development of transgenic and embryonic stem cell models will be important in defining the specific role of AII in cardiovascular and renal disease.
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PMID:Angiotensin II in cell growth and matrix production. 748 24

In hypertensive heart disease, after myocardial infarction or in congestive heart failure, myocardial fibrosis presenting as a diffuse perivascular and interstitial accumulation of fibrillar collagens within the normal connective tissue structures of the myocardium is associated with an activated renin-angiotensin system (RAS). This reactive fibrosis occurs in the overloaded left ventricle and the nonoverloaded right ventricle irrespective of myocyte necrosis or the development of myocyte hypertrophy. Therefore, it appears that hemodynamic factors or the load of the ventricle are not primarily responsible for the adverse fibrous tissue response in the myocardium, and humoral factors may play a key role in regulating the myocardial collagen matrix. The neurohumoral response in hypertensive heart disease, after myocardial infarction with overall deterioration of left ventricular function or congestive heart failure leads to an activation of either the cardiac or the circulating RAS, which closely interacts with the bradykinin-prostaglandin system. To ascertain whether the RAS modulates collagen fibroblasts that express mRNAs for types I and III collagens (the major fibrillar collagens in the heart) and matrix metalloproteinase 1 (MMP1; the key enzyme for collagen degradation), collagen synthesis was measured by [3H]proline incorporation normalized to total protein synthesis and MMP1 activity was determined by degradation of [14C]collagen in cultured fibroblasts after 24-hour incubation with various concentrations of angiotensin II or PGE2 (10(-11)-10(-3) M) under serum-free conditions. In addition, effects of angiotensin II were evaluated in the presence or absence of either type 1 (ICI D8731) or type 2 (PD 123177) angiotensin II (AT1 or PGE2 (10(-11)-10(-3) M) under serum-free conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of angiotensin II and prostaglandin E2 in regulating cardiac fibroblast collagen turnover. 749 21

Angiotensin II (Ang II) receptor heterogeneity is currently defined by the new subtype-selective agents, losartan (AT1) and PD123177 (AT2). Although both subtypes have been cloned and sequenced, only the AT1 receptor has been shown to have an important physiological or pathophysiological role. AT1 and AT2 receptors are found in both normal and failing cardiac tissue. They are found on myocytes, endothelial cells, fibroblasts, coronary arterial smooth muscle cells, and peripheral sympathetic nerves. The AT1 receptors mediate virtually all of the effects of Ang II in myocytes even though cardiac tissue may contain over 50% AT2 sites. In endothelial cells, functional responses are predominately AT1. In fibroblasts, preliminary data suggest that AT2 receptors may be involved in collagen synthesis. In isolated tissue, Ang II has a limited positive inotropic effect in atrial, but not in ventricular tissue, which is blocked by losartan. Ang II may also have a tonic effect on coronary artery resistance as angiotensin inhibitors can increase coronary flow. Both ACE (Ang II synthesis) inhibitors and Ang II receptor antagonists produce beneficial effects in experimental models of heart failure, suggesting Ang II is an important mediator of heart failure. Because ACE inhibitors also potentiate bradykinin and are non-specific inhibitors of Ang II synthesis (availability of Ang II to both receptor subtypes) some differences can be anticipated. At the present time, however, the beneficial role of bradykinin is controversial and the predominant functional Ang II receptor in the heart and other tissues is the AT1 subtype.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II receptor subtypes: selective antagonists and functional correlates. 771 19

TCV-116 [(+/-)-(cyclohexyloxycarbony-loxy)ethyl2-ethoxy-1-[[2' -(1H- tetrazol-5-yl)biphenyl-4-yl]methyl]-1H-benzimidazole-7-carboxylate ], a nonpeptide selective angiotensin II type I receptor (AT1 receptor) antagonist, at the dose of 0.1, 1 or 10 mg kg-1 day-1, was orally given to 22-week-old stroke-prone spontaneously hypertensive rats (SHRSP) for 10 weeks (from the age of 22-32 weeks) to examine the effects on gene expression of transforming growth factor-beta 1 (TGF-beta 1) and extracellular matrix proteins in the heart and blood vessels. Tissue messenger RNA (mRNA) was measured by northern blot analysis, with a specific complementary DNA probe. In the heart, left ventricular mRNA levels for fibronectin; types I, III and IV collagen; and laminin were significantly higher in SHRSP than control Wistar-Kyoto rats. In the mesenteric artery and aorta of SHRSP, TGF-beta 1 mRNA and the mentioned extracellular matrix protein mRNAs were increased compared with Wistar-Kyoto rats. Thus, the expression of various genes was up-regulated in cardiovascular tissues of SHRSP. Treatment of SHRSP with TCV-116 suppressed the gene expression of the mentioned extracellular matrix proteins and TGF-beta 1 in both heart and blood vessels in a dose-dependent fashion. Furthermore, TCV-116 regressed cardiac hypertrophy and lessened the medial hypertrophy of the aorta in SHRSP. These results show that angiotensin AT1 receptor antagonist in vivo can inhibit the gene expression of TGF-beta 1 and extracellular matrix proteins in hypertensive cardiovascular tissues. These effects may contribute to the beneficial effects of AT1 receptor antagonist on hypertensive cardiac hypertrophy and vascular thickening.
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PMID:Angiotensin II type I receptor antagonist inhibits the gene expression of transforming growth factor-beta 1 and extracellular matrix in cardiac and vascular tissues of hypertensive rats. 771 6

Alveolar epithelial type II (AT2) cells have been thought to be the progenitors of terminally differentiated type I (AT1) cells in the adult animal in vivo. In this study, we used an AT1 cell-specific monoclonal antibody (mAb VIII B2) to investigate expression of the AT1 cell phenotype accompanying reversible changes in expression of the AT2 cell phenotype. AT2 cells were isolated and cultured either on attached collagen gels or on gels detached 1 or 4 days after plating and maintained thereafter as floating gels. Monolayers on both attached and floating gels were harvested on days 4 and 8 and analyzed by electron microscopy for changes in morphology and binding of mAb VIII B2. Results indicate that: (1) alveolar epithelial cells (AEC) on attached gels develop characteristics of the AT1 cell phenotype, (2) AEC on gels detached on day 1 maintain features of the AT2 cell phenotype (and do not react with mAb VIII B2), and (3) the expression of AT1 cell phenotypic traits seen by day 4 on attached gels is reversed after detachment. We conclude that commitment to the AT1 and AT2 cell lineages requires continuous regulatory input to maintain the differentiated states, and that transdifferentiation between AT2 and AT1 cells may be reversible.
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PMID:Reversible transdifferentiation of alveolar epithelial cells. 774 13

The heart is composed of highly differentiated cardiac myocytes, which constitute parenchyma, and stroma or connective tissue. Fibrillar collagen turnover in the heart and its valve leaflets, in particular, is dynamic and essential to tissue repair. Emerging evidence further suggests connective tissue is a metabolically active entity, where peptide hormones are generated and degraded and, in turn, these peptides regulate collagen turnover. This concept arose from quantitative in vitro autoradiography using an iodinated derivative of lisinopril (125I-351A) as ligand to localize angiotensin converting enzyme (ACE) binding density within the heart. A heterogeneous distribution was found: low-density ACE binding within atria and ventricles; high ACE binding density at sites of high collagen turnover, such as valve leaflets, adventitia, and fibrous tissue of diverse etiologic origins. ACE-producing cells at these latter sites were identified by monoclonal ACE antibody. They included valvular interstitial cells (VIC) and fibroblast-like cells each of which also contained alpha-smooth muscle actin and the transcript for type I collagen (in situ hybridization). Substrate utilization in cultured VIC was found to include angiotensin I and bradykinin. Angiotensin II and bradykinin receptor-ligand binding was observed in VIC and at fibrous tissue sites. Connective tissue ACE is independent of circulating angiotensin II. In vivo, fibrous tissue formation is attenuated by ACE inhibition or antagonism of AT1 receptor. Angiotensin II and bradykinin are stimulatory and inhibitory, respectively, to cultured adult cardiac fibroblast collagen synthesis suggesting a paradigm of reciprocal regulation to fibroblast collagen turnover. Stroma and its cellular constituents represent a dynamic metabolic entity that regulates its own peptide hormone composition and turnover of fibrillar collagen. These findings may provide insights that could be used to advantage to either promote or forestall fibrous tissue formation depending on the nature of cardiovascular disease.
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PMID:Connective tissue and repair in the heart. Potential regulatory mechanisms. 775 73


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