Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The physiologic mechanisms that influence plasma levels of von Willebrand factor (vWF) are poorly understood but include race, blood group, age, pregnancy, exercise, and adrenergic and neurohumoral stimuli. Inherited abnormalities in von Willebrand's disease (vWD) are associated with a defect of the vWF gene on chromosome 12, but in some cases, coexistence of impaired response of plasminogen activator and telangiectasia suggests the presence of a regulatory defect or more extensive endothelial perturbation. Three broad types of vWD are recognized; in addition, a platelet-type vWD (pseudo-vWD) is due to an abnormal platelet receptor for vWF. The prevalence of vWD, which is difficult to determine because of variations in severity even within a kindred, is reportedly as high as 1%. In a survey of European patients, the prevalence of treated vWD varied from 4.5 to 24 per million. Preliminary results of an international survey of vWD indicate that about 3% of treated patients have seroconversion to human immunodeficiency virus, 50% of whom have symptoms. Inhibitor of vWF occurs in type III vWD after treatment and is associated with the presence of gene deletions. Acquired vWD may complicate lymphoproliferative and autoimmune disorders, and proteolytic degradation of vWF complicates myeloproliferative disorders. The level of vWF is increased during pregnancy and in vascular and other disorders; it may be involved in the pathogenesis of atherosclerosis. High-molecular-weight multimers of vWF and a cofactor are thought to promote the formation of microthrombi in thrombotic thrombocytopenic purpura and the hemolytic uremic syndrome. Thus, study of vWD has shed light on pathogenetic mechanisms in a wide range of disorders.
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PMID:von Willebrand factor: clinical features of inherited and acquired disorders. 207 62

30 micromalformations (MMF) of brain vessels that were not diagnosed either clinically or at the autopsy were found histologically in 25 autopsy cases and in 3 patients after the surgical operation. MMF were, in half of the cases, the cause of the stroke which was mistakingly considered a complication of the arterial hypertension, cerebral atherosclerosis or rupture of saccular aneurysm of the brain base arteries. Clinically, MMF were either latent or manifested as recurrent disturbances of the brain circulation of the ischemic or (more frequently) haemorrhagic type. When clinically manifested MMF were revealed at the age of 15-32 years; at the age of 65-74 years they were found incidentally at the autopsy. Their predominant localization was in the brain stem, contiguous ventricular wall and in the cerebellum with its tunic. The following histological types can be distinguished: telangiectasia, venous, cavernous, arteriovenous, nonclassified, varicosis. Clinico-anatomical characterization of each type is presented. The medico-legal importance of MMF and the principal possibility of their treatment (when duly diagnosed) is pointed out.
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PMID:[Micromalformations of the cerebral vessels and their role in the development of stroke]. 261 79

Hereditary hemorrhagic telangiectasia (Osler-Weber-Rendu disease) is characterized by a variety of cutaneous, mucosal, and visceral vascular anomalies. A patient with classic hereditary hemorrhagic telangiectasia was shown to have three-vessel coronary artery ectasia without evident atherosclerosis, and association not previously demonstrated. The possibility that coronary artery ectasia may be a manifestation of hereditary hemorrhagic telangiectasia is discussed.
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PMID:Coronary artery ectasia associated with hereditary hemorrhagic telangiectasia. 280 1

Cardiovascular manifestations develop in the majority of SLE patients at some time during the course of their illness, the most common being acute fibrinous pericarditis and pericardial effusion. Echocardiography has demonstrated an increased incidence of pericardial effusion, even in those who have minimal symptoms. Chronic adhesive pericarditis, pericardial tamponade, and constrictive pericarditis occur rarely. While myocarditis is commonly noted at autopsy, it is often silent clinically. Diagnosis during life can be confirmed only by endomyocardial biopsy. Electrocardiographic changes are often nonspecific. Endocarditis with superimposed nonbacterial verrucous vegetations (Libman-Sacks) is noted in more than 40% of hearts at autopsy, but is rarely diagnosed during life. Valve dysfunctions, such as aortic stenosis, aortic insufficiency, mitral stenosis, and mitral insufficiency, occasionally manifest during life and rarely may necessitate surgery. Atrial and ventricular arrhythmias, first degree AV block, and acquired CHB occur in association with pericarditis, myocarditis, vasculitis, and myocardial fibrosis, respectively. CCHB developing in newborns of mothers with SLE, particularly those who have an antibody to soluble tissue ribonuclear protein RO(SS-A), is increasingly being appreciated by both pediatric cardiologists and rheumatologists. Recently, severe coronary atherosclerosis resulting in angina pectoris and/or myocardial infarction in young adults has been noted, particularly in those who had developed risk factors such as hypertension and hyperlipidemia while receiving prolonged corticosteroid therapy. Rarely, coronary arteritis may produce similar symptoms. Congestive heart failure of either single or multiple etiologies carries an ominous prognosis. It remains a cause of high morbidity and mortality unless recognized early and treated properly. Extracardiac vascular manifestations of SLE include telangiectasia, vasculitis, livedo reticularis, Raynaud's phenomena, and thrombophlebitis, all of which may occur either alone or in different combinations. Evidence is now slowly accumulating that substantiates that immune complex deposition, complement activation and subsequent inflammatory reaction is responsible for the majority of the cardiovascular manifestations of SLE, for example, pericarditis, myocarditis, endocarditis, coronary arteritis, coronary atherosclerosis, and systemic and pulmonary vasculitis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cardiovascular manifestations of systemic lupus erythematosus: current perspective. 286 Jun 99

Systemic lupus erythematosus (SLE) is a well-known acute and/or chronic multisystem disease of complex autoimmune nature, having predilection for cardiovascular system. While its cardiac manifestations have been adequately studied, there is paucity of information on its vascular manifestations. Accordingly, we studied the incidence of vascular manifestations in 50 consecutive SLE patients seen at our institutions and in private practice during the past 12 years. Systemic hypertension (44%) was the most common vascular manifestation followed by vasculitis (30%), Raynaud's phenomenon (26%), telangiectasis (20%), premature coronary atherosclerosis (6%), digital ulceration (6%), thrombophlebitis (6%), pulmonary hypertension (4%) and portal hypertension (4%). Diffuse systemic vasculitis similar to polyarteritis nodosa was rare (2%). Often more than one lesion was found in the same patient. The clinical diagnosis of these vascular manifestations in the context of the primary disease (SLE) usually does not pose any difficulty except when they antedate it. We also studied the pathology and pathogenesis of some of these vascular lesions in both autopsy and biopsy specimens by both light microscopy and immunofluorescent techniques. Our results as well as those of others who also studied these lesions indicate that immune complex deposition and subsequent complement activation play an important role in the pathogenesis of vasculitis, coronary arteritis and premature coronary atherosclerosis. Corticosteroids and vasodilators remain the drugs of choice for the management of the majority of the symptoms arising from the vascular lesions of SLE.
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PMID:Vascular manifestations of systemic lupus erythematosus. 372 68

The transforming growth factor beta 1 (TGF beta 1) signalling pathway is important in embryogenesis and has been implicated in hereditary haemorrhagic telangiectasia (HHT), atherosclerosis, tumorigenesis and immunomodulation. Therefore, identification of factors which modulate TGF beta 1 bioactivity in vivo is important. On a mixed genetic background, approximately 50% Tgfb1-/- conceptuses die midgestation from defective yolk sac vasculogenesis. The other half are developmentally normal but die three weeks postpartum. Intriguingly, the vascular defects of Tgfb1-/- mice share histological similarities to lesions seen in HHT patients. It has been suggested that dichotomy in Tgfb1-/- lethal phenotypes is due to maternal TGF beta 1 rescue of some, but not all, Tgfb1-/- embryos12. Here we show that the Tgfb1-/- phenotype depends on the genetic background of the conceptus. In NIH/Ola, C57BL/6J/Ola and F1 conceptuses, Tgfb1-/- lethality can be categorized into three developmental classes. A major codominant modifier gene of embryo lethality was mapped to proximal mouse chromosome 5, using a genome scan for non-mendelian distribution of alleles in Tgfb1-/- neonatal animals which survive prenatal lethality. This gene accounts for around three quarters of the genetic effect between mouse strains and can, in part, explain the distribution of the three lethal phenotypes. This approach, using neonatal DNA samples, is generally applicable to identification of loci that influence the effect of early embryonic lethal mutations, thus furthering knowledge of genetic interactions that occur during early mammalian development in vivo.
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PMID:Mapping of a major genetic modifier of embryonic lethality in TGF beta 1 knockout mice. 902 Aug 52

Endoglin is a transmembrane protein that is found in association with transforming growth factor-beta (TGF-beta) superfamily receptor complexes and has an expression pattern that appears to be restricted primarily to endothelial cells, activated macrophages, trophoblasts, and fibroblasts. Since mutations in endoglin have been shown to be linked to hereditary hemorrhagic telangiectasia type 1, a disease manifested as vascular malformations characterized by excessive layers of vascular smooth muscle cells (VSMC), the expression of endoglin was investigated in VSMC. In vivo, the majority of SMC in human atherosclerotic plaques expressed high levels of endoglin, while endoglin was not detected in SMC from samples of the normal arterial wall. In vitro studies demonstrate that human aortic smooth muscle cells (HASMC) express the L-isoform of endoglin. Like endothelial cells, HASMC express endoglin protein as a dimer on the cell surface that binds TGF-beta1. In vitro, endoglin expression by HASMC is upregulated in response to TGF-beta1, suggesting that the presence of this factor in the atherosclerotic plaque might be responsible for the increased expression of endoglin. The demonstration of increased levels of endoglin in VSMC in human atherosclerotic plaques suggests a role for SMC endoglin in the maintenance of vascular integrity and in the response of the vessel wall to injury.
Atherosclerosis 2000 Dec
PMID:Endoglin, a TGF-beta receptor-associated protein, is expressed by smooth muscle cells in human atherosclerotic plaques. 1116 21

The transforming growth factor beta signaling family is a key player in genetic and multifactorial diseases, including hereditary hemorrhagic telangiectasia (HHT), cancer, atherosclerosis and immunomodulation. HHT types 1 and 2 are caused by loss of function mutations in ENG and ACVRL1; polymorphisms in TBRI and TGFB1 are also associated with altered risks for cancer and cardiovascular diseases. There is therefore much interest in identifying factors that influence transforming growth factor beta1 (TGFbeta1) action in vivo. Here we identify a potent modifier locus, Tgfbkm2(129) (LOD=10.5, chromosome 1), that contributes over 90% of the genetic component determining survival to birth of Tgfb1(-/-) embryos in crosses between C57 and 129 mice, plus a suggestive modifier locus on chromosome 17 (LOD=3.7). Tgfb1(-/-) survival to birth (STB), in addition to dependence on embryonic Tgfbkm2 genotype, also depends on maternal effects. Fetal genotype and maternal factors interact to prevent Tgfb1(-/-) embryonic death due to defective yolk sac angiogenesis. C57 or C57/129.F1 mothers support high Tgfb1(-/-) STB rates, whereas 129 mothers do not. Strain differences in circulating maternal TGFbeta1 levels were excluded as the cause of this directional complementation. However, strong genetic support is provided for the involvement of maternal STB alleles of mitochondrial or imprinted genes that are only expressed when passed through the female lineage. Molecular identification of the functional gene(s) encoding Tgfbkm2 and its interacting maternal factors will be central to an understanding of the mode of action of TGFbeta1 in cardiovascular development.
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PMID:Genetic modifiers interact with maternal determinants in vascular development of Tgfb1(-/-) mice. 1281 85

A 31-year-old woman presented with recurrent transient monocular blindness. As transient ischaemic attacks were suspected further investigations were targeted at evaluation of premature atherosclerotic lesions in the internal carotid artery. Initially laboratory tests were not performed. After referral to a cardiovascular-disease prevention outpatient clinic, laboratory evaluation disclosed a marked isolated polycythaemia that turned out to be secondary to right-left shunting through multiple pulmonary arteriovenous malformations. The ultimate diagnosis was hereditary haemorrhagic telangiectasia. Later on, physical signs such as telangiectasia and central cyanosis were noticed. In the clinical decision-making process, laboratory tests associated with causes of transient monocular visual loss were not carried out and therefore clues important for the ultimate diagnosis were not obtained. In only a minority of young patients with transient monocular visual loss can this be ascribed to premature atherosclerosis. For these reasons, a proper physical examination and laboratory tests directed towards other causes must be part of the initial diagnostic work-up in young patients with visual disturbances and suspected transient ischaemic attacks.
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PMID:[Clinical reasoning and decision-making in practice. A 31-year-old woman with transient monocular blindness and polycythaemia]. 1579 48

Angiogenesis is the process by which new blood vessels are formed from existing vessels. Mammalian populations harbor genetic variations that alter angiogenesis. Some of these changes result in Mendelian traits of variable penetrance, with telangiectasia being a common symptom. Other more subtle variations exist, with promoter variations in the VEGF gene being of particular interest. Genetic diversity in angiogenesis-regulating genes has been linked to increased susceptibility to multiple angiogenesis-dependent diseases in humans. These diseases include cancer, arthritis, atherosclerosis, and cardiovascular disease, endometriosis, diabetic retinopathy, retinopathy of prematurity, psoriasis, and sarcoidosis. Also, multiple disturbances in pregnancy including miscarriage, spontaneous preterm delivery, and severe pre-eclampsia have been linked to alterations in angiogenesis-regulating genes. Present efforts to dissect the complexity of the genetic diversity that regulates angiogenesis have used laboratory animals due to the availability of genome sequence for many species and the ability to perform high volume controlled breeding. Ongoing mapping studies have identified multiple loci that control angiogenic responsiveness in several mouse models. Genetic alterations responsible for discrete angiogenic alterations will then be studied in appropriate mouse disease models.
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PMID:The effect of genetic diversity on angiogenesis. 1632 83


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