UNIPROT:P06889 - FACTA Search

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Exhaled nitric oxide (eNO) is thought to arise principally from the airway epithelium. NO regulates smooth muscle tone, and abnormal activity of NO synthase has been implicated in coronary artery disease (CAD). Polymorphisms of endothelial constitutive NO synthase (ecNOS) may affect NO generation and be associated with CAD. It was hypothesised that a polymorphism, such as the ecNOS intron 4 polymorphism (ecNOS4a), affects the levels of eNO via airway epithelial NOS. eNO levels were measured in 53 patients with ischaemic chest pain who had previously been genotyped for ecNOS polymorphisms, with sample enrichment for the ecNOS4a allele. Subjects were also assessed for two other ecNOS polymorphisms (T-786C substitution in the promoter region, and G5557T in exon 7), variably associated with vascular disease. Those homozygous for the 'a' allele (ecNOS4a/a) had a lower mean eNO (9.0 ppb) than those who were heterozygous (ecNOS4a/b, 13.6 ppb), who in turn had a lower level than those homozygous for the wild-type ecNOS4b/b (16.1 ppb). No association of eNO levels was found with the other polymorphisms. Levels of eNO remained significantly lower in the ecNOSa/a subjects than in the ecNOSa/b and ecNOSb/b subjects, even when controlled for angiographic CAD, and smoking habit. In addition, all subjects with CAD had a significantly lower mean eNO (12.1 ppb) than subjects without angiographic CAD (19.9 ppb). In this selected population low levels of eNO were thus associated with presence of the ecNOS4a allele and also with CAD.
J Mol Med (Berl) 2002 Mar
PMID:Effect of ecNOS polymorphisms and coronary artery disease upon exhaled nitric oxide. 1189 44

The advanced stage of the glycation process (also called the "Maillard reaction") that leads to the formation of advanced glycation end-products (AGEs) plays an important role in the pathogenesis of angiopathy in diabetic patients and in the aging process. AGEs elicit a wide range of cell-mediated responses that might contribute to diabetic complications, vascular disease, renal disease, and Alzheimer's disease. Recently, it has been proposed that AGE are not only created from glucose per se, but also from dicarbonyl compounds derived from glycation, sugar autoxidation, and sugar metabolism. However, this advanced stage of glycation is still only partially characterized and the structures of the different AGEs that are generated in vivo have not been completely determined. Because of their heterogeneity and the complexity of the chemical reactions involved, only some AGEs have been characterized in vivo, including N-carboxymethyllysine (CML), pentosidine, pyrraline, and crosslines. In this article, we provide a brief overview of the pathways of AGE formation and of the immunochemical methods for detection of AGEs, and we also provide direct immunological evidence for the existence of five distinct AGE classes (designated as AGE-1 to -5) within the AGE-modified proteins and peptides in the serum of diabetic patients on hemodialysis. We also propose pathways for the in vivo formation of various AGEs by glycation, sugar autoxidation, and sugar metabolism.
Curr Mol Med 2001 Jul
PMID:Alternative routes for the formation of immunochemically distinct advanced glycation end-products in vivo. 1189 79

The polyunsaturated fatty acid (PUFA) composition of the mammalian central nervous system is almost wholly composed of two long-chain polyunsaturated fatty acids (LC-PUFA), docosahexaenoic acid (DHA) and arachidonic acid (AA). PUFA are dietarily essential, thus normal infant/neonatal brain, intellectual growth and development cannot be accomplished if they are deficient during pregnancy and lactation. Uniquely in the human species, the fetal brain consumes 70% of the energy delivered to it by mother. DHA and AA are needed to construct placental and fetal tissues for cell membrane growth, structure and function. Contemporary evidence shows that the maternal circulation is depleted of AA and DHA during fetal growth. Sustaining normal adult human brain function also requires LC-PUFA.Homo sapiens is unlikely to have evolved a large, complex, metabolically expensive brain in an environment which did not provide abundant dietary LC-PUFA. Conversion of 18-carbon PUFA from vegetation to AA and DHA is considered quantitatively insufficient due to a combination of high rates of PUFA oxidation for energy, inefficient and rate limited enzymatic conversion and substrate recycling. The littoral marine and lacustrine food chains provide consistently greater amounts of pre-formed LC-PUFA than the terrestrial food chain. Dietary levels of DHA are 2.5-100 fold higher for equivalent weights of marine fish or shellfish vs. lean or fat terrestrial meats. Mammalian brain tissue and bird egg yolks, especially from marine birds, are the richest terrestrial sources of LC-PUFA. However, land animal adipose fats have been linked to vascular disease and mental ill-health, whereas marine lipids have been demonstrated to be protective. At South African Capesites, large shell middens and fish remains are associated with evidence for some of the earliest modern humans. Cape sites dating from 100 to 18 kya cluster within 200 km of the present coast. Evidence of early H. sapiens is also found around the Rift Valley lakes and up the Nile Corridor into the Middle East; in some cases there is an association with the use of littoral resources. Exploitation of river, estuarine, stranded and spawning fish, shellfish and sea bird nestlings and eggs by Homo could have provided essential dietary LC-PUFA for men, women, and children without requiring organized hunting/fishing, or sophisticated social behavior. It is however, predictable from the present evidence that exploitation of this food resource would have provided the advantage in multi-generational brain development which would have made possible the advent of H. sapiens. Restriction to land based foods as postulated by the savannah and other hypotheses would have led to degeneration of the brain and vascular system as happened without exception in all other land based apes and mammals as they evolved larger bodies.
Comp Biochem Physiol B Biochem Mol Biol 2002 Apr
PMID:Brain-specific lipids from marine, lacustrine, or terrestrial food resources: potential impact on early African Homo sapiens. 1192 81

Lipoid proteinosis (LP), also known as hyalinosis cutis et mucosae or Urbach-Wiethe disease (OMIM 247100) is a rare, autosomal recessive disorder typified by generalized thickening of skin, mucosae and certain viscera. Classical features include beaded eyelid papules and laryngeal infiltration leading to hoarseness. Histologically, there is widespread deposition of hyaline (glycoprotein) material and disruption/reduplication of basement membrane. The aetiology of LP is currently unknown. Using DNA from three affected siblings in a consanguineous Saudi Arabian family we performed genome-wide linkage and mapped the disorder to 1q21 (marker D1S498) with a two-point LOD score of 3.45 at theta = 0. A further 28 affected individuals from five other unrelated consanguineous family groups from different geographical regions also showed complete linkage and resulted in a maximum two-point LOD score of 21.85 at theta = 0. Using available markers in the interval between D1S442 and D1S305, the observed recombinants placed the gene in a 2.3 cM critical interval between D1S2344 and D1S2343 (Marshfield genetic map) corresponding to an approximately 6.5 Mb region on the UCSC physical map. Using a candidate gene approach (comparison of control versus LP gene expression in cultured fibroblasts) and subsequent direct sequencing of genomic DNA, we identified six different homozygous loss-of-function mutations in the extracellular matrix protein 1 gene (ECM1). Although the precise function of ECM1 is not known, our findings provide the first clinical indication of its relevance to skin adhesion, epidermal differentiation, wound healing, scarring, angiogenesis/angiopathy and basement membrane physiology, as well as defining the molecular basis of this inherited disorder.
Hum Mol Genet 2002 Apr 01
PMID:Lipoid proteinosis maps to 1q21 and is caused by mutations in the extracellular matrix protein 1 gene (ECM1). 1192 56

Adiponectin is a novel polypeptide that is highly specific to adipose tissue. In contrast to other adipocytokines, adiponectin levels are decreased in obesity and associated comorbidities, such as type 2 diabetes. Decreased expression of adiponectin is correlated with insulin resistance. It has been suggested that several agents, such as tumor necrosis factor alpha, could mediate their effects on insulin metabolism through modulating adiponectin secretion from adipocytes. The mechanisms for the development of atherosclerotic vascular disease in obese individuals are largely unknown. Several findings support the interesting hypothesis that adiponectin could be a link between obesity and related atherosclerosis. First, adiponectin levels are lower in patients with coronary artery disease. Second, adiponectin modulates endothelial function and has an inhibitory effect on vascular smooth muscle cell proliferation. Moreover, adiponectin is accumulated more preferably to the injured vascular wall than intact vessels and has been shown to suppress macrophage-to-foam cell transformation. Adiponectin may also be involved in the modulation of inflammation. Thiazolidinediones, antiatherogenic and other effects have been explained by their direct enhancing effect on adiponectin. In conclusion, adiponectin has anti-inflammatory and antiatherogeneic effects as well as multiple beneficial effects on metabolism. Therefore it is not a surprise that adiponectin therapy has been tested in animal models of obesity, and it has been shown to ameliorate hyperglycemia and hyperinsulinemia without inducing weight gain or even inducing weight loss in some studies. Unlike agents that exert their effects centrally, adiponectin's effects seem to be peripherally mediated. The evidence of an association between adiponectin and the metabolic and cardiovascular complications of obesity is growing all the time.
J Mol Med (Berl) 2002 Nov
PMID:Adiponectin: a link between excess adiposity and associated comorbidities? 1243 46

Elevated plasma cell membrane glycoprotein 1 (PC-1) expression and the frequent PC-1 K121Q polymorphism have recently been associated with insulin resistance. Since insulin resistance represents an important risk factor for atherosclerotic vascular disease and myocardial infarction, we investigated the involvement of the PC-1 K121Q polymorphism in the development of myocardial infarction. We analyzed two independent series of cardiovascular patients at a defined end-point of atherosclerotic vascular disease (those having suffered myocardial infarction) for the PC-1 K121Q mutation by a newly developed mutagenic separated PCR assay. In both patient groups the presence of the Q allele was significantly associated with younger age at the time of first myocardial infarction, suggesting a more rapid progression of endothelial dysfunction. In a multivariate analysis carriers of the 121Q allele from Vienna and from Central Germany exhibited a 2.6- and a 4.2-increased odds, respectively, for suffering myocardial infarction within the first tertile of age (<51 and <48 years, respectively). Our data indicate that the PC-1 121Q allele might predispose independently of other well established risk factors for early myocardial infarction. Testing for the PC-1 K121Q polymorphism might be valuable in patients with a family history of atherosclerotic vascular disease and myocardial infarction.
J Mol Med (Berl) 2002 Dec
PMID:The K121Q polymorphism in the plasma cell membrane glycoprotein 1 gene predisposes to early myocardial infarction. 1248 64

Alzheimer s disease (AD) is linked to increased brain deposition of amyloid-beta (Abeta) peptides in senile plaques (SPs), and recent therapeutic efforts have focused on inhibiting the production or enhancing the clearance of Abeta in brain. However, it has not been possible to measure the burden of SPs or assess the effect of potential therapies on brain Abeta levels in patients. Toward that end, we have developed a novel radioligand, [(125)I]TZDM, which binds Abeta fibrils with high affinity, crosses the blood-brain barrier (BBB), and labels amyloid plaques in vivo. Compared to a styrylbenzene probe, [(125)I]IMSB, [(125)I]TZDM showed a 10-fold greater brain penetration and labeled plaques with higher sensitivity for in vivo imaging. However, this ligand also labels white matter, which contributes to undesirable high background regions of the brain. Interestingly, parallel to their differential binding characteristics onto fibrils composed of 40 (Abeta40)- or 42 (Abeta42)-amino-acid-long forms of Abeta peptides, these radioligands displayed differential labeling of SPs in AD brain sections under our experimental conditions. It was observed that [(125)I]IMSB labeled SPs containing Abeta40, amyloid angiopathy (AA), and neurofibrillary tangles, whereas [(125)I]TZDM detected only SPs and Abeta42-positive AA. Since increased production and deposition of Abeta42 relative to Abeta40 may be crucial for the generation of SPs, [(125)I]TZDM and related derivatives may be more attractive probes for in vivo plaque labeling. Further structural modifications of TZDM to lower the background labeling will be needed to optimize the plaque-labeling property.
J Mol Neurosci 2003 Feb
PMID:Detection of amyloid plaques by radioligands for Abeta40 and Abeta42: potential imaging agents in Alzheimer's patients. 1266 30

Ischemic cerebrovascular disease (ICVD) is a multifactorial disease caused by the interactions of several genetic and environmental factors. Tobacco smoke is a major cause of both cancer and vascular disease. Although its carcinogenic role via induction of DNA damage and mutation is well established, the mechanisms involved in vascular disease remain unclear. One possibility is that DNA damage causes smooth muscle cell proliferation in the intima of arteries, thereby contributing to atherothrombotic processes. The binding of chemicals to DNAis modulated by detoxification enzymes, including glutathione S-transferase (GST). We examined whether polymorphisms in this gene, as well as the angiotensin-converting enzyme (ACE) gene influence the risk of ICVD on smoking status. DNA was analyzed for deletions in the GST M1, T1, and ACE genes by polymerase chain reaction (PCR). No significant association was observed between GST null genotype and ICVD, even in smokers. However, a significant association between ACE and ICVD was observed only in smokers (chi(2) = 0.023, p < 0.05). We conclude that GST polymorphism is not a risk factor for the development of ICVD through smoking and suggest a high probability that ACE polymorphism may contribute to the odds of ICVD in smokers.
J Mol Neurosci 2003 Feb
PMID:Genetic susceptibility to ischemic cerebrovascular disease in Koreans. 1266 32

Microvascular complications in sickle cell disease occur as a result of obstruction of small vessels by deoxygenated sickle cells. Cerebrovascular complications are also common and result from obstruction of large blood vessels by thrombosis with changes in vessels that have some similarity to those found in arteriosclerotic vascular disease. Endothelial damage and activation from sickle cell-endothelial interactions may contribute to both. We find that endothelial cells have increased expression of VCAM-1, E-selectin, and ICAM-1 when exposed to sickle blood cells. The concentration-dependent, sickle-induced, adhesion molecule expression is significantly greater than that promoted by normal cells. The time course of Cell Adhesion Molecule (CAM) expression is similar to that induced by TNF-alpha and IL1. Studies after white cell enrichment and reduction suggest leukocytes are the primary mediators. CAM expression by endothelial cells appears stimulated by soluble factors. Antibody inhibition studies support TNF-alpha and IL-1, produced by sickle leukocytes, as the primary soluble factors responsible for the observed CAM expression. Both the induction of endothelial CAM expression and subsequent endothelial adherence of sickle erythrocytes may play significant roles in the pathophysiology of sickle-related complications, and reduction in CAM expression may provide a new approach to treatment.
Pediatr Pathol Mol Med
PMID:Activation of vascular endothelial cell adhesion molecule expression by sickle blood cells. 1267 44

Many forms of human cerebral microvascular disease result from abnormal proliferation and/or degeneration of smooth muscle cells (SMC) in the vessel wall of arteries and arterioles. Human cerebral microvessel-derived smooth muscle cells (MV-SMC) in culture can be used to study the pathogenesis of microvascular disease. Primary cultures were established from nonneoplastic human brain specimens surgically resected and characterized as to their growth properties and phenotype. The cultures have been used to study various factors that may be relevant in the pathogenesis of microangiopathies, in particular cerebral amyloid angiopathy (CAA), to help determine mechanisms of SMC degeneration in these disorders. Factors investigated have included cellular growth rate, response to hypoxia and amyloidogenic peptides, and telomerase activity. MV-SMC appear to behave differently than aortic SMC with regard to proliferation and telomerase activity. These differences may play a role in the responses to MV-SMC in the evolution of CAA and other microangiopathies (cerebral arteriosclerosis/lipohyalinosis) and provide insight into mechanisms of degeneration of these cells within vessel walls.
Exp Mol Pathol 2003 Apr
PMID:Smooth muscle cells and the pathogenesis of cerebral microvascular disease ("angiomyopathies"). 1271 Sep 46

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