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 responses to vasoactive agents and the fine structure of hepatic arterial ring segments from male and female Watanabe heritable hyperlipidaemic (WHHL) rabbits (4, 6, and 12 months) were compared with those of age- and sex-matched New Zealand White (NZW) rabbits. In males only, KCl-induced contractions were reduced in WHHL rabbits compared with NZW rabbits. In male and female WHHL rabbits, maximum noradrenaline-induced contractions and sensitivity to noradrenaline were greater than those of male and female NZW rabbits. In female WHHL and NZW rabbits only, maximum noradrenaline-induced contractions and the EC50 values were reduced at 6 months. Endothelium-dependent relaxation: In females only, maximum relaxant responses and the sensitivity of WHHL rabbits to acetylcholine increased with age, while there was a decrease in NZW rabbits. Similarly, relaxation to substance P increased with age in WHHL rabbits and decreased in NZW rabbits, but this occurred in both male and female animals. In addition, substance P-induced relaxation in female WHHL rabbits was greater than in male WHHL rabbits. Endothelium-independent relaxation: In both male and female WHHL rabbits, calcitonin gene-related peptide-induced and vasoactive intestinal polypeptide-induced relaxation did not change with age. However, there was an age-related decrease in the response of NZW rabbits to these peptides. Electron microscopic evaluation of hepatic arteries from WHHL rabbits showed occasional ruptures in the internal elastic lamina at 4 months. At 6 months, widespread intimal thickening associated with smooth muscle cell migration was apparent, but this became less obvious at 12 months. No obvious differences in structure between male and female hepatic arteries were observed. It is suggested that a "compensatory vasodilatation" develops in atherosclerosis, initially at the level of the endothelium, and then with the progression of the disease extends to changes in the smooth muscle. This may occur in order to offset the thickening of the arterial wall. Sexual dimorphism in vascular reactivity has been demonstrated.
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PMID:Sex and age as factors influencing the vascular reactivity in Watanabe heritable hyperlipidaemic (WHHL) rabbits: a pharmacological and morphological study of the hepatic artery. 137 92

Invasive cardiovascular procedures, such as percutaneous translumenal coronary angioplasty (PTCA) and aorto-coronary bypass surgery (ACBS), that are currently employed in treating the coronary stenosis or occlusion caused by atherosclerosis represent a major therapeutic advance for managing coronary heart disease (CHD). However, the cellular proliferative response and associated intimal hyperplasia that can follow the damage to blood vessels that occurs with these procedures leads to late complications which cannot be effectively controlled by presently available drugs. Hence, a new approach is required for managing these complications, termed "restenosis" (in the case of PTCA) or "stenosis" (in the case of ACBS). Existing drug therapy is reviewed and some new approaches to this problem are provided herein. Further studies of growth factors and other substances that influence the cellular proliferative response that follows injury to the blood vessel wall could lead to the development of effective therapy. Inhibition of intimal hyperplasia and/or acceleration of endothelial cell re-growth provide a basis for such new approaches. Platelet-derived growth factor (PDGF) and basic fibroblast growth factor (bFGF), as well as endothelium-derived relaxing factor(s) (EDRF) and calcitonin gene-related peptide (CGRP) are among the substances discussed. Modification of certain currently available drugs (e.g. Ca(2+)-antagonists) could also be of value in meeting this therapeutic demand.
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PMID:Coronary atherosclerosis: current therapeutic approaches and future trends. 187 79

This investigation involved alterations in the local control of vascular tone in the isolated rabbit basilar artery in atherosclerosis, with Watanabe heritable hyperlipidemic (WHHL) rabbits as a model and New Zealand White (NZW) rabbits as controls. Vasoconstrictor responses to KCl in isolated preparations of the basilar artery at basal tone showed no differences at 4, 6, and 12 months of age in either WHHL or NZW rabbits. Contractile responses to both histamine and neuropeptide Y were significantly greater in 12-month-old WHHL rabbit preparations when compared with responses measured at 4 and 6 months. In NZW rabbit preparations, there was no change in maximum contractile responses to both histamine and neuropeptide Y over the same age range. Endothelium-dependent relaxations to acetylcholine in raised-tone preparations from WHHL rabbits were significantly greater at 6 months in comparison with responses measured at both 4 and 12 months of age. In contrast, endothelium-independent relaxations to calcitonin gene-related peptide and vasoactive intestinal polypeptide showed no change over the age range studied. In NZW rabbit preparations, both endothelium-dependent and endothelium-independent relaxations declined significantly between 4 and 12 months. The significance of these changes in the rabbit basilar artery in atherosclerosis is discussed in relation to the "protection" of intracranial arteries from atherosclerosis and their subsequent susceptibility to cerebral ischemia and stroke.
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PMID:Changes in vasoconstrictor and vasodilator responses of the basilar artery during maturation in the Watanabe heritable hyperlipidemic rabbit differ from those in the New Zealand White rabbit. 191 1

Glucocorticoids are highly valuable medication available to a physician, yet, their serious side effects have severely limited their use. Thus, the major purpose of our review is to provide a practical approach to increasing efficacy and minimizing side effects, that is increasing the benefit/risk ratio, of glucocorticoid therapy. The most effective way of avoiding their side effects, including infection, osteoporosis, atherosclerosis, is simply to avoid the overuse of glucocorticoids and to restrict their use to the truly indicated disease. Side effects can be reduced in part by the development of drug delivery systems, such as topical administration and targeting therapy. Combinations of calcium, vitamin D and sometimes thiazide or calcitonin, as compensatory therapy, have shown some favorable results for the prevention of osteoporosis. Although glucocorticoid therapy causes an increase of high-density lipoprotein and a decrease of lipoprotein (a) in serum, both are possibly preventive for atherosclerosis, hypertension and diabetes mellitus which are risk factors of atherosclerosis should be controlled. Future trends to remove their side effects will be obtained by more specific therapy based upon their pathogenesis.
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PMID:[Minimizing side effects of glucocorticoid therapy]. 816 80

The existence of coronary endoarterial cushions (CEC) in the human heart as nonpathological, functional entities has been debated, and CEC have been sparsely reported in animals. Arterial cushions are localized thickenings that protrude into the lumen of specific arteries. We have identified CEC in the rhesus monkey, dog, sheep, goat, pig, rabbit and rat, and in the human heart. Two distinct types are described: the ovoid CEC arranged singly, in pairs, or in groups of three to four, and the less common polypoid CEC seen primarily in humans. The highest incidence of CEC in rabbits and humans was in the left ventricle in arteries 150-488 microns in diameter. Light and electron microscopy demonstrated intimal location with smooth muscle cells surrounded by ground substance, collagen and elastin fibers in a highly organized pattern. Nerve fibers identified by their immunoreactivity with antiserum to the vasodilatory calcitonin-gene-related peptide contacted the CEC along the tunica media and were occasionally seen within CEC. Arrangement and histological composition of CEC suggest a role in the regulation of local blood flow and myocardial perfusion. In human hearts, the CEC density index correlated highly with the degree of heart disease. In subjects with high heart disease rating, increased connective tissue, lipid-like infiltration and calcification was seen within CEC, and foam cells were present in CEC of obese rabbits. This suggests that CEC in coronary arteries could be predisposed sites of atherosclerosis, and that injured CEC can cause coronary artery spasm and ischemia. We conclude that CEC occur in animals and humans as innervated intimal smooth muscle cushions that might have a role in myocardial perfusion and heart disease.
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PMID:Intramyocardial arterial cushions of coronary vessels in animals and humans: morphology, occurrence and relation to heart disease. 892 19

Insulin as a vascular hormone, apart from its effect on intermediary metabolism, has been considered to play an important role in cardiovascular regulation and pathophysiology of cardiovascular diseases such as essential hypertension, congestive cardiac failure and atherosclerosis. Insulin induces pressor effects by mechanisms of increased sympathetic activity, renal sodium retention and proliferation of vascular smooth muscle cells. On the other hand, accumulating evidence indicates that insulin decreases vascular resistance and increases organ blood flow especially in skeletal muscle tissue, indicating that insulin is a vasodilator. Several mechanisms underlying insulin-induced vasodilation have been proposed. Insulin enhances calcium efflux from vascular smooth muscle cells by activating the plasma membrane Ca(2+)-ATPase and causes hyperpolarization by stimulating Na+, K(+)-ATPase and sodium/potassium pump. Insulin also stimulates nitric oxide (NO) synthase and increases release of NO from vascular endothelium to cause vasodilation. An increase in cyclic AMP levels is induced by insulin, via activation of insulin receptors, beta-adrenoceptors and calcitonin gene-related peptide receptors. However, main cause of mechanisms mediating the vasodilation remain obscure. Hypertension is associated with insulin resistance and hyperinsulinemia. Insulin resistance may contribute to hypertension by sympathetic overactivity, endothelium dysfunction and decreased vasodilator action of insulin. Therefore, insulin must be considered a vasoactive peptide and more investigations are needed to better understand the full significance of the hemodynamic effect of insulin.
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PMID:[Vascular effects of insulin]. 1087 80

Lipid oxidation products promote atherosclerosis and may also affect osteoporosis. We showed previously that oxidized lipids including 8-isoprostaglandin E2 (isoPGE2) inhibit osteoblastic differentiation of preosteoblasts. Since osteoporosis is mediated both by decreased osteoblastic bone formation and by increased osteoclastic bone resorption, we assessed whether oxidized lipids regulate the osteoclastic potential of marrow hematopoietic cells. Treatment of marrow-derived preosteoclasts with isoPGE2 enhanced osteoclastic differentiation as evidenced by increased tartrate-resistant acid phosphatase (TRAP) activity and multinucleation, which were inhibited by calcitonin, and increased numbers of resorption pits. The enhanced osteoclastic differentiation by isoPGE2 was observed whether preosteoclasts were in coculture with stromal cells or in monoculture in the presence of receptor-activated NFkappaB ligand (RANKL) and macrophage colony-stimulating factor. Receptor antagonist studies suggest that isoPGE2 effects were mediated by prostaglandin receptor subtypes EP2/DP on preosteoclasts and subtype EP1 and thromboxane receptors on stromal/osteoblast cells. The enhanced TRAP activity was also inhibited by cAMP-dependent protein kinase inhibitors, and isoPGE2 elevated intracellular cAMP levels of preosteoclast monocultures. Other oxidized lipids also enhanced the TRAP activity of preosteoclast monocultures. These data suggest that isoPGE2 enhances osteoclastic differentiation of marrow preosteoclasts and that this regulation occurs via the cAMP-dependent protein kinase pathway.
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PMID:8-Isoprostaglandin E2 enhances receptor-activated NFkappa B ligand (RANKL)-dependent osteoclastic potential of marrow hematopoietic precursors via the cAMP pathway. 1182 70

Migraine is a common disorder, characterized by recurrent episodes of headache and associated symptoms. The full pathophysiology of migraine is incompletely delineated. Current theories suggest that it is a neurovascular disorder involving cortical depression, neurogenic inflammation and vasodilation. Various neuropeptides and cytokines have been implicated in the pathophysiology of migraine including calcitonin gene-related peptide, interleukin (IL)-1, IL-6 and tumour necrosis factor (TNF)-alpha. There is evidence demonstrating an association between migraine and processes associated with inflammation, atherosclerosis, immunity and insulin sensitivity. Similarly, adiponectin, an adipocytokine secreted by adipose tissue, has protective roles against the development of insulin resistance, dyslipidaemia and atherosclerosis and exhibits anti-inflammatory properties. The anti-inflammatory activities of adiponectin include inhibition of IL-6 and TNF-induced IL-8 formation, as well as induction of the anti-inflammatory cytokines IL-10 and IL-1 receptor antagonist. Adiponectin levels are also inversely correlated with C-reactive protein (CRP), TNF-alpha and IL-6 levels. Likewise, recent studies have shown a possible correlation between CRP, TNF-alpha and IL-6 and migraine attacks. In addition, insulin sensitivity is impaired in migraine and obesity is a risk factor for the transformation from episodic to chronic migraine. In this review we discuss the basic science of adiponectin and its potential connection to the pathophysiology of migraine. Future research may focus on how adiponectin levels are potentially altered during migraine attacks, and how that information can be potentially translated into migraine therapy.
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PMID:Migraine and adiponectin: is there a connection? 1744 81

The discovery that two recently identified molecules, klotho and fibroblast growth factor 23 (FGF23), played an important role in calcium, phosphate, and vitamin D metabolism has transformed our traditional physiological view in which bone and mineral homeostasis was mainly regulated by parathyroid hormone, vitamin D, and calcitonin, according to mineral body needs. FGF23 is a 251-amino acid secreted protein produced by osteoblasts and osteocytes in bone following the stimulation by phosphate and vitamin D or the inhibition by dentin matrix protein 1. Originally isolated from tumoral cells of patients with tumor-induced osteomalacia and hypophosphatemia, FGF23 inhibits phosphate reabsorption in renal proximal tubular cells and 1alpha-hydroxylase activity, resulting in decreased synthesis of calcitriol. To exert these actions, FGF23 requires the conversion, by klotho, of the canonical FGF receptor 1 (IIIc) in a specific high affinity FGF23 receptor. On the other hand, klotho is a putative antiaging gene identified in 1997 when a particular mouse strain, created by random insertion mutagenesis, was found to be short-lived and displayed premature atherosclerosis, osteopenia, skin atrophy, pulmonary emphysema, hyperphosphatemia, hypercalcemia, and high serum calcitriol levels. The gene of klotho encodes a 1012-amino acid cell-surface protein with a short cytoplasmic tail and an extracellular domain that consists in tandem duplicated copies of a beta-glucuronidase-like sequence, which can be released into the circulation as soluble forms after being cleaved by metalloproteinases such as ADAM10 and ADAM17. By modulating FGF23 action, klotho regulates urinary phosphate excretion and calcitriol synthesis. By virtue of its beta-glucuronidase activity, klotho deglycosylates the calcium channel TRPV5 (transient receptor potential vallinoid-5) and regulates urinary calcium excretion. klotho also binds to Na(+),K(+)-ATPase in parathyroid cells and regulates calcium-stimulated PTH secretion. Finally, klotho extends life span via several mechanisms, including the reduction of calcitriol synthesis, serum calcium, and phosphorus levels; the induction of insulin resistance; and by increasing the resistance to oxidative stress.
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PMID:Klotho gene, phosphocalcic metabolism, and survival in dialysis. 1912 71

The commonest medical conditions following menopause are osteoporosis and atherosclerotic disease. This review considers the safety of pharmacotherapy of osteoporosis in cardiology patients. Drugs used for osteoporosis treatment may have adverse effects on the cardiovascular system. This article has detailed analysed of current drug classes, such as the bisphosphonates and strontium ranelate, as well as reviewed of the controversy surrounding hormone replacement therapy (HRT) and the selective estrogen receptor modulators (SERMs). Additionally, we discuss the adverse effects on the heart of calcium and drugs influencing calcium metabolism such as vitamin D, parathormone and calcitonin. We look at the interference between osteoporosis treatment and the drugs used for atherosclerosis. Moreover, the side effects on bones of cardiology drugs are analysed. Lastly, the possible advantages of selected drugs used for cardiovascular diseases in terms of osteoporosis prevention are evaluated.
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PMID:Safety of pharmacotherapy of osteoporosis in cardiology patients. 2069 88


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