Francis I. Achike scite author profile

SUMMARY1. Obesity is a metabolic disease of pandemic proportions largely arising from positive energy balance, a consequence of sedentary lifestyle, conditioned by environmental and genetic factors. Several central and peripheral neurohumoral factors (the major ones being the anorectic adipokines leptin and adiponecin and the orexigenic gut hormone ghrelin) acting on the anorectic (pro-opiomelanocortin and cocaine-and amphetamine-regulated transcript) and orexigenic (neuropeptide Y and agouti generelated protein) neurons regulate energy balance. These neurons, mainly in the arcuate nucleus of the hypothalamus, project to parts of the brain modulating functions such as wakefulness, autonomic function and learning. A tilt in the anorectic-orexigenic balance, perhaps determined genetically, leads to obesity.2. Excess fat deposition requires space, created by adipocyte (hypertrophy and hyperplasia) and extracellular matrix (ECM) remodelling. This process is regulated by several factors, including several adipocyte-derived Matrix metalloproteinases and the adipokine cathepsin, which degrades fibronectin, a key ECM protein. Excess fat, also deposited in visceral organs, generates chronic low-grade inflammation that eventually triggers insulin resistance and the associated comorbidities of metabolic syndrome (hypertension, atherosclerosis, dyslipidaemia and diabetes mellitus).3. The perivascular adipose tissue (PVAT) has conventionally been considered non-physiological structural tissue, but has recently been shown to serve a paracrine function, including the release of adipose-derived relaxant and contractile factors, akin to the role of the vascular endothelium. Thus, PVAT regulates vascular function in vivo and in vitro, contributing to the cardiovascular pathophysiology of the metabolic syndrome. Defining the mechanism of PVAT regulation of vascular reactivity requires more and better controlled investigations than currently seen in the literature.

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Nitric oxide, human diseases and the herbal products that affect the nitric oxide signalling pathway

Achike

Kwan

2003

Clin Exp Pharma Physio

118

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SUMMARY Nitric oxide (NO) is formed enzymatically from L -arginine in the presence of nitric oxide synthase (NOS).Nitric oxide is generated constitutively in endothelial cells via sheer stress and blood-borne substances. Nitric oxide is also generated constitutively in neuronal cells and serves as a neurotransmitter and neuromodulator in non-adrenergic, non-cholinergic nerve endings. Furthermore, NO can also be formed via enzyme induction in many tissues in the presence of cytokines.2. The ubiquitous presence of NO in the living body suggests that NO plays an important role in the maintenance of health. Being a free radical with vasodilatory properties, NO exerts dual effects on tissues and cells in various biological systems. At low concentrations, NO can dilate the blood vessels and improve the circulation, but at high concentrations it can cause circulatory shock and induce cell death. Thus, diseases can arise in the presence of the extreme ends of the physiological concentrations of NO.3. The NO signalling pathway has, in recent years, become a target for new drug development. The high level of flavonoids, catechins, tannins and other polyphenolic compounds present in vegetables, fruits, soy, tea and even red wine (from grapes) is believed to contribute to their beneficial health effects. Some of these compounds induce NO formation from the endothelial cells to improve circulation and some suppress the induction of inducible NOS in inflammation and infection.4. Many botanical medicinal herbs and drugs derived from these herbs have been shown to have effects on the NO signalling pathway. For example, the saponins from ginseng, ginsenosides, have been shown to relax blood vessels (probably contributing to the antifatigue and blood pressure-lowering effects of ginseng) and corpus cavernosum (thus, for the treatment of men suffering from erectile dysfunction; however, the legendary aphrodisiac effect of ginseng may be an overstatement). Many plant extracts or purified drugs derived from Chinese medicinal herbs with proposed actions on NO pathways are also reviewed.

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Information Overload in the Teaching of Pharmacology

Achike

Ogle

2000

The Journal of Clinical Pharma

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Medical students are usually drawn from the best of students, but it is not unusual to see these brilliant students fail their exams or even dismissed from medical school because of poor academic performance. Information overload has been recognized as one of the major contributing factors to this problem. The situation is expected to get worse, with the ever-present technology-induced exponential growth in information. In discussing this issue, the authors echo the concerns of several experts regarding the content overload of medical school curricula, particularly in pharmacology. It is the increasing awareness of this problem that led the Association of American Medical Colleges and the General Medical Council of Britain to promote the concept of a core curriculum for each of the principal disciplines in medicine. Several medical schools have adopted the concept and also the problem-based learning approach, which focuses on ameliorating the complex problems associated with information growth in medical education. Based on the authors' experience as medical students, medical practitioners, and pharmacology teachers, they discuss the factors that contribute to information overload, from psychological and nonpsychological perspectives. Issues such as the design and structure of the curriculum, the quality of training and effectiveness of the teachers (clinically qualified vs. nonclinically qualified teachers), and the psychological preparedness of the students are discussed. The authors make suggestions for improvement.

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Boldine protects endothelial function in hyperglycemia-induced oxidative stress through an antioxidant mechanism

Lau

Tian

Huang

et al. 2013

Biochemical Pharmacology

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Quercetin, a flavonoid antioxidant, modulates endothelium-derived nitric oxide bioavailability in diabetic rat aortas

et al. 2007

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Francis I. Achike

Obesity, metabolic syndrome, adipocytes and vascular function: A holistic viewpoint

Nitric oxide, human diseases and the herbal products that affect the nitric oxide signalling pathway

Information Overload in the Teaching of Pharmacology

Boldine protects endothelial function in hyperglycemia-induced oxidative stress through an antioxidant mechanism

Quercetin, a flavonoid antioxidant, modulates endothelium-derived nitric oxide bioavailability in diabetic rat aortas

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