Mahalaqua Nazli Khatib

Cardioprotective effects of ghrelin in heart failure: From gut to heart

Chronic heart failure (CHF) is a major cause of morbidity and mortality. Cardioprotective effects of ghrelin, especially in its acylated form have been demonstrated in heart failure (HF) models and exploratory human clinical studies. Hence, it has been proposed for the treatment of HF. However, the underlying mechanism of its protective effects against HF remains unclear. Future researches are needed to evaluate the efficacy of Ghrelin as a new biomarker and prognostic tool and for exploring its therapeutic potential in patients suffering from CHF.

Effect of Ghrelin on Mortality and Cardiovascular Outcomes in Experimental Rat and Mice Models of Heart Failure: A Systematic Review and Meta-Analysis

Background Heart failure (HF) continues to be a challenging condition in terms of prevention and management of the disease. Studies have demonstrated various cardio-protective effects of Ghrelin. The aim of the study is to determine the effect of Ghrelin on mortality and cardiac function in experimental rats/mice models of HF. Methods Data sources: PUBMED, Scopus. We searched the Digital Dissertations and conference proceedings on Web of Science. Search methods: We systematically searched for all controlled trials (upto November 2014) which assessed the effects of Ghrelin (irrespective of dose, form, frequency, duration and route of administration) on mortality and cardiac function in rats/ mice models of HF. Ghrelin administration irrespective of dose, form, frequency, duration and route of administration. Data collection and analysis: Two authors independently assessed each abstract for eligibility and extracted data on characteristics of the experimental model used, intervention and outcome measures. We assessed the methodological quality by SYRCLE’s risk of bias tool for all studies and the quality of evidence by GRADEpro. We performed meta-analysis using RevMan 5.3. Results A total of 325 animals (rats and mice) were analyzed across seven studies. The meta-analysis revealed that the mortality in Ghrelin group was 31.1% and in control group was 40% (RR 0.83, 95% CI 0.46 to 1.47) i.e Ghrelin group had 68 fewer deaths per 1000 (from 216 fewer to 188 more) as compared to the control group. The meta-analysis reveals that the heart rate in rats/mice on Ghrelin was higher (MD 13.11, 95% CI 1.14 to 25.08, P=0.66) while the mean arterial blood pressure (MD -1.38, 95% CI -5.16 to 2.41, P=0.48) and left ventricular end diastolic pressure (MD -2.45, 95% CI -4.46 to -0.43, P=0.02) were lower as compared to the those on placebo. There were insignificant changes in cardiac output (SMD 0.28, 95% CI -0.24 to 0.80, P=0.29) and left ventricular end systolic pressure (MD 1.48, 95% CI -3.86 to 6.82, P=0.59). Conclusions The existing data provides evidence to suggest that Ghrelin may lower the risk of mortality and improve cardiovascular outcomes. However; the quality of evidence as assessed by GRADEpro is low to very low. Clinical judgments to administer Ghrelin to patients with HF must be made on better designed animal studies.

Ghrelin O Acyl Transferase (GOAT) as a Novel Metabolic Regulatory Enzyme

BACKGROUND Obesity and Type 2 Diabetes Mellitus (T2DM) presents a growing threat to the global health. Evidences highlight an important role of ghrelin as a key regulator of glucose metabolism. The physiological functions of ghrelin are mediated by enzyme ghrelin-O-acyltransferase (GOAT) which is capable of generating the active form of this metabolic hormone. However, its exact mechanism of action and influence on energy balance and glucose metabolism is yet to be explored. OBJECTIVES To review the physiological role of GOAT in the regulation of energy balance and glucose metabolism and explore the potential therapeutic avenues of modulators of GOAT to counter the progression of obesity and T2DM. METHODS Publications were sought through electronic searches. The bibliographies of all papers, book, chapters and editorials were scanned and hand searches were also conducted for journals, and conference proceedings. CONCLUSION GOAT peptide modulates the insulin secretion as well as insulin sensitivity. Modulators of GOAT signaling like inhibitors of GOAT increases insulin secretion, enhance peripheral insulin sensitivity and thus counters obesity and T2DM. Modulators of GOAT can be a probable therapy for modifying food intake and for countering obesity and T2DM.

Somatotropic and cardio-protective effects of ghrelin in experimental models of heart failure: A systematic review

Background: Ghrelin was initially recognized as an endogenous ligand of growth hormone secretagogue receptor and was implicated in the regulation of food intake, and promoting weight gain. Ghrelin has been shown to improve cardiac function in patients suffering from heart failure (HF) though various mechanisms. The aim of the review is to summarize the main findings in this field, with the purpose of promoting further studies on the role of ghrelin on the cardiovascular system. Materials and Methods: All publications describing trials, systematic reviews, meta-analyses and review papers published within 1999-2014 of ghrelin in animal models of HF were sought through electronic and manual searches. Results: The literature searches identified 126 references and ten trials meeting the inclusion criteria were included in this review. All studies were carried out on male rats and experimental model of HF. Ghrelin has been shown to reduce mortality, increase appetite and body weight, and was found to improve the cardiac function parameters. Review found deficient information about adverse effects of ghrelin. Ghrelin exerts cardioprotective effects through modulation of sympathetic nervous system, inhibiting autophagy, antiinflammatory effects and protection against ischemia/reperfusion injury. Conclusion: Ghrelin seems to have a beneficial effect in rat models of HF and can offer an effective therapeutic target for improving outcome in HF.

Ghrelin as a Promising Therapeutic Option for Cancer Cachexia

Cachexia is a devastating complication of cancer and an important cause of morbidity and mortality and can have a great effect on quality of life, and sense of self-esteem. Unfortunately; there is no standard cure available for cancer cachexia. Ghrelin; a 28 amino acid orexigenic gut hormone and its mimetics have shown potential benefits in reversing the breakdown of protein and weight loss in catabolic states like cancer cachexia. Ghrelin has effects on several vital pathways in the regulation of appetite, and composition of the body. It increases the secretion of growth hormone and reduces energy expenditure. It plays an important role in regulation of processes associated with cancer and antagonizing protein breakdown in catabolic conditions such as cancer cachexia. Additionally, ghrelin has anti-inflammatory, anti-apoptotic and anxiolytic effects. Administration of ghrelin for short-term has been found to be well-tolerated and safe. These versatile actions of ghrelin and its safety can render it as a potentially useful novel therapy for patients with cancer cachexia. However; there is a need to generate more evidence to support the use of ghrelin in the management of cancer cachexia.