Probiotics Mitigates Skeletal Muscle Atrophy in Isoproterenol-Induced Heart Failure Adult Rats; by Increasing IGF-I Gene Expression and Improving Insulin Sensitivity | ||||
The Medical Journal of Cairo University | ||||
Article 24, Volume 87, September, September 2019, Page 2907-2924 PDF (1.27 MB) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/mjcu.2019.59330 | ||||
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Authors | ||||
MANAL S. ABD-EL HAMID, M.D.; ABD EL-HAMID A. MOHAMED, M.D.; NAYRA S.H. MEHANNA, Ph.D. | ||||
The Department of Physiology, Faculty of Medicine, Ain Shams University* and The Department of Dairy Science, National Research Centre, Dokki**, Cairo, Egypt | ||||
Abstract | ||||
Abstract Background: Skeletal muscle atrophy is a common com-plication of heart failure that may result from the accompanying neuro-hormonal disturbances. Altered gut microbiome can mediate these neuro-hormonal disturbances. Growing evidenc-es pointed to the health benefits of probiotics. Aim of Study: To evaluate the effects of probiotics on skeletal muscle state in ISO-induced HF and the underlying mechanisms. Material and Methods: 21 male adult rats were divided into: Control group (C), ISO-HF group; rats were injected with isoproterenol (ISO) 5mg/kg/d IP for 7 days and Pro-T group which were given probiotics by oral gavage for 6 weeks after ISO injection. Plasma Ang II, insulin, glucose, skeletal muscle atrogin and cardiac BNP levels were measured. Also relative gene expression of skeletal muscle IGF-1, IRS-1, NADPH oxidase was assessed. Cardiac and skeletal muscle tissues were weighed and histopathologically assessed. Results: In pro T group, cardiac BNP, plasma Ag II, left ventricular weight and LV/BW ratio were significant reduced. Also, skeletal muscle atrogin and NADPH oxidase were significantly decreased with a significant increase in skeletal muscle weight, IGF-1 and IRS-1 relative gene expression. In addition, probiotics decreased insulin resistance, plasma glucose, insulin levels and HOMA-IR score. This was accom-panied by the restoration of normal collagen distribution and cardiac muscle distinct cell borders and skeletal muscle distinct cell borders. Conclusion: Probiotics mitigates muscle atrophy in ISO-HF by lowering Ang II and by their anti-oxidant, anti-fibrotic, anti-hypertrophic and anti-hyperglycemic effects. | ||||
Keywords | ||||
probiotics; Isoprotrenol-induced heart failure; Angiotensin-II; Skeletal muscle atrophy; IGF-1; Muscle atrogin | ||||
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