Eman M.A. Abdelghany scite author profile

Aim A growing interest to understand the signaling pathways mediating obesity‐induced muscle atrophy is given. Metformin (Met) was reported to possess positive effects on preventing muscle damage and promoting muscle mass maintenance. The aim of the present study to investigate pathways involved in Met effect on obesity induced muscle atrophy. Methods Thirty adult male albino rats were assigned into two groups: normal chew diet fed group as control group (C; n = 10) and high‐fat‐diet (HFD) fed group ( n = 20). After 16 weeks, the HFD‐fed animals were subdivided into two groups; HFD group ( n = 10) and HFD fed treated with oral Met (320 mg/day) treatment (Met, n = 10) for 4 weeks. At the end of the experiment; final body weight, visceral fat weight, fasting blood glucose, insulin, lactate, total cholesterol, triglycerides were measured and calculated homeostatic model assessment insulin resistant (HOMA‐IR) for all groups. Soleus muscle weight, histopathlogical examination and expression of peroxisome proliferator‐activated receptor‐γ coactivator‐1α (PGC‐1α), forkhead box O3 (FoxO3), atrogin‐1/MAFbx, and muscle RING finger 1 (MuRF‐1) were performed. Results HFD‐fed animals showed significant increase in final body weight, visceral fat mass, fasting blood glucose, insulin, calculated HOMA‐IR, lactate, total cholesterol and triglycerides with significant decrease in soleus muscle weight, PGC‐1α and significant increase in FoxO3, atrogin‐1/MAFbx, and MuRF‐1 expression. Also, there was significant decrease in fiber diameter, myosin heavy chain (MHC) I content while collagen content and myosin heavy chain IIa were increased compared with control group. Met‐treated group showed a significant decrease in the measured parameters compared with the HFD group. It also restored the gene expression, morphometric measures and MHC composition toward normal. Conclusion The current study is the first to provide evidence that Met could ameliorate muscle atrophy in high‐fat diet induced obesity and this effect may be in part due to regulation of PGC‐1α‐FoxO3 pathway.

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Anti-Inflammatory and Immunomodulatory Role of Bone Marrow-Derived MSCs in Mice with Acute Lung Injury

Abdelmoneim

El-Naenaeey

Abd-Allah

et al. 2021

Journal of Interferon & Cytokine Research

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Beneficial Effect of Quercetin Against Dimethoate Induced Cerebellar Cortex Injury in Adult Male Albino Rat: Histological and Immunohistochemical Study

Erfan¹,

Ali

El-Naby³

et al. 2019

The Medical Journal of Cairo University

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Effect of Bone-Marrow-Derived Mesenchymal Stem Cells on the Healing of Bone Fractures

Mohammed

Elsattar

Abd-Allah

et al. 2021

Journal of Interferon & Cytokine Research

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This study was performed to evaluate the effectiveness of mesenchymal stem cells (MSCs) on bone healing and to assess the role of various chemical stimulants and mediators in healing. Forty female mice were randomly assigned to 4 groups (10 mice each) after the induction of fixed fractures: group I: received fixation only; group II: received phosphate-buffered saline (PBS); group III: received intralesion MSCs (IL-MSCs); and group IV: received intraperitoneal MSCs (IP-MSCs). Serum alkaline phosphatase (ALP) levels and the expression of the osteocalcin (OCN), bone morphogenetic protein-2 (BMP-2), and stromal-derived factor-1 (SDF-1) genes were measured. ALP reached baseline level only in IL-MSCs, whereas OCN reached baseline level in MSCs recipients (IL-MSCs and IP-MSCs). BMP-2 significantly increased in MSCs recipients 3 weeks postfracture and increased in all groups 8 weeks postfracture with significant increases in MSC recipients than the fixation and PBS groups. The highest BMP-2 expression was reached in IL-MSC group. MSCs either locally or systemically improves or accelerates the healing of bone fractures with better results obtained after local injection, as shown by biochemical, radiological, and histological findings. MSCs are effective candidates for bone regeneration.

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Mechanistic aspects of ameliorative effects of Eicosapentanoic acid ethyl ester on methotrexate-evoked testiculopathy in rats

Abbas

El-Sayed

El-Fatah

et al. 2023

Naunyn-Schmiedeberg's Arch Pharmacol

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Disrupted spermatogenesis and testicular injury are among the devastating outcomes of methotrexate. A major contributor to methotrexate-induced testiculopathy is oxidative damage which triggers apoptosis and altered autophagy responses. Eicosapentaenoic acid ethyl ester (EPA-E) is an antihyperlipidemic derivative of omega-3 fatty acids that exhibited affinity to peroxisome proliferator-activated receptor-γ (PPAR-γ) that possesses both antioxidant and autophagy modulating properties. This is an exploratory study aiming at assessing the effectiveness of EPA-E to alleviate testicular damage induced by methotrexate. The specific exploratory hypothesis of this experiment is: EPA-E administration for 1 week to methotrexate-treated rats reduces testicular damage compared to control rats. As a secondary outcome, we were interested in identifying the implicated mechanism that mediates the action of EPA-E. In adult male Wistar rats, testiculopathy was achieved by a single methotrexate injection (20 mg/kg, ip). Rats received vehicle, EPA-E (0.3 g/kg/day, po) alone or with selective PPAR-γ antagonist (bisphenol A diglycidyl ether, BADGE) at 30 mg/kg/day, ip for 1 week. EPA-E recuperated methotrexate-attenuated serum total testosterone while reduced testicular inflammation and oxidative stress, restoring superoxide dismutase (SOD) while reducing malondialdehyde (MDA) and 8–hydroxy–2′-deoxyguanosine (8-OHdG). Methotrexate-induced testicular apoptosis (caspase-3 and p53) was suppressed upon EPA-E treatment. Besides, EPA-E curbed methotrexate-induced abnormal autophagy by downregulating LC3A/B and beclin-1. Interestingly, BADGE-coadministration reversed EPA-E beneficial actions. Collectively, our findings suggest PPAR-γ role in EPA-E-mediated mitigation of methotrexate-evoked testiculopathy via suppression of oxidative stress, apoptosis, as well as abnormal autophagy. Furthermore, EPA-E could be used as a preventive therapy for some testiculopathies mediated by oxidative stress. Graphical Abstract

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