Hany Ahmed M. Omar

Associate Professor

C.V


Welcome and thank you for taking time to visit my website. My intention always is to be as helpful as possible share whatever information that I have as widely as possible. I do however understand how important it is for people to know that they can come to me in confidence so the website will not contain any personal issues unless it has the constant for the individual. Please have a look around the site and drop me an email on your thoughts. I’m also keen to hear of other issues that you think I should be looking into. ,Regards Dr. Hany A. Omar

هانى
  • Birth Date:8/25/1975

  • Phone No:01000882888

  • E-mail:hany.omar@pharm.bsu.edu.eg

  • Address:Department of of Pharmacology & Toxicology Faculty of Pharmacy, Beni-Suef University

Subjects


Publications


3/5/2015

Khaled R. Abdellatif, Phoebe F. Lamie, Hany A. Omar. 3-Methyl-2-phenyl-1-substituted-indole derivatives as indomethacin analogs: design, synthesis and biological evaluation as potential anti-inflammatory and analgesic agents. Journal of Enzyme Inhibition and Medicinal Chemistry, 2015 Mar 23:1-7

In a new group of 3-methyl-2-phenyl-1-substituted-indole derivatives (10a–f), the indomethacin analogs were prepared via the Fisher indole synthesis reaction of propiophenone with appropriately substituted phenylhydrazine hydrochloride. This is followed by the insertion of the appropriate benzyl or benzoyl fragment. All the synthesized compounds were evaluated for their anti-inflammatory (in vitro and in vivo) and analgesic activities. The methanesulphonyl derivatives 10d, e and f showed the highest anti-inflammatory (in vitro and in vivo) and analgesic activities. In addition, molecular docking studies were performed on compounds 10a–f and the results were in agreement with that obtained from the in vitro COX inhibition assays. The significant anti-inflammatory and analgesic activities exhibited by 10d and 10e warrant continued preclinical development as potential anti-inflammatory and analgesic agents. Read More: http://informahealthcare.com/doi/abs/10.3109/14756366.2015.1022174

6/1/2015

Samir A. Salama, Mohammad S. Al-Harbi, Mohamed S. Abdel-Bakky, Hany A. Omar. Glutamyl cysteine dipeptide suppresses ferritin expression and alleviates liver injury in iron-overload rat model. Biochimie, June 2015. 115, 203-211

Despite its biological importance, iron is a pro-oxidant element and its accumulation results in tissue injury. Iron overload diseases such as thalassemia and hereditary hemochromatosis are commonly associated with liver tissue injury. Glutamyl cysteine (GC) is a dipeptide with antioxidant properties owing to its cysteine residue. The aim of the current work was to investigate the hepatoprotective effect of GC against iron overload-induced liver injury. Rats were distributed into five groups; normal control, GC control, iron-treated (150 mg/kg ip injection) and both iron and GC-treated (total iron: 150 mg/kg ip and GC: 50 mg or 100 mg/kg/day ip for 30 days). Our results showed that treatment with GC at the two-dose levels attenuated iron-induced liver tissue injury as evidenced by significant reduction in serum activity of liver enzymes ALT and AST, amelioration of iron-induced histopathological alteration, suppression of iron-induced oxidative stress as demonstrated by significant reduction of malondialdehyde and protein carbonyl content beside elevation of total antioxidant capacity, reduced glutathione and the antioxidant enzymes GPx and SOD in liver tissue. In addition, GC significantly reduced levels of the proinflammatory cytokines TNF-a, IL-6 and IL-1ß and activity of the apoptotic marker caspase-3 in liver tissues. To our surprise, GC reduced liver iron content and ferritin expression, denoting the possible iron chelation competency. Collectively our results highlight evidence for the hepatoprotective effect of GC against iron overload-induced liver injury that is potentially mediated through suppression of oxidative tissue injury, attenuation of inflammatory response, amelioration of hepatocellular apoptosis and possibly through iron chelation.

6/5/2015

Kuan-Han Lee, Hany A. Omar, Shu-Jing Wu, Pin-Shern Chen, Yu-Chung Chen, Yen-Ni Teng, Hung-Chang Huang, Clay C. C. Wang and Jui-Hsiang Hung. The effect of reactive oxygen species produced by 6-shogaol on cell cycle progression and cell death-associated signaling pathways in human hepatoma cells. European Journal of Pharmacology, June 2015, 762(5) 449–458

Shogaols are a group of the active constituents of ginger that have been identified to have various biological activities. The aim of the current study was to investigate the antitumor activity of 6-shogaol in hepatocellular carcinoma (HCC) and the possible involvement of reactive oxygen species as a putative mechanism of action. HCC cell lines, HepG2 and Huh-7, were used to study the in vitro anti-cancer activity of 6-shogaol via the application of various molecular biology techniques. Results showed that 6-shogaol effectively inhibited the cell viability, caused cell cycle arrest at G2/M phase and induced apoptosis in HCC cells as indicated by MTT assay, DAPI nuclear staining, annexin V assay, cell cycle analysis, and activation of caspase-3. Western blot analysis revealed the ability of 6-shogaol to target cancer survival signaling pathways mediated by mitogen-activated protein kinase (MAPK), 5' AMP-activated protein kinase (AMPK) and Akt. In addition, 6-Shogaol induced alteration of cyclin proteins expression and caused cleavage of protein kinase C delta. Furthermore, 6-Shogaol was able to induce the production of reactive oxygen species and endoplasmic reticulum (ER) stress-associated proteins and the consequent activation of autophagy in HepG2 cells. Taken together, the current study highlights evidences that 6-shogaol induces apoptosis, modulates cyclins expression and targets cancer survival signaling pathways in HCC cell lines, at least in part, via the production of reactive oxygen species. These findings support 6-shogaol's clinical promise as a potential candidate for HCC therapy

3/2/2015

Hany H. Arab, Samir A. Salama, Hany A. Omar, El-Shaimaa A. Arafa and Ibrahim A. Maghrabi. Diosmin protects against ethanol-induced gastric injury in rats: Novel anti-ulcer actions. PLoS ONE, March, 2015, 30;10(3):e0122417

Alcohol consumption has been commonly associated with gastric mucosal lesions including gastric ulcer. Diosmin (DIO) is a natural citrus flavone with remarkable antioxidant and anti-inflammatory features that underlay its protection against cardiac, hepatic and renal injuries. However, its impact on gastric ulcer has not yet been elucidated. Thus, the current study aimed to investigate the potential protective effects of DIO against ethanol-induced gastric injury in rats. Pretreatment with DIO (100 mg/kg p.o.) attenuated the severity of ethanol gastric mucosal damage as evidenced by lowering of ulcer index (UI) scores, area of gastric lesions, histopathologic aberrations and leukocyte invasion. These actions were analogous to those exerted by the reference antiulcer sucralfate. DIO suppressed gastric inflammation by curbing of myeloperoxidase (MPO) and tumor necrosis factor-a (TNF-a) levels along with nuclear factor kappa B (NF-?B) p65 expression. It also augmented the anti-inflammatory interleukin-10 (IL-10) levels. Meanwhile, DIO halted gastric oxidative stress via inhibition of lipid peroxides with concomitant enhancement of glutathione (GSH), glutathione peroxidase (GPx) and the total antioxidant capacity (TAC). With respect to gastric mucosal apoptosis, DIO suppressed caspase-3 activity and cytochrome C (Cyt C) with enhancement of the anti-apoptotic B cell lymphoma-2 (Bcl-2) in favor of cell survival. These favorable actions were associated with upregulation of the gastric cytoprotective prostaglandin E2 (PGE2) and nitric oxide (NO). Together, these findings accentuate the gastroprotective actions of DIO in ethanol gastric injury which were mediated via concerted multi-pronged actions, including suppression of gastric inflammation, oxidative stress and apoptosis besides boosting of the antioxidant and the cytoprotective defenses.

Researches


Research areas


Molecular mechanisms of anticancer drugs

Treatment of hepatocellular carcinoma

Molecular pharmacology

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