1. Acetylcholinesterase, butyrylcholinesterase and paraoxonase 1 activities in rats treated with cannabis, tramadol or both
Omar M.E. ABDEL-SALAM ; Eman R. YOUNESS ; Yasser A. KHADRAWY ; Amany A. SLEEM
Asian Pacific Journal of Tropical Medicine 2016;9(11):1089-1094
Objective To investigate the effect of Cannabis sativa resin and/or tramadol, two commonly drugs of abuse on acetylcholinesterase and butyrylcholinesterase activities as a possible cholinergic biomarkers of neurotoxicity induced by these agents. Methods Rats were treated with cannabis resin (5, 10 or 20 mg/kg) (equivalent to the active constituent Δ
2. Neuroprotection by misoprostol against rotenone-induced neurotoxicity in rat brain
Omar M.E. ABDEL-SALAM ; Amany A SLEEM ; Eman R YOUNESS ; Nadia A MOHAMMED ; Enayat A OMARA ; Omar M.E. ABDEL-SALAM
Asian Pacific Journal of Tropical Medicine 2018;11(1):40-47
Objective: To investigate the effect of the prostaglandin E1 analogue misoprostol on oxidative stress and neurodegeration caused by subcutaneous rotenone administration in rats. Methods: Rotenone was administered in a dose of 1.5 mg/kg every other day for 2 weeks. Starting from the 1st day of rotenone injection, rats were subcutaneously treated with misoprostol at doses of 10, 100 or 1 000
3. Nitric oxide synthase inhibitors protect against brain and liver damage caused by acute malathion intoxication
Omar M.E. ABDEL-SALAM ; Eman R. YOUNESS ; Nadia A. MOHAMMED ; Safinaz Ebrahim EL-TOUKHY ; Noha N. YASSEN ; Yasser A. KHADRAWY ; Amany A. SLEEM
Asian Pacific Journal of Tropical Medicine 2017;10(8):773-786
Objective To investigate the effect of N
4. Bougainvillea spectabilis flowers extract protects against the rotenone-induced toxicity
Omar M.E. ABDEL-SALAM ; Eman R. YOUNESS ; Nadia A. AHMED ; Sayed A. EL-TOUMY ; Ahmed M.A. SOULEMAN ; Nermeen SHAFFIE ; Dalia M. ABOUELFADL
Asian Pacific Journal of Tropical Medicine 2017;10(5):478-490
Objective To investigate the effect of two extracts of Bougainvillea spectabilis (B. spectabilis) flowers with yellow and pink/purple on brain oxidative stress and neuronal damage caused in rats by systemic rotenone injection. Methods Rotenone 1.5 mg/kg was given three times per week alone or in combination with B. spectabilis flowers extracts (25 mg or 50 mg) via the subcutaneous route for 2 weeks. Brain concentrations of the lipid peroxidation marker malondialdehyde (MDA), reduced glutathione, nitric oxide (nitrite), the pro-inflammatory cytokine interleukin-1beta (Il-1β) as well as butyrylcholinesterase, and paraoxonase-1 (PON-1) activities, were determined. Histopathology and caspase-3 immunohistochemistry were also performed. Results Rotenone resulted in significant increases of brain MDA (the product of lipid peroxidation), and nitric oxide content along with decreased brain reduced glutathione. There were also marked and significant inhibition of brain PON-1 and BChE activities and increased Il-1β in brain of rotenone-treated rats. B. spectabilis flowers extract itself resulted in brain oxidative stress increasing both lipid peroxidation and nitrite content whilst inhibiting PON-1 activity. The yellow flowers extract inhibited BChE activity and increased brain Il-1β. When given to rotenone-treated rats, B. spectabilis extracts, however, decreased lipid peroxidation while their low administered doses increased brain GSH. Brain nitrite decreased by the pink extract but showed further increase by the yellow extract. Either extract, however, caused further inhibition of PON-1 activity while the yellow extract resulted in further inhibition of BChE activity. Histopathological studies indicated that both extracts protected against brain, liver and kidney damage caused by the toxicant. Conclusions These data indicate that B. spectabilis flowers extracts exert protective effect against the toxic effects of rotenone on brain, liver and kidney. B. spectabilis flowers extracts decreased brain lipid peroxidation and prevented neuronal death due to rotenone and might thus prove the value in treatment of Parkinson's disease.
5. Novel neuroprotective and hepatoprotective effects of citric acid in acute malathion intoxication
Omar M.E. ABDEL-SALAM ; Eman R. YOUNESS ; Nadia A. MOHAMMED ; Safinaz Ebrahim EL-TOUKHY ; Noha N. YASSEN ; Yasser A. KHADRAWY ; Amany A. SLEEM
Asian Pacific Journal of Tropical Medicine 2016;9(12):1181-1194
Objective To study the effect of citric acid given alone or combined with atropine on brain oxidative stress, neuronal injury, liver damage, and DNA damage of peripheral blood lymphocytes induced in the rat by acute malathion exposure. Methods Rats were received intraperitoneal (i.p.) injection of malathion 150 mg/kg along with citric acid (200 or 400 mg/kg, orally), atropine (1 mg/kg, i.p.) or citric acid 200 mg/kg + atropine 1 mg/kg and euthanized 4 h later. Results Malathion resulted in increased lipid peroxidation (malondialdehyde) and nitric oxide concentrations accompanied with a decrease in brain reduced glutathione, glutathione peroxidase (GPx) activity, total antioxidant capacity (TAC) and glucose concentrations. Paraoxonase-1, acetylcholinesterase (AChE) and butyrylcholinesterase activities decreased in brain as well. Liver aspartate aminotransferase and alanine aminotransferase activities were raised. The comet assay showed increased DNA damage of peripheral blood lymphocytes. Histological damage and increased expression of inducible nitric oxide synthase (iNOS) were observed in brain and liver. Citric acid resulted in decreased brain lipid peroxidation and nitric oxide. Meanwhile, glutathione, GPx activity, TAC capacity and brain glucose level increased. Brain AChE increased but PON1 and butyrylcholinesterase activities decreased by citric acid. Liver enzymes, the percentage of damaged blood lymphocytes, histopathological alterations and iNOS expression in brain and liver was decreased by citric acid. Meanwhile, rats treated with atropine showed decreased brain MDA, nitrite but increased GPx activity, TAC, AChE and glucose. The drug also decreased DNA damage of peripheral blood lymphocytes, histopathological alterations and iNOS expression in brain and liver. Conclusions The study demonstrates a beneficial effect for citric acid upon brain oxidative stress, neuronal injury, liver and DNA damage due to acute malathion exposure.