Memory Enhancing Effect of Black Pepper in the AlCl3 Induced Neurotoxicity Mouse Model is Mediated Through Its Active Component Chavicine

Memory Enhancing Effect of Black Pepper in the AlCl3 Induced Neurotoxicity Mouse Model is Mediated Through Its Active Component Chavicine

Black pepper (Piper nigrum Linn.) has vital pharmacological properties with profound effects on central nervous system. Neurotoxic agents like Aluminum Chloride (AlCl3) cause the oxidative stress and result in improper processing of amyloid proteins leading to accumulation of amyloid β plaques. The...

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Bibliographic Details
Published in:Current pharmaceutical biotechnology Vol. 17; no. 11; p. 962
Main Authors: Iqbal, Ghazala, Iqbal, Anila, Mahboob, Aamra, Farhat, Syeda M, Ahmed, Touqeer
Format: Journal Article
Language:English
Published: Netherlands 01-09-2016
Subjects:
Aluminum Compounds - toxicity
Amyloid beta-Peptides - metabolism
Animals
Chlorides - toxicity
Disease Models, Animal
Fear - drug effects
Fear - physiology
Hippocampus - drug effects
Hippocampus - metabolism
Male
Maze Learning - drug effects
Maze Learning - physiology
Memory - drug effects
Memory - physiology
Mice
Mice, Inbred BALB C
Neurotoxicity Syndromes - drug therapy
Neurotoxicity Syndromes - metabolism
Nootropic Agents - isolation & purification
Nootropic Agents - pharmacology
Nootropic Agents - therapeutic use
Oxidative Stress - drug effects
Oxidative Stress - physiology
Piper nigrum
Plant Extracts - isolation & purification
Plant Extracts - pharmacology
Plant Extracts - therapeutic use
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Summary:Black pepper (Piper nigrum Linn.) has vital pharmacological properties with profound effects on central nervous system. Neurotoxic agents like Aluminum Chloride (AlCl3) cause the oxidative stress and result in improper processing of amyloid proteins leading to accumulation of amyloid β plaques. The study aimed to explore the neuroprotective potential of black pepper (BP) extract (12.5mg/kg/day) on memory enhancement and its effect on expression of amyloid precursor protein (APP) isoforms (APP770 and APP695) in AlCl3 induced neurotoxicity (250mg/kg) mouse model. The study included the isolation and identification of pure compound from BP (chavicine) which was found pharmacologically active. Morris water maze test, elevated plus maze, fear conditioning, context and cue dependent test and social preference tests were performed to investigate the learning and memory. Gene expression (APP isoforms) and in-vitro and ex-vivo DPPH free radical scavenging activity were performed to evaluate the role of BP. BP significantly improved memory in AlCl3 induced neurotoxicity mouse model along with effectively decreasing the expression of APP770 (amyloidogenic) isoform and improved level of APP695 (non-amyloidogenic) in hippocampus, amygdala and cortex. Fear extinction learning was considerably improved in BP treated group (7.83±2.03) than AlCl3 induced neurotoxicity group (39.75±4.25). In the hippocampus, BP significantly reduced the expression of APP770 (0.37±0.05) as compared to AlCl3 induced neurotoxicity group (0.72±0.06), and effectively increased (34.80±1.39) the percentage inhibition of DPPH free radicals as compared to AlCl3 induced neurotoxicity group (14±2.68). The study revealed that BP improves memory and chavicine is a lead compound producing pharmacological effects of BP.
ISSN:1873-4316
DOI:10.2174/1389201017666160709202124