Increased oxidative stress is a widely accepted factor in the development and progression of Alzheimer's disease. Here, we introduce chitosan, an antioxidant oligosaccharide, as a protective agent against H(2)O(2)/FeSO(4)-induced cell death in the NT2 neural cell line. Chitosan not only protects the neurons against cell death, as measured by MTT and caspase-3 activity, but also decreases amyloid beta formation. NT2 neurons can be used to elucidate the relationship between oxidative stress and Abeta formation. We induced Abeta formation through oxidative stress in NT2 neurons and studied the effect of chitosan. We demonstrate that chitosan can be neuroprotective by suppressing Abeta formation. We further show that chitosan exerts its protective effect by up-regulation of HO-1, gamma-GCS, Hsp-70, and Nrf2, while it inhibits activation of caspase-3 and NF-kappaB. Chitosan or chitosan derivatives have potential value as neuroprotective agents, particularly with regard to oxidative stress.
Background and the purpose of the studyNatural products from plants have an important role in the development and production of new drugs mainly for cancer therapy. More recently, we have shown that the pericarp methanolic extract of Pistacia atlantica sub kurdica (with local name of Baneh) as a rich source of active biological components with high antioxidant and radical scavenging activities, has ability to cease proliferation and induce apoptosis in T47D human breast cancer cells. The present study aimed to clarify whether Baneh extract able to alter cell cycle progression of T47D cells or not.MethodsIn order to study the possible effect of Baneh extract on cell cycle of T47D cells, we evaluated cell cycle distribution and its regulatory proteins by flow cytometry and western blot analysis respectively.ResultsBaneh extract induced G0/G1 cell cycle arrest in conjunction with a marked decrease in expression of cyclin D1 and cdk4 that was strongly dependent on time of exposure. In parallel, Dox-treated T47D cells in early time points were accumulated on S phase, but after 48 h cell cycle progression was inhibited on G2/M. Dox promoted striking accumulation of cyclin B1 rapidly and enhanced cyclin A abundance.ConclusionTaken together, our results establish that the antitumor activity of the pericarp extract of Baneh partly is mediated via cell cycle arrest and downregulation of cyclin D1 and cdk4 expression. These findings warrant further evaluation regarding the mechanism(s) of action of this promising anticancer agent.
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