Galantamine mitigates neurotoxicity caused by doxorubicin via reduced neuroinflammation, oxidative stress, and apoptosis in rat model

M.A. Aldubayan, A.S. Alsharidah, S.K. Alenezi, A.H. Alhowail

Department of Pharmacology and Toxicology, College of Pharmacy, Qassim University, Buraydah, Al Qassim, Saudi Arabia. aalhowail@qu.edu.sa

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• Pharmacology

OBJECTIVE: Doxorubicin (DXR) is commonly used as a drug for cancer treatment. However, there have been reports of neurotoxicity associated with chemotherapy. Galantamine (GLN) is a medication that inhibits cholinesterase activity, providing relief from the neurotoxic effects commonly seen in individuals with Alzheimer’s disease. This study explored the potential ameliorative effect of GLN on brain neurotoxicity induced by DXR.

MATERIALS AND METHODS: Forty rats were allocated into four separate groups for a study that lasted for a period of fourteen days. The control group was given normal saline, DXR group was given 5 mg/kg DXR every three days (cumulative dose of 20 mg/kg) through intraperitoneal injection. The GLN group was given 5 mg/kg GLN through oral gavage daily, while the DXR+GLN group was given DXR+GLN simultaneously. An analysis of brain proteins using ELISA to assess apoptosis through the concentration of inflammation and oxidative injury markers.

RESULTS: The DXR treatment led to increased neuroinflammation by elevation of nuclear factor kappa B (NF-κB), and cyclooxygenase-2 (COX-2), oxidative stress by rise of malondialdehyde (MDA), and decline of superoxide dismutase (SOD), and no changes in catalase and glutathione (GSH), cell death by elevation of Bax and caspase-3 and reduced Bcl-2, and increase lipid peroxidation, impaired mitochondrial function. When GLN is administered alongside DXR, it has been observed to positively impact various biological markers, including COX-2, NF-κB, MDA, SOD, Bax, Bcl-2, and caspase-3 levels. Additionally, GLN improves lipid peroxidation and mitochondrial activity.

CONCLUSIONS: DXR therapy in rats results in the development of neurotoxicity, and a combination of GLN can recover these toxicities, suggesting GLN promising evidence for mitigating the neurotoxic effects induced by DXR.

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