Evaluation of cytotoxicity, oxidative stress and organ-specific effects of activated carbon from Al-Baha date palm kernels

BACKGROUND: Activated carbon (AC) is a carbonaceous material derived from carbonization and activation of carbon-containing compounds at high temperature and has a large surface area, providing it with excellent adsorption properties. Human exposure to ACs via ingestion is increasing and, unfortunately, there is little to no evidence related to its level of toxicity MATERIALS AND METHODS: Activated carbon of powdered date kernels from Al-Baha city in Saudi Arabia were used to treat rats and cell lines (HepG2 and HCT-116). Toxicity, microbiological tests and biochemical analyses were carried out to investigate biological activity of both commercially available AC (CAC), pharmaceutical AC (PAC) and AC from date palm kernels (AAC) RESULTS: None of the ACs showed activity on Staphylococcus aureus, Bacillus subtilis, Protius mirabilis and Escherichia coli. AAC showed the most cytotoxic effect on both HCT-116 and HepG2 cell lines after 24 h, with IC50 of 48.7 ± 17.2 µg/ml and 51 ± 6.24 µg/ml respectively. Rats treated with AAC for 48 h showed no impairment of hepatic and renal functions, unlike those exposed to CAC and PAC. Similarly, AAC-exposed rats did not show oxidative stress in both the liver and kidneys while CAC and PAC exposure resulted in depletion of CAT, GPx, SOD and GSH in both organs. L-arginase and α-fucosidase expression were also induced by both PAC and CAC while α-fucosidase levels were unaffected in AAC-exposed rats CONCLUSION: AAC appears to be biologically safe compared with PAC and CAC due to its antioxidant activities and non-effect on both hepatic and renal functions.