Antimutagenic effects of beta-carotene from Dunaliella salina
Abstract
AIM: To study the genotoxic and antimutagenic efficts of beta-carotene from Dunaliella salina (beta-CDS).
METHODS: The in vitro micronucleus and chromosomal aberration tests in hunman lymphocytes were adopted. The effect of beta-CDS on mutagensis induced by gamma-rays and mitomycin (Mit) was studied.
RESULTS: beta-CDS (1-30 mg.L-1) had no genotoxicity, but inhibited spontaneous and gamma-ray-induced micronucleus fromation and Mit-induced chromosomal aberrations in human lymphocytes in vitro. The genotoxic action of synthetic beta-carotene (S beta C) was suppressed, the antimutagenic effects were heightened when S beta C and beta-carotene oil (beta CO, one of the beta-CDS compositions) were mixed in proportion as 80:27.5.
CONCLUSION: beta-CDS is an antimutagenic agent.
Keywords:
METHODS: The in vitro micronucleus and chromosomal aberration tests in hunman lymphocytes were adopted. The effect of beta-CDS on mutagensis induced by gamma-rays and mitomycin (Mit) was studied.
RESULTS: beta-CDS (1-30 mg.L-1) had no genotoxicity, but inhibited spontaneous and gamma-ray-induced micronucleus fromation and Mit-induced chromosomal aberrations in human lymphocytes in vitro. The genotoxic action of synthetic beta-carotene (S beta C) was suppressed, the antimutagenic effects were heightened when S beta C and beta-carotene oil (beta CO, one of the beta-CDS compositions) were mixed in proportion as 80:27.5.
CONCLUSION: beta-CDS is an antimutagenic agent.