Lithocholic acid, a putative tumor promoter, inhibits mammalian DNA polymerase beta.

Lithocholic acid (LCA), one of the major components in secondary bile acids, promotes carcinogenesis in rat colon epithelial cells induced by N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), which methylates DNA. Base-excision repair of DNA lesions caused by the DNA methylating agents requires DNA polymerase beta (pol beta). In the present study, we examined 17 kinds of bile acids with respect to inhibition of mammalian DNA polymerases in vitro. Among them, only LCA and its derivatives inhibited DNA polymerases, while other bile acids were not inhibitory. Among eukaryotic DNA polymerases alpha, beta, delta, epsilon, and gamma, pol beta was the most sensitive to inhibition by LCA. The inhibition mode of pol beta was non-competitive with respect to the DNA template-primer and was competitive with the substrate, dTTP, with the Ki value of 10 microM. Chemical structures at the C-7 and C-12 positions in the sterol skeleton are important for the inhibitory activity of LCA. This inhibition could contribute to the tumor-promoting activity of LCA.

DNA polymerase α

DNA polymerase β

DNA polymerase γ

DNA polymerase δ

DNA polymerase η

dithiothreitol

methyl methanesulfonate

dimethyl sulfoxide

N‐methyl‐N′‐nitro‐N‐nitrosoguanidine

lithocholic acid

cholic acid

sodium cholate

chenodeoxycholic acid

sodium chenodeoxycholate

deoxycholic acid

sodium deoxycholate

glycolithocholic acid

sodium taurolithocholate

sodium tauroursodeoxycholate

sodium taurocholate

sodium glycocholate

sodium taurochenodeoxycholate

sodium glycochenodeoxycholate

sodium taurodeoxycholate

sodium glycodeoxycholate

sulfolithocholic acid sodium salt

sulfotaurolithocholic acid disodium salt

sulfoglycolithocholic acid disodium salt