The relevance of caffeine post-treatment to SCE incidence induced in Chinese hamster cells

The influence of caffeine post-treatment on sister-chromatid exchanges (SCE) and chromosomal aberration frequencies on Chinese hamster cells exposed to a variety of chemical and physical agents followed by bromodeoxyuridine (BrdUrd) was determined. After 2 h treatment, N-methyl-N′-nitrosoguanidine (MNNG) and cis-platinum(II)diamine dichloride (cis-Pt(II)) induced a 7- and 6-fold increase in SCE, respectively, while 4-nitroquinoline-1-oxide (4NQO), methyl methanesulfonate (MMS), proflavine, and N-hydroxyfluorenylacetamide (OH-AAF) caused a 2–3-fold increase in SCE compared to controls treated with BrdUrd alone. Ultraviolet light doubled the number of SCE. The lowest increase of SCE was obtained with bleomycin and X-irradiation. Caffeine post-treatment caused a statistically significant increase in the frequency of SCE induced by UV- and X-irradiation as well as by 4NQO and MMS but did not alter the number of SCE induced by MNNG, cis-Pt(II), proflavine, OH-AAF, and bleomycin.

Caffeine post-treatment increased the number of cells with chromosomal aberrations induced by MNNG, cis-Pt(II), UV, 4NQO, MMS, and proflavine. With the exception of proflavine, these agents are dependent on DNA and chromosome replication for the expression of the chromosomal aberrations. Caffeine enhancement of cis-Pt(II) chromosomal aberrations occurred independently of the time interval between treatment and chromosome preparations. Chromosomal damage produced by bleomycin and X-irradiation, agents known to induce chromosomal aberrations independent of “S” phase of the cell cycle, as well as the damage induced with OH-AAF was not influenced by caffeine post-treatment.

The enhancement by caffeine, an inhibitor of the gap-filling process in post-replication repair, of chromosomal aberrations induced by “S” dependent agents, is consistent with the involvement of this type of repair in chromosomal aberration formation. The lack of inhibition of SCE frequency by caffeine indicates that post-replication repair is probably not important in SCE formation.