Circadian rhythm in toxic effects of cystemustine in mice: relevance for chronomodulated delivery.

Cystemustine is a new nitrosourea with high anti-tumor activity and a short plasma half-life in mice. The influence of circadian dosing time upon its toxicities was first investigated in a total of 368 synchronized male B6D2F1 mice. Late survival rate varied from 4% in mice receiving a single dose of cystemustine (conventional lethal dose 50%) at 7 hours after light onset (HALO) up to 88% in mice treated at 15 or at 19 HALO. Target organ toxicities (bone marrow, circulating blood cells, spleen, colon and duodenum) were studied following a single slightly lower dose of cystemustine. Leukopenia was the major hematologic effect encountered. Leukocyte count nadir occurred 7 days after injection and was lowest following cystemustine at 7 HALO as compared to 13 or 19 HALO. Recovery was faster after cystemustine at 19 HALO as compared to other dosing times. Bone-marrow necrotic lesions were more pronounced 1 day after cystemustine at 7 HALO than after cystemustine at 19 HALO. Thus, a large-amplitude circadian rhythm characterized the toxicity of this nitrosourea in mice. The lowest cystemustine toxicity was found near the middle of the active span of the rest-activity circadian cycle of mice.

Circadian variation in O6-methylguanine-DNA methyltransferase activity in mouse liver.

Bifunctional chloroethylating cytostatic agents produce lethal DNA lesions, as a result of the formation of O6-alkylguanines. These lesions can be repaired by O6-methylguanine-DNA methyltransferase (MGMT). This ubiquitous nuclear and cytosolic enzyme removes the alkyl group by accepting it to the cysteine residue of its active site, thus preventing the formation of DNA interstrand cross-links. The role of the circadian organization in cellular protection against such DNA insults was examined in male B6D2F1 mice, synchronized with an alternation of 12 h of light and 12 h of darkness (LD12:12). MGMT activity was determined in liver of mice obtained at eight different circadian times, located 3 h apart. MGMT activity varied 5-fold along the 24 h time-scale, from 7 +/- 1 pmol/g of tissue at 7 h after light onset (HALO), during the rest span, up to 32 +/- 9 pmol/g at 19 HALO (second mid to late activity span). This large amplitude circadian rhythm in MGMT activity may be an important determinant of the susceptibility rhythms to alkylating agents. The greatest DNA repair activity occurred at night when mice were active, eat and drink, and thus are at a higher risk of being exposed to chemical insults.