Thiabendazole-induced cytogenetic abnormalities in mouse oocytes.

Abstract

Of the various classes of human genetic disorders, aneuploidy is the most prevalent. Besides its association with maternal age and its predominant origin during maternal meiosis I, little is known about the etiology of aneuploidy. Although various classes of chemicals have been shown to induce aneuploidy in experimental systems, there is no definitive evidence for the role of chemically induced aneuploidy and adverse human health effects, particularly germ cell effects. Thus, it is important to understand the potential of chemicals for inducing aneuploidy in germ cells. There are conflicting data in the literature about the ability of thiabendazole (TBZ) to induce aneuploidy; therefore, we investigated the potential of TBZ for inducing aneuploidy in oocytes. Superovulated ICR female mice were administered 0, 50, 100, or 150 mg/kg TBZ by intraperitoneal injection. The frequencies and percentages of hyperploid oocytes were 0/472 (0), 2/410 (0.5), 6/ 478 (1.3), and 3/427 (0.7) for control, 50, 100, and 150 mg/kg TBZ, respectively. The difference between controls and the 100 mg/kg dose was statistically significant. Also, the proportions of ovulatory mice and the number of oocytes collected per ovulatory female were reduced in the TBZ groups relative to controls. Based on these results, we conclude that TBZ induces a small, but significant increase in the frequency of aneuploid oocytes at toxic doses that also impair ovulation.