The Red-Eared Slider Turtle: An Animal Model for the Study of Low Doses and Mixtures

Current risk assessment techniques for almost all chemicalsinvolve establishing a threshold dose, or the dose below whichno adverse effects are seen. But threshold doses may not applyin situations where the chemical mimics the actions of an endogenouscompound—such as a steroid hormone—that is importantto development. In such cases, any exposure may exceed the threshold.Recent studies with the red-eared slider turtle have shown thatexogenous estradiol—even when applied to eggshell in dosesas low 0.4 ng—will affect sex development during embryogenesis.Considering that only 0.2% of the estradiol applied to the eggshellends up in the embryo, it becomes apparent that even very lowdosages of steroid hormones or their mimics can have profoundbiological effects. We tested this idea using eight compoundsidentified in the yolk of alligator eggs from Lake Apopka, Fla.Five of the compounds—the PCB mixture Aroclor 1242,trans-Nonachlor,cis-Nonachlor,p,p'-DDE, and chlordane—altered sex ratio outcomes whenapplied to eggshells during development. Aroclor 1242 producedthe most powerful effects, shifting the ratio of females almosttwofold, while chlordane had the greatest effect when combinedwith estradiol. Administration of all eight compounds togetheralso increased the ratio of females to males. However, comparingthe single-compound exposures at the same dosages indicate thatthese compounds behave differently in combination than theydo singly, emphasizing the need for further studies using chemicalmixtures reflecting proportions found in nature. The effectof chlordane and Aroclor 1242 on aromatase activity levels duringembryogenesis in the brain and adrenal-kidney-gonad (AKG) complexwas also examined. Chlordane, a suspected anti-androgen in thisspecies, did not affect aromatase activity in either the brainor the AKG. However, Aroclor 1242 significantly altered aromataseactivity levels in the red-eared slider turtle brain—butnot in the AKG—during a crucial developmental period.After this crucial period, Aroclor 1242 caused an increase inaromatase activity in the AKG of embryos just prior to hatch.Additionally, hatchling males treated during embryogenesis withAroclor 1242 and chlordane exhibited significantly lower testosteronelevels than controls in response to follicle-stimulating hormoneadministration, while chlordane-treated females had significantlylower progesterone, testosterone, and 5-dihydrotestosteronelevels relative to controls. These results are similar to thosefound in juvenile alligators from Lake Apopka. Males treatedwith Aroclor 1242 and trans-Nonachlor displayed an elevatedestradiol response to FSH administration vs. control males.Taken together, these results suggest that EDCs exert effectsduring embryonic development that extend beyond birth. Theyalso suggest that the alterations in sex steroid hormone levelsobserved in animals from contaminated areas may result fromEDC-induced alterations in the neuroendocrine axis controllinggonadal sex steroid hormone production.