Uterine Position Determines the Extent of Dopamine Reduction after Chronic Prenatal Cocaine Exposure

ABSTRACT: Most studying the consequences of prenatal cocaine (COC) exposure employ rodents or other multiparous organisms in their models. We have previously shown that when pregnant Sprague‐Dawley albino rats are administered a 30 mg/kg subcutaneous (s.c.) injection on embryonic day 15 (E15), fetal brain COC levels show a proximal‐to‐distal (in relation to the cervix) gradient that can vary by as much as 350%. The present study sought to determine whether this gradient translated into a similar gradient in brain dopamine (DA) levels. Pregnant rats were administered COC or saline (SAL) (30 mg/kg COC or 1 ml/kg SAL, b.i.d., E7‐E19). On E20, dams were anesthetized with halothane, the fetuses immediately removed, their brains excised, frozen and subsequently processed for DA, dihydroxyphenylacetic acid (DOPAC) or homovanillic acid (HVA). High‐performance liquid chromatography (HPLC) analysis revealed a proximal‐to‐distal gradient for DA in both COC‐ and SAL‐exposed fetuses. Average fetal DA levels per litter were significantly lower in COC‐exposed litters (57.39 ± 3.67 ng/hemibrain SAL; 48.29 ± 3.87 ng/hemibrain COC F 7,1 = 11.66, p <0.05). The gradients for DA were in opposite directions such that COC litters showed the lowest levels of DA in the most distal uterine positions, whereas SAL‐exposed litters showed the highest DA levels in the same location. These data suggest that a gradient in brain dopamine normally exists for fetuses based upon uterine position, and that cocaine can have selectively greater effects on this level as a function of fetal location.