Developmental pattern of cAMP, adenyl cyclase, and cAMP phosphodiesterase in the palate, lung, and liver of the fetal mouse: alterations resulting from exposure to methylmercury at levels inhibiting palate closure.

Exposure to methylmercury (MeHg: 10 mg Hg/kg maternal body weight) on 12(6) (days hours) of gestation significantly delays palate closure in the Swiss Webster CFW mouse. The cAMP content and activity of adenyl cyclase and phosphodiesterase (PDE) were measured in the tissues of control and MeHg-induced cleft palates between 13(6) and 17(6) of gestation. Lung and liver were investigated similarly to determine if MeHg affected the adenyl cyclase system of the palate in a unique manner. In control palatal tissue, cAMP levels increased sharply from 13(22) (undetectable) to 14(6) (maximum). PDE activity increased similarly up to 14(2), but decreased 50% between 14(2) and 14(6). Since it has been reported that cAMP induces the synthesis of PDE, the difference in cAMP/PDE from 13(22) to 14(2) and from 14(2) to 14(6) suggests the localization of relatively high levels of cAMP in at least two separate compartments. Between 14(6) and 14(10), the adenyl cyclase activity of control palates decreased significantly. This rapid decrease suggests relatively high adenyl cyclase activity in the medial edge epithelial cells which undergo autolysis prior to shelf fusion (centered at 14(15). Maternal MeHg administration at 12(6) delayed the median time of palatal shelf rotation (14(13)) by 5 hours, and significantly altered the developmental pattern of the adenyl cyclase system. Thus, the increase in cAMP between 14(2) and 14(6) was abolished and the decrease in adenyl cyclase activity between 14(6) and 14(10) was delayed by almost 20 hours. These changes may be manifestions of a MeHg-induced delay in medial edge epithelial cell differentiation. In a previous study, we observed that the fetal liver exhibits the highest MeHg concentration of all tissues. Since MeHg only slightly altered the adenyl cyclase system of the fetal liver compared to the lung and palate (in which MeHg uptake is considerably less), it may be that the effects of MeHg on palatal tissue are not due to a direct effect of MeHg on components of the adenyl cyclase system.

Effects of methyl mercury on murine fetal amino acid uptake, protein synthesis and palate closure.

Methylmercury (MeHg: 5 mg Hg/kg maternal body weight) in 0.13 M NaCl, 0.01 M NaH2PO4-Na2HPO4, pH 7.4 (PBS) administered to gravid CFW mice on day 12, hour 6 (12(6)) of gestation induced a high incidence of cleft palate in fetuses examined on days 15(6) (72%), 16(6) (62%) and 17(6) (40%). Palate closure (100%) in PBS control animals occurred by 14(10). One day post MeHg administration, total fetal protein was decreased 22% while DNA content was unaltered. Protein was maximally decreased (28%) on 14(6) and, thereafter, returned toward control levels. Alterations in DNA content followed a similar pattern; but the maximal decrease (32%) occurred on 15(6). The rate of fetal protein synthesis was depressed 5% at 12(9) and between 20% to 26% from this time to 13(6) (end of observation). The agreement between the calculated decrease in protein synthesis (19%) and the measured decrease in protein content (22%) suggests that a reduction in protein synthesis is responsible for the decreased fetal protein content. Placental blood flow and fetal water space, measured with 3H--H2O at 12(18), were not affected by MeHg treatment. However, fetal free amino acid concentrations at 12(18) were generally decreased (alanine, 23.0%; valine, 9.7%; methionine, 22.6%; isoleucine, 12.0%; leucine, 18.2%) while uptake of the non-metabolizable amino acid, 14C-cycloleucine, was decreased 23%. From this, it is concluded that the growth inhibitory effects of MeHg are related, at least in part, to impaired placental/fetal transfer of amino acids.