Donald B. Stedman

Characterization of cell death induced by 2-methoxyethanol in CD-1 mouse embryos on gestation day 8.

Cell death was analyzed in neurulating mouse embryos after in vivo doses of 2-methoxyethanol (2-ME) that produce anterior neural tube defects. Characterization of 2-ME-induced cell death was performed by evaluating: (1) vital fluorochrome staining in whole embryos applying confocal laser scanning microscopy; (2) characteristics of cell debris in conventional histological sections revealed by light microscopy; and (3) Apoptag in situ immunohistochemical staining for apoptosis using light microscopy. Methods for quantification of cell death identified by these three techniques were explored using computerized image analysis. Physiological cell death in control embryos primarily occurred in the neural crest region during neural fold elevation. Embryos exposed to 2-ME had expanded areas of cell death in the neural crest and also new areas of cell death in medial regions of the anterior neural tube. Both physiological and 2-ME-induced embryonic cell death had morphological, immunohistochemical, and fluorochrome staining characteristics of apoptosis. When fluorescence data from confocal microscopic analysis of vital fluorochrome-stained embryos were analyzed, a dose-dependent increase was found in embryos exposed to 2-ME. Similar results were obtained when cell death was analyzed in either conventional histological sections or sections prepared for immunohistochemical detection of apoptosis. The cell death data obtained in this study correlate with previously observed near-term malformation rates, suggesting that a quantitative relationship exists between 2-ME-induced embryonic cell death and neural tube defects.

Effects of a teratogen on [3H]uridine nucleotide transfer between human embryonal cells and on gap junctions

Intercellular communication (IC) mediated by gap junctions (gj) occurs during embryonal development and appears to be important for normal differentiation through the exchange of morphogenetic signalling substances. Disruption of IC by chemicals may induce abnormal development resulting from failed cell-cell interactions. It was established in the present study that genotypically normal human embryonal palate mesenchyme (HEPM) cells displayed IC in cell culture and that the transfer of [3H]uridine nucleotides was inhibited by the potent embryotoxin and teratogen 12-O-tetradecanoyl-phorbol-13-acetate (TPA). IC was mediated by gj which were revealed by freeze-fracture and electron microscopy. Quantitative morphometric analysis showed that inhibition of IC by TPA coincided with a significant reduction in the number of gj. The observations suggest that inhibition of IC by the teratogen TPA may be one among the many mechanisms believed to be responsible for the induction of abnormal development by chemical teratogens.