Exposure to phthalates impaired neurodevelopment through estrogenic effects and induced DNA damage in neurons.

Phthalates are commonly used in plastic products in daily life. The endocrine-disrupting effects of phthalates have been widely reported. Accumulating evidence from human cohorts and lab animals indicate exposure to phthalates might impair neurodevelopment. However, the direct causal relationship and mechanism between phthalates with neurodevelopment and neurotoxicity have not been firmly established. We found that phthalates (i.e. DBP, DINP, BBP) disrupted the expression of estrogen receptors (esr1, esr2a, esr2b), and impaired neurogenesis in the brain of zebrafish during embryonic development. Moreover, the abnormal expression of estrogen receptors, especially esr2a, was partly rescued in zebrafish which exposed to phthalates, with the estrogen receptor antagonist tamoxifen. Hence, impaired neurogenesis of zebrafish exposed to phthalates was partly reversed by tamoxifen treatment. Moreover, our results show that induced pluripotent stem cells (iPSC)-derived human neurons exposed to phthalates triggered double-strand DNA breaks in vitro. Overall, this study demonstrates that exposure to phthalates affects neurodevelopment in zebrafish embryos and induces neurotoxicity in human neurons partly through disrupting the expression of estrogen receptors.

Data mining for chinese materia medica and pharmacological research.

Chinese materia medica (CMM) is becoming increasingly important in modern health care, with the potential for new or improved clinical protocols and reduction in treatment costs. Conventional approaches to drug discovery are based on knowledge of biological systems and screen phenotypes in the context of a whole organism. It will be valuable to identify the CMM that would induce certain biological responses (such as angiogenesis). The authors have developed a database that they plan to commercialize that contains traditional knowledge of Chinese medicine and pharmacology along with their own experimental data from controlled scientific observations by using the zebrafish as a model of CMM-induced pathology. The database is visualized and functions via the World Wide Web by subscription or license. The authors have also written software for personal digital assistant (PDA) devices that supports multiple users performing screening experiments worldwide. This provides a platform for the study of CMM, and data mining of this resource will help evaluate CMM in the context of experimental observations of biological aberrations.