Cadmium Affects Muscle Type Development and Axon Growth in Zebrafish Embryonic Somitogenesis

doi:10.1093/toxsci/kfg046

ToxSci Advance Access originally published online on April 15, 2003

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Toxicological Sciences 73, 149-159 (2003)
Copyright © 2003 by the Society of Toxicology

REPRODUCTIVE AND DEVELOPMENTAL TOXICOLOGY

Cadmium Affects Muscle Type Development and Axon Growth in Zebrafish Embryonic Somitogenesis

Elly Suk Hen Chow and Shuk Han Cheng¹

Department of Biology and Chemistry, City University of Hong Kong, 83 Tat Chee Avenue, Kowloon, Hong Kong

We have previously reported that exposure to cadmium duringzebrafish embryonic development caused morphological malformationsof organs and ectopic expression of genes involved in regulatingdevelopmental process. One of the most common developmentaldefects observed was altered axial curvature resulting fromdefects in the myotomes of the somites. In this study, we investigatedthe mechanisms of cadmium-induced toxicity in zebrafish somitogenesis.We showed that the critical period of exposure was the gastrulationperiod, which actually preceded the formation of the first morphologicallydistinct somites. The somites thus formed lost the typical chevronV-shape and are packed disorderly. The myogenic lineage commitmentof the axial mesodermal cells was not affected, as the myogenicregulatory transcription factors were expressed normally. Therewere, however, losses of fast and slow muscle fibers in themyotomes. The innervation of the muscle blocks by spinal motoneuronsis an important process of the somitogenesis. Both primary andsecondary motoneurons appear to form normally while the axongrowth is affected in cadmium-treated embryos. The notochord,which is essential in the patterning of the somites and thecentral nervous system, showed abnormal morphological featuresand failed to extend to the tail region. Taken together, itappears that cadmium exposure led to abnormal somite patterningof the muscle fibers and defects in axonogenesis.

Key Words: zebrafish embryos; cadmium; somite patterning; muscle cell type; axon growth; myogenic regulatory factors.

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