TBBPA exposure during a sensitive developmental window produces neurobehavioral changes in larval zebrafish.

TitleTBBPA exposure during a sensitive developmental window produces neurobehavioral changes in larval zebrafish.
Publication TypeJournal Article
Year of Publication2016
AuthorsChen, J, Tanguay, RL, Xiao, Y, Haggard, DE, Ge, X, Jia, Y, Zheng, Y, Dong, Q, Huang, C, Lin, K
JournalEnviron Pollut
Volume216
Pagination53-63
Date Published2016 Sep
ISSN1873-6424
KeywordsAnimals, Behavior, Animal, Embryo, Nonmammalian, Flame Retardants, Larva, Motor Neurons, Polybrominated Biphenyls, Zebrafish
Abstract

Tetrabromobisphenol A (TBBPA), one of the most widely used brominated flame retardants (BFRs), is a ubiquitous contaminant in the environment and in the human body. This study demonstrated that zebrafish embryos exposed to TBBPA during a sensitive window of 8-48 h post-fertilization (hpf) displayed morphological malformations and mortality. Zebrafish exposed exclusively between 48 and 96 hpf were phenotypically normal. TBBPA was efficiently absorbed and accumulated in zebrafish embryos, but was eliminated quickly when the exposure solution was removed. Larval behavior assays conducted at 120 hpf indicated that exposure to 5 μM TBBPA from 8 to 48 hpf produced larvae with significantly lower average activity and speed of movement in the normal condition than in those exposed from 48 to 96 hpf. Specifically, 8-48 hpf-exposed larvae spent significantly less time in both activity bursts and gross movements compared to control or 48-96 hpf exposed larvae. Consistent with the motor deficits, TBBPA induced apoptotic cell death, delayed cranial motor neuron development, inhibited primary motor neuron development and loosed muscle fiber during the early developmental stages. To further explore TBBPA-induced developmental and neurobehavioral toxicity, RNA-Seq analysis was used to identify early transcriptional changes following TBBPA exposure. In total, 1969 transcripts were significantly differentially expressed (P < 0.05, FDR < 0.05, 1.5-FC) upon TBBPA exposure. Functional and pathway analysis of the TBBPA transcriptional profile identified biological processes involved in nerve development, muscle filament sliding and contraction, and extracellular matrix disassembly and organization changed significantly. In addition, TBBPA also led to an elevation in the expression of genes encoding uridine diphosphate glucuronyl transferases (ugt), which could affect thyroxine (T4) metabolism and subsequently lead to neurobehavioral changes. In summary, TBBPA exposure during a narrow, sensitive developmental window perturbs various molecular pathways and results in neurobehavioral deficits in zebrafish.

DOI10.1016/j.envpol.2016.05.059
Alternate JournalEnviron. Pollut.
PubMed ID27239688