ZFIN ID: ZDB-PUB-151125-12
Effects of β-diketone antibiotic mixtures on behavior of zebrafish (Danio rerio)
Wang, X., Zheng, Y., Zhang, Y., Li, J., Zhang, H., Wang, H.
Date: 2016
Source: Chemosphere   144: 2195-2205 (Journal)
Registered Authors:
Keywords: Behavior effect, DKAs exposure, Gene transcriptional level, Histopathological observation, Singlet oxygen
MeSH Terms:
  • Animals
  • Anti-Bacterial Agents/toxicity*
  • Behavior, Animal/drug effects
  • Fluoroquinolones/toxicity*
  • Motor Activity/drug effects
  • Motor Activity/genetics
  • Tetracyclines/toxicity*
  • Zebrafish/genetics
  • Zebrafish/physiology*
PubMed: 26595314 Full text @ Chemosphere
ABSTRACT
To date, few data are available on neurotoxicity of β-diketone antibiotics (DKAs) from the perspective of animal behavior. Herein, the effects of long-term DKAs exposure on zebrafish (Danio rerio) behavior were assessed for locomotor activity, anxiety, social interaction and their related molecular mechanisms. DKAs exposure to zebrafish consisted of six DKA species, including ofloxacin, ciprofloxacin, enrofloxacin, doxycycline, chlortetracycline and oxytetracycline, with equal weight concentration and equal volume. DKAs at 6.25 mg/L significantly increased the time spent in the upper portion of the test tank (+40%) and the number of line crossings (±42%), indicating occurrence of anxiolytic behavior. For conditioned place preference test, long-term DKAs exposure at 6.25 mg/L increased the number of motionless positions in the non-preferred white side (+31%), number of transitions to the white side (+221%) and time spent in the white side (+35%) in relation to the control. DKAs at 6.25 mg/L significantly increased zebrafish shoaling behavior (+38%) resulting from an anxiety-like state, but 25 mg/L DKAs exposure decreased zebrafish social cohesion (-41%) possibly due to an autism-like state. With increasing DKAs-exposure concentration, the signal intensity of (1)O2 gradually decreased, leading to insufficient energy supply and movement functional disorders. Based on GO functional annotation and metabolic pathway analysis, 11 genes closely associated with locomotor behavior were identified. Using qRT-PCR, we confirmed that DKAs exposure led to changes in the transcriptional levels of 11 locomotor-related genes. These results suggest that behavior is a potential strategy for evaluating mechanisms underlying the neurochemical basis triggered by stress in zebrafish.
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