Your search keyword '"Blaser, Rachel E."' showing total 3 results

1. Differences in Spatio-Temporal Behavior of Zebrafish in the Open Tank Paradigm after a Short-Period Confinement into Dark and Bright Environments.

Author

Rosemberg, Denis B., Rico, Eduardo P., Mussulini, Ben Hur M., Piato, Ângelo L., Calcagnotto, Maria E., Bonan, Carla D., Dias, Renato D., Blaser, Rachel E., Souza, Diogo O., and de Oliveira, Diogo L.

Subjects

ZEBRA danio, ANIMAL behavior, GENOTYPE-environment interaction, PHENOTYPES, BRACHYDANIO

Abstract

The open tank paradigm, also known as novel tank diving test, is a protocol used to evaluate the zebrafish behavior. Several characteristics have been described for this species, including scototaxis, which is the natural preference for dark environments in detriment of bright ones. However, there is no evidence regarding the influence of ''natural stimuli'' in zebrafish subjected to novelty-based paradigms. In this report, we evaluated the spatio-temporal exploratory activity of the short-fin zebrafish phenotype in the open tank after a short-period confinement into dark/bright environments. A total of 44 animals were individually confined during a 10-min single session into one of three environments: black-painted, white-painted, and transparent cylinders (dark, bright, and transparent groups). Fish were further subjected to the novel tank test and their exploratory profile was recorded during a 15-min trial. The results demonstrated that zebrafish increased their vertical exploratory activity during the first 6-min, where the bright group spent more time and travelled a higher distance in the top area. Interestingly, all behavioral parameters measured for the dark group were similar to the transparent one. These data were confirmed by automated analysis of track and occupancy plots and also demonstrated that zebrafish display a classical homebase formation in the bottom area of the tank. A detailed spatio-temporal study of zebrafish exploratory behavior and the construction of representative ethograms showed that the experimental groups presented significant differences in the first 3-min vs. last 3-min of test. Although the main factors involved in these behavioral responses still remain ambiguous and require further investigation, the current report describes an alternative methodological approach for assessing the zebrafish behavior after a forced exposure to different environments. Additionally, the analysis of ethologically-relevant patterns across time could be a potential phenotyping tool to evaluate the zebrafish exploratory profile in the open tank task. [ABSTRACT FROM AUTHOR]

Published

2011

2. Context-dependent sensitization to ethanol in zebrafish (Danio rerio)

Author

Blaser, Rachel E., Koid, Audrey, and Poliner, Rebecca M.

Subjects

*ANIMAL locomotion, *DRUG side effects, *PHENOTYPES, *DRUG tolerance, *PHYSIOLOGICAL effects of alcohol, *ZEBRA danio, *BEHAVIOR

Abstract

Abstract: One of the most robust and readily measurable effects of moderate doses of ethanol on zebrafish behavior is locomotor hyperactivity. Two experiments were designed to examine the effects of repeated exposures to ethanol on ethanol-induced locomotor hyperactivity, and to determine whether these effects are context-dependent. Adult, wild-type zebrafish were given repeated exposure to ethanol in the presence of one contextual stimulus (A), while exposed to water in the presence of a second contextual stimulus (B). Exposure to ethanol consistently induced locomotor hyperactivity. After repeated exposures, animals tested with ethanol in the ethanol-paired context (A) showed sensitization of locomotor activity. When tested with ethanol in the unpaired context (B), however, sensitization was not observed. When tested in the absence of ethanol, there were no differences in responding to the paired and unpaired stimuli. This is the first demonstration of ethanol-induced locomotor sensitization in zebrafish. Moreover, this sensitization was context-specific, indicating that learning can modify drug-induced behaviors in zebrafish. [Copyright &y& Elsevier]

Published

2010

3. Behavioral effects of taurine pretreatment in zebrafish acutely exposed to ethanol.

Author

Rosemberg, Denis B., Braga, Marcos M., Rico, Eduardo P., Loss, Cássio M., Córdova, Sandro D., Mussulini, Ben Hur M., Blaser, Rachel E., Leite, Carlos E., Campos, Maria M., Dias, Renato D., Calcagnotto, Maria E., de Oliveira, Diogo L., and Souza, Diogo O.

Subjects

*NEUROBEHAVIORAL disorders, *NEUROCHEMISTRY, *LABORATORY zebrafish, *ETHANOL, *PHENOTYPES, *NEUROPROTECTIVE agents, *HUMAN locomotion

Abstract

Taurine (TAU) is an amino sulfonic acid that plays protective roles against neurochemical impairments induced by ethanol (EtOH). Mounting evidence shows the applicability of zebrafish for evaluating locomotor parameters and anxiety-like behavioral phenotypes after EtOH exposure in a large scale manner. In this study, we assess the effects of TAU pretreatment on the behavior of zebrafish in the open tank after acute 1% EtOH (v/v) exposure (20 and 60 min of duration) and on brain alcohol contents. The exposure for 20 min exerted significant anxiolytic effects, which were prevented by 42, 150, and 400 mg/L TAU. Conversely, the 60-min condition induced depressant/sedative effects, in which the changes on vertical activity were associated to modifications on the exploratory profile. Although all TAU concentrations kept locomotor parameters at basal levels, 150 mg/L TAU, did not prevent the impairment on vertical activity of EtOH[60]. Despite the higher brain EtOH content detected in the 60-min exposure, 42, 150, and 400 mg/L TAU attenuated the increase of alcohol content in EtOH[60] group. In conclusion, our data suggest that both protocols of acute EtOH exposure induce significant changes in the spatio-temporal behavior of zebrafish and that TAU may exert a preventive role by antagonizing the effects induced by EtOH possibly due to its neuromodulatory role and also by decreasing brain EtOH levels. The hormetic dose-response of TAU on vertical exploration suggests a complex interaction between TAU and EtOH in the central nervous system. [ABSTRACT FROM AUTHOR]

Published

2012