Assessing Mongolian gerbil emotional behavior: effects of two shock intensities and response-independent shocks during an extended inhibitory-avoidance task

Autor: Angelo Cardona, Camilo Hurtado-Parrado, Mónica Arias-Higuera, Camilo González-León, Lucia G. Medina, Juan Carlos Forigua, Javier Leonardo Rico, Christian Sánchez, Julian Cifuentes, Andrea C. Ortiz, César Acevedo-Triana, Laura García-Muñoz
Jazyk: angličtina
Rok vydání: 2017
Předmět:
medicine.medical_specialty
Computer science
lcsh:Medicine
Psychiatry and Psychology
Exploratory behavior
Audiology
Inhibitory postsynaptic potential
Gerbil
medicine.disease_cause
General Biochemistry
Genetics and Molecular Biology
Task (project management)
03 medical and health sciences
0302 clinical medicine
Jumping
Meriones unguiculatus
medicine
0501 psychology and cognitive sciences
050102 behavioral science & comparative psychology
Fear conditioning
Mongolian gerbil
Animal Behavior
General Neuroscience
05 social sciences
lcsh:R
General Medicine
Extinction (psychology)
Replicate
Video fear conditioning system
Inhibitory avoidance
Passive avoidance
Foot shock intensities
Shock (mechanics)
Step-down
General Agricultural and Biological Sciences
Emotional behavior
030217 neurology & neurosurgery
Neuroscience
Zdroj: PeerJ
PeerJ, Vol 5, p e4009 (2017)
ISSN: 2167-8359
Popis: Despite step-down inhibitory avoidance procedures that have been widely implemented in rats and mice to study learning and emotion phenomena, performance of other species in these tasks has received less attention. The case of the Mongolian gerbil is of relevance considering the discrepancies in the parameters of the step-down protocols implemented, especially the wide range of foot-shock intensities (i.e., 0.4–4.0 mA), and the lack of information on long-term performance, extinction effects, and behavioral patterning during these tasks. Experiment 1 aimed to (a) characterize gerbils’ acquisition, extinction, and steady-state performance during a multisession (i.e., extended) step-down protocol adapted for implementation in a commercially-available behavioral package (Video Fear Conditioning System—MED Associates Fairfax, VT, USA), and (b) compare gerbils’ performance in this task with two shock intensities – 0.5 vs. 1.0 mA—considered in the low-to-mid range. Results indicated that the 1.0 mA protocol produced more reliable and clear evidence of avoidance learning, extinction, and reacquisition in terms of increments in freezing and on-platform time as well as suppression of platform descent. Experiment 2 aimed to (a) assess whether an alternate protocol consisting of a random delivery of foot shocks could replicate the effects of Experiment 1 and (b) characterize gerbils’ exploratory behavior during the step-down task (jumping, digging, rearing, and probing). Random shocks did not reproduce the effects observed with the first protocol. The data also indicated that a change from random to response-dependent shocks affects (a) the length of each visit to the platform, but not the frequency of platform descends or freezing time, and (b) the patterns of exploratory behavior, namely, suppression of digging and rearing, as well as increments in probing and jumping. Overall, the study demonstrated the feasibility of the extended step-down protocol for studying steady performance, extinction, and reacquisition of avoidance behavior in gerbils, which could be easily implemented in a commercially available system. The observation that 1.0 mA shocks produced a clear and consistent avoidance behavior suggests that implementation of higher intensities is unnecessary for reproducing aversive-conditioning effects in this species. The observed patterning of freezing, platform descents, and exploratory responses produced by the change from random to periodic shocks may relate to the active defensive system of the gerbil. Of special interest is the probing behavior, which could be interpreted as risk assessment and has not been reported in other rodent species exposed to step-down and similar tasks.
Databáze: OpenAIRE
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