Abstract
Impaired learning and memory are common symptoms of neurodegenerative and neuropsychiatric diseases. Present, there are several behavioural test employed to assess cognitive functions in animal models, including the frequently used novel object recognition (NOR) test. However, although atypical functional brain lateralization has been associated with neuropsychiatric conditions, spanning from schizophrenia to autism, few animal models are available to study this phenomenon in learning and memory deficits. Here we present a visual lateralization NOR model (VLNOR) in zebrafish larvae as an assay that combines brain lateralization and NOR. In zebrafish larvae, learning and memory are generally assessed by habituation, sensitization, or conditioning paradigms, which are all representatives of nondeclarative memory. The VLNOR is the first model for zebrafish larvae that studies a memory similar to the declarative memory described for mammals. We demonstrate that VLNOR can be used to study memory formation, storage, and recall of novel objects, both short and long term, in 10-day-old zebrafish. Furthermore we show that the VLNOR model can be used to study chemical modulation of memory formation and maintenance using dizocilpine (MK-801), a frequently used non-competitive antagonist of the NMDA receptor, used to test putative antipsychotics in animal models.
Highlights
Using visual lateralization to model learning and memory in zebrafish larvae Madelene Aberg Andersson[1,2], Fredrik Ek1 & Roger Olsson[1,2]
Atypical functional brain lateralization has been associated with neuropsychiatric conditions, spanning from schizophrenia to autism, few animal models are available to study this phenomenon in learning and memory deficits
We show that the visual lateralization NOR model (VLNOR) model can be used to study chemical modulation of memory formation and maintenance using dizocilpine (MK-801), a frequently used non-competitive antagonist of the NMDA receptor, used to test putative antipsychotics in animal models
Summary
Using visual lateralization to model learning and memory in zebrafish larvae Madelene Aberg Andersson[1,2], Fredrik Ek1 & Roger Olsson[1,2]. Atypical functional brain lateralization has been associated with neuropsychiatric conditions, spanning from schizophrenia to autism, few animal models are available to study this phenomenon in learning and memory deficits. In a relatively short period of time a number of learning categories have been characterized in zebrafish larvae including habituation, dishabituation, sensitization, and classic conditioning[13] All these learning paradigms address nondeclarative (implicit) memory as described for humans and rodents[14,15]. On the other hand Miklosi et al.[33] demonstrated contrasting results in adult zebrafish, where the LES system was used to view familiar conspecifics Overall, these observations offers the opportunity to develop a unique NOR test based on visual lateralization in zebrafish larvae
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