Developing a model for studying complex brain function using zebrafish (Danio rerio) and cavefish (Mexican tetra)

The advantage of both larval an adult zebrafish in neuroscience research has significantly increased in the past decades. In fact, this vertebrate model performed well in several conditioning memory tasks by responses to visual cues. In contrast to zebrafish, the cognitive functions of blind cavefish is well known as lacks functional visual systems and uses hydrodynamic cues to gather information about its surroundings. While rodents have traditionally been used to study the complex brain functions, the use of teleost is gaining popular as an excellent vertebrate model to complement current neuroscience research. The objective of this study is to compare the cognitive functions of both character of fish, zebrafish and cavefish using Y-maze task. Adult zebrafish (n=6, 4.5 cm length) and blind cavefish (n=6, 5.5 cm length) were tested for spatial recognition memory using the Y-maze test, which had 3 identical arms with different visual cues at the end of each arms. This task consisted of two trials separated by training-test intervals (1 h, 3 h and 6 h TTI) to assess the capabilities of the fish to respond new environments of the novel arms. Result showed that there is no significant difference on cavefish enter and time spent in all Y-maze arms. However, time spent and numbers of entries in the novel arm were significantly higher in the zebrafish. This could indicate that the zebrafish have a higher exploratory behaviour and able to recognize the preferential visual cues. Indeed, this fish demonstrating the ability to recall a spatial alternation task after several intervals hours. However, the spatial recognition memory of cavefish is based on their mechanosensory and their lateral lines, which highly sensitive to fluctuating water movement and helps them to perceive their environment surroundings. Interestingly, the cavefish have better olfactory sense and taste buds all over its head, which help them to discover novelty in complete darkness. Thus, the advantage of the Y-maze memory task and the characteristics of zebrafish and cavefish suggest that this small teleost can be a good animal model for study the brain cognitive function

Developing a model for studying complex brain function using zebrafish (Danio rerio) and cavefish (Astyanax mexicanus)

The zebrafish (Danio rerio) has been used as a model organism for studies in developmental biology. In fact, several common and important developmental genes mechanisms have been identified in zebrafish, which are similar in mammals. There is also growing research in the cognitive and memory functions in the laboratory animals over last decade, however the interests in the behavioral features of zebrafish are limited. In contrast to zebrafish, the cognitive function for cavefish (Astyanax mexicanus) is based on mechanosensory systems and their lateral line, which is highly sensitive to fluctuating water movement and pressure. Many evolution researches have been done to these cavefish reported that they have better olfactory sense by having taste buds all over its head which help them find food more quickly in complete darkness. In addition, the mechanosensory lateral line system helps them to perceive their environment. While rodents have traditionally been used to study cognitive and memory functions, the zebrafish are gaining popularity as an excellent vertebrate model to complement current translational neuroscience research. Thus, the study purpose in this application is to compare the learning and memory functions of both character of fish, zebrafish and cavefish using the Y-maze task. Results showed that there is no significant differences on cavefish enter and spent time in the Y-maze arms. However, time spent and numbers of entries in the novel arm were significantly higher in the zebrafish. Thus, the cognitive function of cavefish is based on their characteristics and the zebrafish is based on the visual queue of the Y-maze task