Influences of Taurine Pharmacodynamics and Sex on Active Avoidance Learning and Memory.

ABSTRACT

Researchers have begun to direct their research to focus on the use of taurine as a psychopharmacotherapeutic compound to treat a wide range of health- related conditions as well as neuropathological diseases. Moreover, taurine has been shown to improve emotional and cognitive declines associated with senescence in neurotypical animal models. However, despite these advances in the field of taurine therapeutics, much less is known regarding the effects of sex and taurine on neurotypical animal models that are then manipulated, modified, and/or mutated to study human diseases. The present study sought to investigate this matter in a Long Evans Hooded rat model of mature age (i.e., postnatal day 60-90) in an active avoidance test (AAT). Rats were trained for 20 trials, given a 1 h. test break, retrained for another 20 trials, and then tested at 24 h, 48 h, and 1 week for learning and memory retention. An N = 63 rats were randomly assigned to three groups (1) Control (n = 22), (2) Taurine Pre-Train (n = 19), and (3) Taurine Post-Train (n = 20). The aim of the present study was to determine the effects of taurine given 15 min before training when compared to being given after training but 15 min before testing at 24 h on learning and memory consolidation of the AAT. The results showed in Control rats that females had shorter latencies to cross in the shuttle box, increased rates of correct learning by the % Avoids/Escapes, and decreased rates of learning errors by the % Shocks. In Taurine Post-Train male rats, taurine treatment decreased their latency to cross in the shuttle box and their rate of learning errors by the % Shocks at 24 h and 48 h Testing, but it had no effect on their rate of correct learning by the % Avoids/Escapes when compared to Control and Taurine Pre-Train male rats. In contrast, Taurine Post-Train female rats increased their latency to cross in the shuttle box during Training, 24 h and 48 h Testing, when compared to the Control and Taurine Pre-Train female rats. Further, Taurine Post-Train female rats decreased their rate of learning % Avoids/Escapes and increased the rate of learning errors % Shocks when compared to Control female rats during Training and 24 h Testing but decreased their rate of learning % Avoids/Escapes and increased the rate of learning errors % Shocks when compared to Taurine Pre-Train female rats across all test conditions. These findings suggest that neurotypical female rats may be more sensitive to the aversive stimuli (i.e., foot shocks) used in the AAT as a motivating factor for learning that may cause paradoxical behavioral learning and memory patterns. This phenomenon raises an important concern for researchers to consider when studying learning and behavioral tests in rodents that use aversive and non-aversive stimuli or a combination of both such as in the AAT. Taurine, albeit neuroprotective, may not have as much benefit in a neurotypical animal model and may increase the susceptibility for anxiogenic behaviors and interfere with cognitive learning and memory behaviors. Therefore, the mechanistic way(s) in which taurine can treat, recovery, ameliorate, and forestall other neuropathological diseases in animal models may have different psychopharmacodynamics and psychopharmacokinetics in a neurotypical animal model and should be studied with caution. This does not preclude the continued investigation of taurine psychopharmacotherapies for neuropathological diseases but encourages the careful investigation of taurine supplementation and treatment in neurotypical animals as paradoxical behavioral and cognitive outcomes have been observed herein.