AUTHOR=Sitaraman Divya , Kramer Elizabeth F. , Kahsai Lily , Ostrowski Daniela , Zars Troy 

TITLE=Discrete Serotonin Systems Mediate Memory Enhancement and Escape Latencies after Unpredicted Aversive Experience in Drosophila Place Memory

JOURNAL=Frontiers in Systems Neuroscience

VOLUME=11

YEAR=2017

URL=https://www.frontiersin.org/journals/systems-neuroscience/articles/10.3389/fnsys.2017.00092

DOI=10.3389/fnsys.2017.00092

ISSN=1662-5137

ABSTRACT=<p>Feedback mechanisms in operant learning are critical for animals to increase reward or reduce punishment. However, not all conditions have a behavior that can readily resolve an event. Animals must then try out different behaviors to better their situation through outcome learning. This form of learning allows for novel solutions and with positive experience can lead to unexpected behavioral routines. Learned helplessness, as a type of outcome learning, manifests in part as increases in escape latency in the face of repeated unpredicted shocks. Little is known about the mechanisms of outcome learning. When fruit fly <italic>Drosophila</italic><italic>melanogaster</italic> are exposed to unpredicted high temperatures in a place learning paradigm, flies both increase escape latencies and have a higher memory when given control of a place/temperature contingency. Here we describe discrete serotonin neuronal circuits that mediate aversive reinforcement, escape latencies, and memory levels after place learning in the presence and absence of unexpected aversive events. The results show that two features of learned helplessness depend on the same modulatory system as aversive reinforcement. Moreover, changes in aversive reinforcement and escape latency depend on local neural circuit modulation, while memory enhancement requires larger modulation of multiple behavioral control circuits.</p>