In Psychopharmacology
RATIONALE : The basolateral amygdala (BLA) and medial geniculate nucleus of the thalamus (MGN) have both been shown to be necessary for the formation of associative learning. While the role that the BLA plays in this process has long been emphasized, the MGN has been less well-studied and surrounded by debate regarding whether the relay of sensory information is active or passive.
OBJECTIVES : We seek to understand the role the MGN has within the thalamoamgydala circuit in the formation of associative learning.
METHODS : Here, we use optogenetics and in vivo electrophysiological recordings to dissect the MGN-BLA circuit and explore the specific subpopulations for evidence of learning and synthesis of information that could impact downstream BLA encoding. We employ various machine learning techniques to investigate function within neural subpopulations. We introduce a novel method to investigate tonic changes across trial-by-trial structure, which offers an alternative approach to traditional trial-averaging techniques.
RESULTS : We find that the MGN appears to encode arousal but not valence, unlike the BLA which encodes for both. We find that the MGN and the BLA appear to react differently to expected and unexpected outcomes; the BLA biased responses toward reward prediction error and the MGN focused on anticipated punishment. We uncover evidence of tonic changes by visualizing changes across trials during inter-trial intervals (baseline epochs) for a subset of cells.
CONCLUSION : We conclude that the MGN-BLA projector population acts as both filter and transferer of information by relaying information about the salience of cues to the amygdala, but these signals are not valence-specified.
Leppla Chris A, Keyes Laurel R, Glober Gordon, Matthews Gillian A, Batra Kanha, Jay Maya, Feng Yu, Chen Hannah S, Mills Fergil, Delahanty Jeremy, Olson Jacob M, Nieh Edward H, Namburi Praneeth, Wildes Craig, Wichmann Romy, Beyeler Anna, Kimchi Eyal Y, Tye Kay M
2022-Dec-16
Associative learning, Auditory thalamic relay, Basolateral amygdala, Hierarchical clustering, Medial geniculate nucleus, Mouse model, Neural trajectory analysis, Valence