Abstract
Striatal cholinergic interneurons, the so-called tonically active neurons (TANs), pause their firing in response to sensory cues and rewards during classical conditioning and instrumental tasks. The respective pause responses observed can demonstrate many commonalities, such as constant latency and duration, synchronous occurrence in a population of cells, and coincidence with phasic activities of midbrain dopamine neurons (DANs) that signal reward predictions and errors. Pauses can however also show divergent properties. Pause latencies and durations can differ in a given TAN between appetitive vs. aversive outcomes in classical conditioning, initial excitation can be present or absent, and a second pause can variably follow a rebound. Despite more than 20 years of study, the functions of these pause responses are still elusive. Our understanding of pause function is hindered by an incomplete understanding of how pauses are generated. In this mini-review article, we compare pause types, as well as current key hypotheses for inputs underlying pauses that include dopamine-induced inhibition through D2-receptors, a GABA input from ventral tegmental area, and a prolonged afterhyperpolarization induced by excitatory input from the cortex or from the thalamus. We review how each of these mechanisms alone explains some but not all aspects of pause responses. These mechanisms might need to operate in specific but variable sets of sequences to generate a full range of pause responses. Alternatively, these mechanisms might operate in conjunction with an underlying control mechanism within cholinergic interneurons which could potentially provide a framework to generate the common themes and variations seen amongst pause responses.
Highlights
The so-called tonically active neurons (TANs) in the striatum of the basal ganglia in behaving monkeys are thought to be the cholinergic interneurons (ChIs; Aosaki et al, 2010)
It is possible that the pause response is driven by a multifactorial influence of all of these inputs, which may be required to act with specific sequence and timing to generate different components of the pause
An improved understanding of the mechanisms underlying pause responses will help us to better comprehend the powerful functions of cholinergic interneurons (ChIs) in the striatum
Summary
The so-called tonically active neurons (TANs) in the striatum of the basal ganglia in behaving monkeys are thought to be the cholinergic interneurons (ChIs; Aosaki et al, 2010). Sources of Pauses in Striatal Cholinergic Interneurons potentials regularly during movements (Kimura et al, 1984; Apicella et al, 1991). In parallel, they demonstrate strong pacemaker activity ex vivo in slices that is only weakly modulated (Bennett et al, 2000). They demonstrate strong pacemaker activity ex vivo in slices that is only weakly modulated (Bennett et al, 2000) It was not until 1994 that Aosaki et al (1994b) found that tonic firing neurons form a dynamic ‘‘pause response’’, a transient reduction in firing rate, following a sensory cue which indicates a reward. This mini-review article will discuss the common and divergent characteristics of pause responses, and whether known mechanisms can account for these features
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
