Abstract
Appetitive locomotion is essential for animals to approach rewards, such as food and prey. The neuronal circuitry controlling appetitive locomotion is unclear. In a goal-directed behavior—predatory hunting, we show an excitatory brain circuit from the superior colliculus (SC) to the substantia nigra pars compacta (SNc) to enhance appetitive locomotion in mice. This tectonigral pathway transmits locomotion-speed signals to dopamine neurons and triggers dopamine release in the dorsal striatum. Synaptic inactivation of this pathway impairs appetitive locomotion but not defensive locomotion. Conversely, activation of this pathway increases the speed and frequency of approach during predatory hunting, an effect that depends on the activities of SNc dopamine neurons. Together, these data reveal that the SC regulates locomotion-speed signals to SNc dopamine neurons to enhance appetitive locomotion in mice.
Highlights
Appetitive locomotion is essential for animals to approach rewards, such as food and prey
Considering the recent studies showing the involvement of substantia nigra pars compacta (SNc) dopamine neurons in the vigor of body movements, including locomotion[24,25,26,27,28], we hypothesized that the superior colliculus (SC)–SNc pathway may participate in appetitive locomotion during predatory hunting
We found that mice without (Ctrl) and with (TeNT) synaptic inactivation of the SC–SNc pathway exhibited escape followed by freezing in response to looming visual stimuli
Summary
Appetitive locomotion is essential for animals to approach rewards, such as food and prey. In a goal-directed behavior— predatory hunting, we show an excitatory brain circuit from the superior colliculus (SC) to the substantia nigra pars compacta (SNc) to enhance appetitive locomotion in mice. This tectonigral pathway transmits locomotion-speed signals to dopamine neurons and triggers dopamine release in the dorsal striatum. Synaptic inactivation of this pathway impairs appetitive locomotion but not defensive locomotion Activation of this pathway increases the speed and frequency of approach during predatory hunting, an effect that depends on the activities of SNc dopamine neurons. Considering the recent studies showing the involvement of SNc dopamine neurons in the vigor of body movements, including locomotion[24,25,26,27,28], we hypothesized that the SC–SNc pathway may participate in appetitive locomotion during predatory hunting
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