Modular organization of the brainstem noradrenaline system coordinates opposing learning states
Résumé
Noradrenaline modulates global brain states and diverse behaviors through what is traditionally believed to be a homogeneous cell population in the brainstem locus coeruleus (LC). However, it is unclear how LC coordinates disparate behavioral functions. We report a modular LC organization in rats, endowed with distinct neural projection patterns and coding properties for flexible specification of opposing behavioral learning states. LC projection mapping revealed functionally distinct cell modules with specific anatomical connectivity. An amygdala-projecting ensemble promoted aversive learning, while an independent medial prefrontal cortex-projecting ensemble extinguished aversive responses to enable flexible behavior. LC neurons displayed context-dependent inter-relationships, with moderate, discrete activation of distinct cell populations by fear or safety cues and robust, global recruitment of most cells by strong aversive stimuli. These results demonstrate a modular organization in LC in which combinatorial activation modes are coordinated with projection- and behavior-specific cell populations, enabling adaptive tuning of emotional responding and behavioral flexibility.
Mots clés
Long-Evans
Animals Brain Stem/chemistry/*physiology Extinction
Inbred C57BL Neural Pathways/chemistry/physiology Norepinephrine/analysis/*physiology Prefrontal Cortex/chemistry/*physiology Random Allocation Rats Rats
Psychological/*physiology Fear/physiology/psychology Learning/*physiology Locus Coeruleus/chemistry/*physiology Male Mice Mice