Look-up and look-down neurons in the mouse visual thalamus during freely moving exploration

Visual information reaches cortex via the thalamic dorsal lateral geniculate nucleus (dLGN). dLGN activity is modulated by global sleep/wake states and arousal, indicating that it is not simply a passive relay station. However, its potential for more specific visuomotor integration is largely unexplored. We addressed this question by developing robust 3D video reconstruction of mouse head and body during spontaneous exploration paired with simultaneous neuronal recordings from dLGN. Unbiased evaluation of a wide range of postures and movements revealed a widespread coupling between neuronal activity and few behavioral parameters. In particular, postures associated with the animal looking up/down correlated with activity in >50% neurons, and the extent of this effect was comparable with that induced by full-body movements (typically locomotion). By contrast, thalamic activity was minimally correlated with other postures or movements (e.g., left/right head and body torsions). Importantly, up/down postures and full-body movements were largely independent and jointly coupled to neuronal activity. Thus, although most units were excited during full-body movements, some expressed highest firing when the animal was looking up (“look-up” neurons), whereas others expressed highest firing when the animal was looking down (“look-down” neurons). These results were observed in the dark, thus representing a genuine behavioral modulation, and were amplified in a lit arena. Our results demonstrate that the primary visual thalamus, beyond global modulations by sleep/awake states, is potentially involved in specific visuomotor integration and reveal two distinct couplings between up/down postures and neuronal activity. •Upward- and downward-facing postures are coupled to firing rate in thalamic dLGN•The coupling to up/down postures is largely independent from locomotion•The coupling is diverse and expressed via look-up and look-down neurons•Look-up and look-down neuron types are stable across dark and photopic light Orlowska-Feuer et al. found that in freely moving mice, upward- and downward-facing postures are associated with excitation of two distinct populations in thalamic dLGN, defined as look-up and look-down neurons. This effect is largely independent from locomotion, is present in the dark, and is amplified under photopic light.