RT Journal Article SR Electronic T1 Context-dependent limb movement encoding in neuronal populations of motor cortex JF bioRxiv FD Cold Spring Harbor Laboratory SP 588129 DO 10.1101/588129 A1 Wolfgang Omlor A1 Pia Sipilä A1 Anna-Sophia Wahl A1 Henry Lütcke A1 Balazs Laurenczy A1 I-Wen Chen A1 Lazar T. Sumanovski A1 Marcel van ’t Hoff A1 Philipp Bethge A1 Fabian F. Voigt A1 Martin E. Schwab A1 Fritjof Helmchen YR 2019 UL http://biorxiv.org/content/early/2019/03/25/588129.abstract AB Neuronal networks of the mammalian motor cortex (M1) are important for dexterous control of limb joints. Yet it remains unclear how encoding of joint movement in M1 networks depends on varying environmental contexts. Using calcium imaging we measured neuronal activity in layer 2/3 of the mouse M1 forelimb region while mice grasped either regularly or irregularly spaced ladder rungs during locomotion. We found that population coding of forelimb joint movements is sparse and varies according to the flexibility demanded from them in the regular and irregular context, even for equivalent grasping actions across conditions. This context-dependence of M1 network encoding emerged during learning of the locomotion task, fostered more precise grasping actions, but broke apart upon silencing of projections from secondary motor cortex (M2). These findings suggest that M2 reconfigures M1 neuronal circuits to adapt joint processing to the flexibility demands in specific familiar contexts, thereby increasing the accuracy of motor output.