Presynaptic and Postsynaptic Determinants of the Functional Connectivity Between the Claustrum and Anterior Cingulate Cortex

Abstract

The claustrum (CLA) is a brain nucleus located between the insula and lateral striatum, implicated in a wide range of behaviors. Underpinning the different behavioral phenotypes is the connectivity between the claustrum and various cortical regions, including the anterior cingulate cortex (ACC). CLA projection neurons are glutamatergic neurons, however, the impact of CLA on its cortical targets has been shown in some studies to be inhibitory. Such inhibition is likely to arise from claustral activation of cortical interneurons, however, the intricate synaptic connectivity between different CLA and cortical cell types is not known. Here, we combine in vivo and ex vivo electrophysiology and optogenetics to reveal the functional organization of the CLA-ACC pathway according to the identity of its pre- and postsynaptic populations. Optogenetic stimulation of CLA neurons in awake mice resulted in multiphasic excitatory and inhibitory responses in ACC cells, which depended on the layer, cell type, and stimulated CLA population. Using ex vivo paired recordings in ACC, monosynaptic responses were recorded in pyramidal cells and different types of interneurons following photostimulation of CLA-ACC synaptic terminals. CLA axons formed monosynaptic connections in all ACC cortical layers, but the probability and strength of synaptic responses depended on the type of CLA projection, target layer in ACC, and the type of postsynaptic neuron. This intricate organization of the CLA-ACC pathway may explain the complex impact of CLA on ACC and other cortical regions, thus resolving some of the discrepancies in the field and shedding light on the functional role CLA plays in cortical function.