Deep cortical layers are activated directly by thalamus
CM Constantinople, RM Bruno - Science, 2013 - science.org
Science, 2013•science.org
The thalamocortical (TC) projection to layer 4 (L4) is thought to be the main route by which
sensory organs communicate with cortex. Sensory information is believed to then propagate
through the cortical column along the L4→ L2/3→ L5/6 pathway. Here, we show that
sensory-evoked responses of L5/6 neurons in rats derive instead from direct TC synapses.
Many L5/6 neurons exhibited sensory-evoked postsynaptic potentials with the same
latencies as L4. Paired in vivo recordings from L5/6 neurons and thalamic neurons revealed …
sensory organs communicate with cortex. Sensory information is believed to then propagate
through the cortical column along the L4→ L2/3→ L5/6 pathway. Here, we show that
sensory-evoked responses of L5/6 neurons in rats derive instead from direct TC synapses.
Many L5/6 neurons exhibited sensory-evoked postsynaptic potentials with the same
latencies as L4. Paired in vivo recordings from L5/6 neurons and thalamic neurons revealed …
The thalamocortical (TC) projection to layer 4 (L4) is thought to be the main route by which sensory organs communicate with cortex. Sensory information is believed to then propagate through the cortical column along the L4→L2/3→L5/6 pathway. Here, we show that sensory-evoked responses of L5/6 neurons in rats derive instead from direct TC synapses. Many L5/6 neurons exhibited sensory-evoked postsynaptic potentials with the same latencies as L4. Paired in vivo recordings from L5/6 neurons and thalamic neurons revealed substantial convergence of direct TC synapses onto diverse types of infragranular neurons, particularly in L5B. Pharmacological inactivation of L4 had no effect on sensory-evoked synaptic input to L5/6 neurons. L4 is thus not an obligatory distribution hub for cortical activity, and thalamus activates two separate, independent “strata” of cortex in parallel.
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