Litcius/Paper detail

Homeostasis of a representational map in the neocortex

Takahiro Noda, Eike Kienle, Jens-Bastian Eppler, Dominik F. Aschauer, Matthias Kaschube, Yonatan Loewenstein, Simon Rumpel

2025Nature Neuroscience9 citationsDOIOpen Access PDF

Abstract

Cortical function, including sensory processing, is surprisingly resilient to neuron loss during aging and neurodegeneration. In this Article, we used the mouse auditory cortex to investigate how homeostatic mechanisms protect the representational map of sounds after neuron loss. We combined two-photon calcium imaging with targeted microablation of 30-40 sound-responsive neurons in layer 2/3. Microablation led to a temporary disturbance of the representational map, but it recovered in the following days. Recovery was primarily driven by neurons that were initially unresponsive to sounds but gained responsiveness and strengthened the network's correlation structure. By contrast, selective microablation of inhibitory neurons caused prolonged disturbance, characterized by destabilized sound responses. Our results link individual neuron tuning and plasticity to the stability of the population-level representational map, highlighting homeostatic mechanisms that safeguard sensory processing in the neocortex.

Topics & Concepts

NeocortexNeuroscienceSensory systemAuditory cortexNeurodegenerationNeuronCalcium imagingBiologySomatosensory systemInhibitory postsynaptic potentialNeuroplasticityHomeostatic plasticitySensory processingHomeostasisSynaptic plasticityMetaplasticityCalciumReceptorChemistryDiseaseMedicineBiochemistryPathologyOrganic chemistryCell biologyNeural dynamics and brain functionNeuroscience and Neuropharmacology ResearchNeuroscience and Neural Engineering