Litcius/Paper detail

Keeping Excitation–Inhibition Ratio in Balance

Sergei Kirischuk

2022International Journal of Molecular Sciences42 citationsDOIOpen Access PDF

Abstract

Unrelated genetic mutations can lead to convergent manifestations of neurological disorders with similar behavioral phenotypes. Experimental data frequently show a lack of dramatic changes in neuroanatomy, indicating that the key cause of symptoms might arise from impairment in the communication between neurons. A transient imbalance between excitatory (glutamatergic) and inhibitory (GABAergic) synaptic transmission (the E/I balance) during early development is generally considered to underlie the development of several neurological disorders in adults. However, the E/I ratio is a multidimensional variable. Synaptic contacts are highly dynamic and the actual strength of synaptic projections is determined from the balance between synaptogenesis and synaptic elimination. During development, relatively slow postsynaptic receptors are replaced by fast ones that allow for fast stimulus-locked excitation/inhibition. Using the binomial model of synaptic transmission allows for the reassessing of experimental data from different mouse models, showing that a transient E/I shift is frequently counterbalanced by additional pre- and/or postsynaptic changes. Such changes-for instance, the slowing down of postsynaptic currents by means of immature postsynaptic receptors-stabilize the average synaptic strength, but impair the timing of information flow. Compensatory processes and/or astrocytic signaling may represent possible targets for medical treatments of different disorders directed to rescue the proper information processing.

Topics & Concepts

Postsynaptic potentialExcitatory postsynaptic potentialNeuroscienceInhibitory postsynaptic potentialSynaptogenesisNeurotransmissionPostsynaptic CurrentGlutamatergicBiologyGlutamate receptorReceptorGeneticsNeuroscience and Neuropharmacology ResearchGenetics and Neurodevelopmental DisordersRNA and protein synthesis mechanisms