Neural Deletion of Glucose Transporter Isoform 3 Creates Distinct Postnatal and Adult Neurobehavioral Phenotypes

Overview

Journal J Neurosci

Specialty Neurology

Date 2018 Sep 21

PMID 30232223

Citations 13

Authors

Bo-Chul Shin

Carlos Cepeda

Ana Maria Estrada-Sanchez

Michael S Levine

Laya Hodaei

Yun Dai

Jai Jung

Amit Ganguly

Peter Clark

Sherin U Devaskar

Affiliations

Soon will be listed here.

Abstract

We created a neural-specific conditional murine () deletion () to examine the effect of a lack of Glut3 on neurodevelopment. Compared with age-matched = WT and heterozygotes (), we found that a >90% reduction in male and female brain Glut3 occurred by postnatal day 15 (PN15) in This genetic manipulation caused a diminution in brain weight and cortical thickness at PN15, a reduced number of dendritic spines, and fewer ultrasonic vocalizations. Patch-clamp recordings of cortical pyramidal neurons revealed increased frequency of bicuculline-induced paroxysmal discharges as well as reduced latency, attesting to a functional synaptic and cortical hyperexcitability. Concomitant stunting with lower glucose concentrations despite increased milk intake shortened the lifespan, failing rescue by a ketogenic diet. This led to creating mice lacking Glut3 in the adult male limbic system. These mice had normal lifespan, displayed reduced IPSCs in cortical pyramidal neurons, less anxiety/fear, and lowered spatial memory and motor abilities but heightened exploratory and social responses. These distinct postnatal and adult phenotypes, based upon whether gene is globally or restrictively absent, have implications for humans who carry copy number variations and present with neurodevelopmental disorders. Lack of the key brain-specific glucose transporter 3 gene found in neurons during early postnatal life results in significant stunting, a reduction in dendritic spines found on neuronal processes and brain size, heightened neuronal excitability, along with a shortened lifespan. When occurring in the adult and limited to the limbic system alone, lack of this gene in neurons reduces the fear of spatial exploration and socialization but does not affect the lifespan. These features are distinct heralding differences between postnatal and adult phenotypes based upon whether the same gene is globally or restrictively lacking. These findings have implications for humans who carry copy number variations pertinent to this gene and have been described to present with neurodevelopmental disorders.

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