Loss of the glutamate transporter splice-variant GLT-1b in inferior colliculus and its prevention by ceftriaxone in thiamine deficiency

Downregulation of astrocytic glutamate transporters is a feature of thiamine deficiency (TD), the underlying cause of Wernicke's encephalopathy, and plays a major role in its pathophysiology. Recent investigations suggest that ceftriaxone, a β-lactam antibiotic, stimulates GLT-1 expression and confers neuroprotection against ischemic and motor neuron degeneration. Thus, ceftriaxone treatment may be a protective strategy against excitotoxic conditions. In the present study, we examined the effects of ceftriaxone on the glutamate transporter splice-variant GLT-1b in rats with TD and in cultured astrocytes under TD conditions. Our results indicate that ceftriaxone protects against loss of GLT-1b levels in the inferior colliculus during TD, but with no significant effect in the thalamus and frontal cortex by immunoblotting and immunohistochemistry. Ceftriaxone also normalized the loss of GLT-1b in astrocyte cultures under conditions of TD. These results suggest that ceftriaxone has the ability to increase GLT-1b levels in astrocytes during TD, and may be an important pharmacological strategy for the treatment of excitotoxicity in this disorder.

Research highlights
► Thiamine deficiency (TD) in the rat results in a focal loss of GLT-1b protein in the inferior colliculus.
► TD in astrocyte cultures decreases levels of GLT-1b protein.
► Treatment of TD rats and cultured astrocytes with ceftriaxone reduces the loss of GLT-1b protein.
► Ceftriaxone may be an important therapeutic strategy for use in the treatment of excitotoxicity in TD.