Early down regulation of the glial Kir4.1 and GLT-1 expression in pericontusional cortex of the old male mice subjected to traumatic brain injury

Astroglia play multiple roles in brain function by providing matrix to neurons, secreting neurotrophic factors, maintaining K+ and glutamate homeostasis and thereby controlling synaptic plasticity which undergoes alterations during aging. K+ and glutamate homeostasis is maintained by astrocytes membrane bound inwardly rectifying K+ channel (Kir4.1) and glutamate transporter-1 (GLT-1 or EAAT-2) proteins, respectively in the synapse and their expression may be altered due to traumatic brain injury (TBI). Also, it is not well understood whether this change is age dependent. To find out this, TBI was experimentally induced in adult and old male AKR strain mice using CHI technique, and expression of the Kir4.1 and GLT-1 in the pericontusional cortex at various time intervals was studied by Western blotting and semi quantitative RT-PCR techniques. Here, we report that expression of both Kir4.1 and GLT-1 genes at transcript and protein levels is significantly down regulated in the pericontusional ipsi-lateral cortex of old TBI mice as compared to that in the adult TBI mice as function of time after injury. Further, expression of both the genes starts decreasing early in old mice i.e., from the first hour after TBI as compared to that starts from fourth hour in adult TBI mice. Thus TBI affects expression of Kir4.1 and GLT-1 genes in age- and time dependent manner and it may lead to accumulations of more K+ and glutamate early in the synapse of old mice as compared to adult. This may be implicated in the TBI induced early and severe neuronal depolarization and excito-neurotoxicity in old age.