Abstract

Amino acid transporters are expressed in the brain capillary endothelial cells that form the blood-brain barrier (BBB), and their expression levels change during the neonatal period. This study aimed to investigate the molecular mechanisms regulating amino acid transporter levels in mouse brain capillary endothelial cells. Capillaries were isolated from the brains of neonatal and adult mice. Activation of eukaryotic translation initiation factor 2α kinase 4 (eIF2αK4) was analyzed in MBEC4 (mouse brain capillary endothelial) cells under amino acid-depleted conditions. Protein expression was determined using western blotting and proteomic analyses. Phosphorylation of eIF2α, a downstream target of eIF2αK4, was induced in the brain capillaries of neonates compared to adults. In vitro experiments using MBEC4 cells revealed that amino acid depletion induced eIF2α phosphorylation and expression of the amino acid transporter, solute carrier (Slc)-7a1. The eIF2αK4 inhibitor, GCN2iB, inhibited these inductions. Proteomic analysis revealed arginine depletion-dependent induction of amino acid transporters Slc1a4, Slc3a2, Slc7a1, Slc7a5, and Slc38a1. These effects were also inhibited by GCN2iB, suggesting the involvement of eIF2αK4 activation. In contrast, the expression of Slc2a1, Slc16a1, Abcb1b, Abcg2, transferrin receptor, insulin receptor, claudin-1, ZO-1, and Jam1 was not suppressed by the GCN2iB treatment. Overall, the eIF2αK4 pathway plays a regulatory role in amino acid transporter expression in brain capillary endothelial cells and facilitates the maintenance of amino acid homeostasis in the brain. This study provides new insights into the regulatory mechanisms underlying nutrient transport across the BBB.

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