Abstract

The sodium-coupled neutral amino acid transporter SNAT2 (SLC38A2) has been shown to have important physiological functions and is implicated in various diseases like cancer. However, few compounds targeting this transporter have been identified and little is known about the structural requirements for SNAT2 binding. In this study, the aim was to establish the basic structure-activity relationship for SNAT2 using amino acid analogs. These analogs were first studied for their ability to inhibit SNAT2-mediated 3H-glycine uptake in hyperosmotically treated PC-3 cells. Then to identify substrates a FLIPR membrane potential assay and o-phthalaldehyde derivatization of intracellular amino with subsequent quantification using HPLC-Fl was used. The results showed that ester derivatives of the C-terminus maintained SNAT2 affinity, suggesting that the negative charge was less important. On the other hand, the positive charge at the N-terminus of the substrate and the ability to donate at least two hydrogen bonds to the binding site appeared important for SNAT2 recognition of the amine. Side chain charged amino acids generally had no affinity for SNAT2, but their non-charged derivatives were able to inhibit SNAT2-mediated 3H-glycine uptake, while also showing that amino acids of a notable length still had affinity for SNAT2. Several amino acid analogs appeared to be novel substrates of SNAT2, while γ-benzyl L-glutamate seemed to be inefficiently translocated by SNAT2. Elaborating on this structure could lead to the discovery of non-translocated inhibitors of SNAT2. Thus, the present study provides valuable insights into the basic structural binding requirements for SNAT2 and can aid the future discovery of compounds that target SNAT2.

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