Synthesis and evaluation of novel photoreactive α-amino acid analog carrying acidic and cleavable functions

Novel α-amino acid loading acidic residue and cleavable photophore was developed. Photoaffinity labeling with four enzymes confirmed residue specificity and facile cleavability. A novel photoreactive α-amino acid bearing an acidic residue and a cleavable diazirine was developed. To mimic common acidic α-amino acids, the residue was designed to be N-acylsulfonamide that possesses an acidic proton and is able to dissociate under the physiological conditions. The inhibition assay of its biotin-tagged derivative with glutamyl endopeptidase from Staphylococcus aureus V8 strain revealed a Ki app value of 162 μM, which is slightly higher than the K m value of a common substrate. Upon UV irradiation, this derivative specifically photolabeled glutamyl endopeptidase, l-glutamate dehydrogenase, glutamic oxalacetic transaminase, and l-glutamine synthetase, all the enzymes exhibit high affinity toward acidic α-amino acids. In addition, N-acylsulfonamide group functioned as a cleavable linker in mild basic solution after a brief N-alkylation. Either the multifunctional nature or the simple structure of this acidic α-amino acid surrogate would be useful as versatile photoreactive building block.