Transporters for cationic amino acids in animal cells:: Discovery, structure, and function

The structure and function of the four cationic amino acid transporters identified in animal cells are discussed. The systems differ in specificity, cation dependence, and physiological role. One of them, system y(+), is selective for cationic amino acids, whereas the others (B-0,B-+, b(0,+) and y(+)L) also accept neutral amino acids. In recent years, cDNA clones related to these activities have been isolated. Thus two families of proteins have been identified: 1) CAT or cationic amino acid transporters and 2) BAT or broad-scope transport proteins. In the CAT family, three genes encode for four different isofonns [CAT-1, CAT-2A, CAT-2CB) and CAT-3]; these are similar to 70-kDa proteins with multiple transmembrane segments (12-14), and despite their structural similarity, they differ in tissue distribution, kinetics, and regulatory properties. System y(+) is the espression of the actitity of CAT transporters. The BAT family includes two isoforms (rBAT and 4F2hc); these are 59-to 78-kDa proteins with one to four membrane-spanning segments, and it has been proposed that these proteins act as transport regulators. The expression of rBAT and 4F2hc induces system b(0,+) and system y(+)L activity in Xenopus laevis oocytes, respectively. The roles of these transporters in nutrition, endocrinology, nitric oxide biology, and immunology, as well as in the genetic diseases cystinuria and lysinuric protein intolerance, are resiewed. Experimental strategies, which can be used in the Idnetic characterization of coexpressed transporters, are also discussed.