Function and structure of heterodimeric amino acid transporters

Heterodimeric amino acid transporters are comprised of twosubunits, a polytopic membrane protein (light chain) and an associated type II membrane protein (heavy chain). The heavy chain rbAT (related to b^0,+ amino acid transporter) associates with the lightchain b^0,+AT (b^0,+ amino acid transporter) toform the amino acid transport system b^0,+, whereas thehomologous heavy chain 4F2hc interacts with several light chains toform system L (with LAT1 and LAT2), system y⁺L (withy⁺LAT1 and y⁺LAT2), system x(with xAT), or system asc (with asc1). The association of light chainswith the two heavy chains is not unambiguous. rbAT may interact withLAT2 and y⁺LAT1 and vice versa; 4F2hc may interact withb^0,+AT when overexpressed. 4F2hc is necessary fortrafficking of the light chain to the plasma membrane, whereas thelight chains are thought to determine the transport characteristics ofthe respective heterodimer. In contrast to 4F2hc, mutations in rbATsuggest that rbAT itself takes part in the transport besides servingfor the trafficking of the light chain to the cell surface. Heavy and light subunits are linked together by a disulfide bridge. The disulfidebridge, however, is not necessary for the trafficking of rbAT or 4F2heterodimers to the membrane or for the functioning of the transporter.However, there is experimental evidence that the disulfide bridge inthe 4F2hc/LAT1 heterodimer plays a role in the regulation of a cationchannel. These results highlight complex interactions between thedifferent subunits of heterodimeric amino acid transporters and suggestthat despite high grades of homology, the interactions between rbAT and4F2hc and their respective partners may be different.