Liu Xia, Charrier Laetitia, Gewirtz Andrew, Sitaraman Shanthi, Merlin Didier
Department of Medicine, Emory University School of Medicine, Atlanta, Georgia 30322, USA.
J Biol Chem. 2003 Jun 27;278(26):23672-7. doi: 10.1074/jbc.M302777200. Epub 2003 Apr 25.
We have previously shown that the heterodimer CD98/LAT-2 (LAT-2: amino acid transporter) is expressed in the basolateral membrane of intestinal epithelia and is associated with beta1 integrin (Merlin, D., Sitaraman, S., Liu, X., Easterburn, K., Sun, J., Kucharzik, T., Lewis, B., and Madara, J. L. (2001) J. Biol. Chem. 276, 39282-39289). In the present study we examined the interaction of CD98/LAT2 with intracellular adhesion molecule I (ICAM-1) and the potential of such interaction on the activation of intracellular signal in Caco2-BBE cell monolayers. ICAM-1 was found to be expressed to the basolateral domain and to selectively coimmunoprecipitate with CD98/LAT-2 in Caco2-BBE monolayers. Using antibodies as ligands to CD98 and ICAM-1, we demonstrate that the basolateral cross-linking of CD98 and ICAM-1 differentially affects the intrinsic activity of the LAT-2 transporter. Whereas CD98 ligation decreases the Km and Vm of the LAT-2 transporter, ICAM-1 ligation increases Km and Vm of the amino acid transporter LAT-2. In addition, basolateral cross-linking of CD98 or ICAM-1 induces threonine phosphorylation of an approximately 160-kDa supramolecular complex that is consistent with CD98/LAT-2-ICAM-1 complex. Together these findings demonstrate that (i). CD98/LAT-2 interacts with ICAM-1 in Caco2-BBE cell monolayers, and (ii). CD98 and ICAM-1 ligands generate intracellular signals that regulate the amino acids transporter (LAT-2) activity. Our data provide a novel mechanism by which events such as adhesion may be integrated by amino acid transport activity resulting from the direct interaction of cell surface molecules such as CD98 and ICAM-1.
我们之前已经表明,异二聚体CD98/LAT-2(LAT-2:氨基酸转运体)在肠上皮细胞的基底外侧膜中表达,并与β1整合素相关(梅林,D.,西塔拉曼,S.,刘,X.,伊斯特本,K.,孙,J.,库查齐克,T.,刘易斯,B.,和马达拉,J.L.(2001年)《生物化学杂志》276,39282 - 39289)。在本研究中,我们检测了CD98/LAT2与细胞间黏附分子1(ICAM - 1)的相互作用,以及这种相互作用对Caco2 - BBE细胞单层中细胞内信号激活的潜在影响。发现ICAM - 1在基底外侧结构域表达,并在Caco2 - BBE单层中与CD98/LAT - 2选择性地共免疫沉淀。使用针对CD98和ICAM - 1的抗体作为配体,我们证明CD98和ICAM - 1的基底外侧交联对LAT - 2转运体的内在活性有不同影响。虽然CD98连接降低了LAT - 2转运体的Km和Vm,但ICAM - 1连接增加了氨基酸转运体LAT - 2的Km和Vm。此外,CD98或ICAM - 1的基底外侧交联诱导了一个约160 kDa超分子复合物的苏氨酸磷酸化,这与CD98/LAT - 2 - ICAM - 1复合物一致。这些发现共同表明:(i). CD98/LAT - 2在Caco2 - BBE细胞单层中与ICAM - 1相互作用;(ii). CD98和ICAM - 1配体产生调节氨基酸转运体(LAT - 2)活性的细胞内信号。我们的数据提供了一种新机制,通过该机制,诸如黏附等事件可能由细胞表面分子如CD98和ICAM - 1的直接相互作用所产生的氨基酸转运活性整合起来。
