Abstract. Tat, the transactivation factor of human immunodeflciency virus type 1 (HIV-1), contains the highly conserved tripeptide sequence Arg-Gly-Asp (RGD) that characterizes sites for integrin-mediated cell adhesion. The tat protein was assayed for cell attachment activity by measuring the adhesion of monocytic, T lymphocytic, and skeletal muscle-derived cell lines to tat-coated substratum. All cell lines tested bound to tat in a dose-dependent manner and the tat cell adhesion required the RGD sequence because tat mutants constructed to contain an RGE or KGE tripeptide sequence did not mediate efficient cell adhesion. The tat-mediated cell attachment also required divalent cations and an intact cytoskeleton. In addition, cell adhesion to tat was inhibited in the presence of an RGD-containing peptide GRGDSPK or an antitat mAb that recognizes the RGD epitope. These results strongly suggest that cells are bound to tat through an integrin. Interestingly, myoblast cells bound to tat remained round, whereas the same cells attached through an integrin for a matrix protein typicaUy flatten and spread. The role of this RGD-dependent cellular adhesion of tat in HIV-1 infection remains to be determined.p ROTEINS that interact with integrin cell adhesion receptors frequently contain the amino acid tripeptide RGD sequence (5,20,26,30) within the integrin binding site. RGD sequences are found in fibronectin, vitronectin and collagen and constitute extracellular matrix attachment sites used for integrin-mediated cell adherence during development and differentiation (30). Integrin receptors on leukocytes bind to coagulation proteins (von Willebrand factor, fibrinogen, thrombospondin) and complement components (C3b), and participate in cell-cell adhesion (LFA-1 with I-CAM). These interactions are involved in homeostatic regulation, phagocytosis, cell migration, cell signaling, cellular trafficking, and lymphocyte recognition (11, 23,30,39). In addition, certain bacterial, parasitic, and viral proteins possess RGD sequences which recognize integrin receptors and may contribute to pathogenesis (1, 30, 31).Human immunodeficiency virus type I (HIV-1),~ the etiologic agent of AIDS (6,17,22,28), encodes a gene for a transactivating protein, termed tat, which contains an RGD sequence. HIV-1 tat is an 86-amino acid-long protein, which greatly increases viral gene expression and replication (2,4,13,14,34,35). The tripeptide RGD sequence in tat is 10-Dr. Brake's present address is Biological Research, SmithKline Beecham Animal Health Products, King of Prussia, PA, 19406-0939. Address all correspondence to Dr. C: Debouck. cated in the carboxy-terminal portion of the protein and is highly conserved among HW-1 isolates (Fig. 1) (24). The presence of an RGD sequence within tat raised the intriguing possibility that this tripeptide could constitute a cell attachment site. In this study, purified tat protein was assayed for cell attachment to various cell types. The observed cell adhesion was further characterized using an RGD-containing pep...
