The HMG1/2 family is a large group of proteins that share a conserved sequence of approximately 80 amino acids rich in basic, aromatic and proline side chains, referred to as an HMG box. Previous studies show that HMG boxes can bind to DNA in a structure-specific manner. To define the basis for DNA recognition by HMG boxes, we characterize the interaction of two model HMG boxes, one a structure-specific box, rHMGb from the rat HMG1 protein, the other a sequence-specific box, Rox1 from yeast, with oligodeoxynucleotide substrates. Both proteins interact with single-stranded oligonucleotides in this study to form 1:1 complexes. The stoichiometry of binding of rHMGb to duplex or branched DNAs differs: for a 16mer duplex we find a weak 2:1 complex, while a 4:1 protein:DNA complex is detected with a four-way DNA junction of 16mers in the presence of Mg(2+). In the case of the sequence-specific Rox1 protein we find tight 1:1 and 2:1 complexes with its cognate duplex sequence and again a 4:1 complex with four-way branched DNA. If the DNA branching is reduced to three arms, both proteins form 3:1 complexes. We believe that these multimeric complexes are relevant for HMG1/2 proteins in vivo, since Mg(2+) is present in the nucleus and these proteins are expressed at a very high level.
Tissue factor (TF) initiates the extrinsic pathway of blood coagulation through sequential binding and activation of coagulation factors VII (FVII) and X (FX). In addition, through activation of G-protein-coupled protease activated receptors (PARs) TF induces cell signaling that is related to cancer, angiogenesis and inflammation. Monoclonal antibodies (mAbs) proved to be a useful tool for studying the interplay between TF signaling and coagulation. MAb 10H10 is unique in that it blocks the signaling pathway and thus inhibits angiogenesis and tumor growth without interfering with coagulation. It was also presumed that mAb 10H10 recognizes the cryptic pool of TF devoid of procoagulant activity. The crystal structure of the 10H10 Fab was determined in the absence and in the presence of the TF extracellular domain (ECD). The structures show that the antibody operates by the key-and-lock mechanism causing no conformational changes in either Fab or TF. The TF:10H10 interface is extensive and includes five segments of TF in both the N-terminal and C-terminal domains of the ECD. Neither the known epitope of FVII, nor the putative epitope of FX overlaps with the 10H10 binding site. The 10H10 epitope points to the likely location of the PAR2 exosite. It is also the hypothetical site of TF interaction with integrins that may play a major role in the encryption-decryption process.
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