Anthony W. Siadak scite author profile

The 4-1BB receptor is an inducible type I membrane protein and member of the tumor necrosis factor receptor (TNFR) superfamily that is rapidly expressed on the surface of CD4+ and CD8+ T cells after antigen- or mitogen-induced activation. Cross-linking of 4-1BB and the T cell receptor (TCR) on activated T cells has been shown to deliver a costimulatory signal to T cells. Here, we expand upon previously published studies by demonstrating that CD8+ T cells when compared with CD4+ T cells are preferentially responsive to both early activation events and proliferative signals provided via the TCR and 4-1BB. In comparison, CD28-mediated costimulatory signals appear to function in a reciprocal manner to those induced through 4-1BB costimulation. In vivo examination of the effects of anti-4-1BB monoclonal antibodies (mAbs) on antigen-induced T cell activation have shown that the administration of epitope-specific anti-4-1BB mAbs amplified the generation of H-2d–specific cytotoxic T cells in a murine model of acute graft versus host disease (GVHD) and enhanced the rapidity of cardiac allograft or skin transplant rejection in mice. Cytokine analysis of in vitro activated CD4+ and CD8+ T cells revealed that anti-4-1BB costimulation markedly enhanced interferon-γ production by CD8+ T cells and that anti-4-1BB mediated proliferation of CD8+ T cells appears to be IL-2 independent. The results of these studies suggest that regulatory signals delivered by the 4-1BB receptor play an important role in the regulation of cytotoxic T cells in cellular immune responses to antigen.

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Anti-CD40 therapy extends renal allograft survival in rhesus macaques1

Pearson

Trambley²,

Odom³

et al. 2002

Transplantation

151

133

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Identification of Residues on CD40 and Its Ligand Which Are Critical for the Receptor-Ligand Interaction

Bajorath

Chalupny²,

Marken³

et al. 1995

Biochemistry

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Interactions between gp39 (CD40L, TRAP, T-BAM) on activated T cells and CD40 on antigen-presenting cells play an important role in regulating antibody production by B cells, cytokine production by monocytes, and other immune responses which require T cell "help". Using structure-based sequence alignments, a molecular model of gp39, site-directed mutagenesis, and receptor-ligand binding assays, we have identified CD40 and gp39 surface residues which are important for receptor-ligand binding. Binding studies with CD40 or gp39 proteins containing single and double amino acid substitutions showed that CD40 residues Y82, D84, and N86 are involved in gp39 binding, while gp39 residues K143 and Y145 are important for CD40 binding. Analysis of the location of amino acid substitutions in the naturally occurring gp39 mutants expressed by the X-linked hyper-IgM (X-HIM) patients studied to date indicated the E129/G substitution found in the S128/R-E129/G double mutant affects a solvent-accessible residue which might participate in CD40/gp39 binding. Binding studies with E129/G and E129/A gp39 point mutants showed that this residue does not contribute directly to CD40/gp39 binding but that its substitution with a glycine disrupts the gp39 structure. Comparison of the gp39 and CD40 residues involved in receptor-ligand contacts with those previously identified as playing an important role in TNF-beta/TNFR binding suggests that some of the identified residues from contacts similar to those found in the TNF-beta/TNFR while others are unique to the CD40-gp39 interaction.

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The Amino-terminal Immunoglobulin-like Domain of Activated Leukocyte Cell Adhesion Molecule Binds Specifically to the Membrane-proximal Scavenger Receptor Cysteine-rich Domain of CD6 with a 1:1 Stoichiometry

Bowen

Bajorath

Siadak

et al. 1996

Journal of Biological Chemistry

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Activated leukocyte cell adhesion molecule (ALCAM)was recently identified as a ligand for CD6, a signaling receptor expressed on T cells, a subset of B cells, and some cells in the brain. Receptor-ligand binding assays, antibody blocking experiments, and examination of the tissue distribution of these two cell surface proteins suggest that CD6-ALCAM interactions play an important role in mediating the binding of thymocytes to thymic epithelial cells and of T cells to activated leukocytes. Presently, the details of CD6-ALCAM interactions and of signaling through CD6 are unknown. A series of truncated human ALCAM and CD6 immunoglobulin fusion proteins were produced and tested in different binding assays to analyze ALCAM-CD6 interactions in more detail. In this study, we report that the amino-terminal Ig-like domain of human ALCAM specifically binds to the third membrane-proximal scavenger receptor cysteine-rich (SRCR) domain of human CD6. Using thrombin-cleaved Ig fusion proteins containing single or multiple ALCAM or CD6 domains, we were able to determine that the stoichiometry of the interaction between the amino-terminal ALCAM domains and the membrane-proximal CD6 SRCR domain is 1:1. These results provide the first example of an Ig-like domain mediating an interaction with an SRCR domain. Ig supergene family (IgSF)1 members have been shown to interact with a wide variety of other molecules, including integrins, cytokines, and other IgSF members. Many of these interactions are mediated through protein-protein contacts, although a subset of these proteins, known as sialoadhesins, recognize sialic acid (1). Recently, we have reported on a novel interaction between an IgSF member, activated leukocyte cell adhesion molecule (ALCAM), and a member of the scavenger receptor cysteine-rich (SRCR) family of proteins, CD6 (2). Soluble recombinant proteins consisting of the extracellular domains of either ALCAM or CD6 fused to human IgG1 constant domains were shown to specifically bind to COS cell transfectants expressing CD6 or ALCAM, respectively.ALCAM is a type I membrane protein whose extracellular domain is composed of five Ig-like domains: two amino-terminal V set Ig domains followed by three domains of the C2 set, a hydrophobic transmembrane domain, and a short cytoplasmic anchor sequence (2). ALCAM is also known as SC-1/DM-GRASP/ BEN in the chicken (3-5) and as KG-CAM in the rat (6). The chicken counterpart of ALCAM is a neural adhesion molecule capable of supporting neurite outgrowth (4, 5). Data from the chicken indicate that ALCAM is capable of homophilic interactions (4, 5), and the possibility of such interactions has also been suggested on the basis of molecular modeling (7). We have previously reported that COS cells that expressed CD6 were able to bind to ALCAM positive thymic epithelial cells, which suggested that CD6 and ALCAM binding can mediate adhesive interactions between thymocytes and thymic epithelial cells (2).CD6, also a type I membrane protein (8), is expressed by thymocytes, T cells, a subset of...

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The Membrane-proximal Scavenger Receptor Cysteine-rich Domain of CD6 Contains the Activated Leukocyte Cell Adhesion Molecule Binding Site

Whitney¹,

Starling²,

Bowen

et al. 1995

Journal of Biological Chemistry

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Binding studies with a CD6 immunoglobulin fusion protein (CD6 Rg) resulted in the identification and cloning of a CD6 ligand. This ligand was found to be a member of the immunoglobulin supergene family and was named ALCAM (activated leukocyte cell adhesion molecule). Cell adhesion assays showed that CD6-ALCAM interactions mediate thymocyte-thymic epithelium cell binding. ALCAM is also expressed by activated leukocytes and neurons and may be involved in interactions between T cells and activated leukocytes and between cells of the immune and nervous systems, respectively. Herein we describe the preparation of domain-specific murine CD6 Rg fusion proteins and show that the membrane-proximal SRCR (scavenger receptor cysteine-rich) domain of CD6 contains the ALCAM binding site. We also show that mAbs which bind to this domain preferentially block CD6-ALCAM binding. These results demonstrate that the membrane-proximal SRCR domain of CD6 is necessary for CD6 binding to ALCAM and provide the first direct evidence for the interaction of an SRCR domain with a ligand.

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Anthony W. Siadak

4-1BB Costimulatory Signals Preferentially Induce CD8+ T Cell Proliferation and Lead to the Amplification In Vivo of Cytotoxic T Cell Responses

Anti-CD40 therapy extends renal allograft survival in rhesus macaques1

Identification of Residues on CD40 and Its Ligand Which Are Critical for the Receptor-Ligand Interaction

The Amino-terminal Immunoglobulin-like Domain of Activated Leukocyte Cell Adhesion Molecule Binds Specifically to the Membrane-proximal Scavenger Receptor Cysteine-rich Domain of CD6 with a 1:1 Stoichiometry

The Membrane-proximal Scavenger Receptor Cysteine-rich Domain of CD6 Contains the Activated Leukocyte Cell Adhesion Molecule Binding Site

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