Timothy J. Wilson

Type I IFN enhances follicular B cell contribution to the T cell–independent antibody response

Humoral immunity to viruses and encapsulated bacteria is comprised of T cell–independent type 2 (TI-2) antibody responses that are characterized by rapid antibody production by marginal zone and B1 B cells. We demonstrate that toll-like receptor (TLR) ligands influence the TI-2 antibody response not only by enhancing the overall magnitude but also by skewing this response to one that is dominated by IgG isotypes. Importantly, TLR ligands facilitate this response by inducing type I interferon (IFN), which in turn elicits rapid and significant amounts of antigen-specific IgG2c predominantly from FO (follicular) B cells. Furthermore, we show that although the IgG2c antibody response requires B cell–autonomous IFN-α receptor signaling, it is independent of B cell–intrinsic TLR signaling. Thus, innate signals have the capacity to enhance TI-2 antibody responses by promoting participation of FO B cells, which then elaborate effective IgG anti-pathogen antibodies.

A novel molecular interaction for the adhesion of follicular CD4 T cells to follicular DC

Nectins and Nectin‐like molecules (Necl) play a critical role in cell polarity within epithelia and in the nervous and reproductive systems. Recently, immune receptors specific for Nectins/Necl have been described. Since the expression and distribution of Nectins/Necl is often subverted during tumorigenesis, it has been suggested that the immune system may use these receptors to recognize and eliminate tumors. Here we describe a novel immunoreceptor, Washington University Cell Adhesion Molecule, which is expressed on human follicular B helper T cells (TFH) and binds a Nectin/Necl family member, the poliovirus receptor (PVR), under both static and flow conditions. Furthermore, we demonstrate that PVR is abundantly expressed by follicular DC (FDC) within the germinal center. These results reveal a novel molecular interaction that mediates adhesion of TFH to FDC and provide the first evidence that immune receptors for Nectins/Necl may be involved the generation of T cell‐dependent antibody responses.

Cutting Edge: Human FcRL4 and FcRL5 Are Receptors for IgA and IgG

Fc receptor-like (FcRL) proteins are a family of cellular receptors homologous to FcγRI and are predominantly expressed by B cells. They function to costimulate or inhibit BCR signaling through consensus ITAMs and ITIMs; however, the extracellular ligands of these receptors remain unknown or controversial. In this study, we tested the ability of human FcRL proteins to bind Igs and found FcRL4 and FcRL5 to be bona fide Fc receptors. In cellular binding assays, FcRL4 bound efficiently to IgA and FcRL5 binds all IgG isotypes with varied efficiency. Additionally, we generated mAbs capable of specifically blocking these interactions. Given their expression on activated B cells and potential for inhibitory signaling, FcRL4 and FcRL5 are likely to be important for immune complex-dependent human B cell regulation, and they represent novel therapeutic targets for receptor blockade therapies.

Fc Receptor-Like A Associates with Intracellular IgG and IgM but Is Dispensable for Antigen-Specific Immune Responses

FcR-like (FcRL) proteins comprise a family of lymphocyte receptors with homology to FcγRI. Among these receptors, FcRLA is uniquely interesting due to its intracellular localization, unusual structural features, and high expression within human germinal center and marginal zone B cells. Our analysis of human cell lines has confirmed that this receptor is not secreted but is maintained as an intracellular protein in B cells where it interacts with Igs, consistent with a possible role in Ab assembly. By generating FcRLA-specific antisera as well as knockout mice, we were able to unequivocally demonstrate that FcRLA protein is expressed exclusively in all mouse B cells. We also found that FcRLA is not required for the generation of Ag-specific humoral immune responses to T-dependent or T-independent Ags. However, given its highly conserved structure and universal expression within B cells, it is probable that FcRLA functions similarly in humans and mice. Cumulatively, our data suggest that FcRLA plays a role in Ig assembly that can be compensated for by other proteins.

Early Growth Response (Egr)-1 Gene Induction in the Thymus in Response to TCR Ligation During Early Steps in Positive Selection Is Not Required for CD8 Lineage Commitment

The early growth response gene 1 (Egr-1) is induced during positive selection in the thymus and has been implicated in the differentiation of CD4+ thymocytes. Here, we show that signals that specifically direct CD8 lineage commitment also induce Egr-1 DNA-binding activity in the nucleus. However, we find that pharmacological inhibition of mitogen-activated protein kinase/extracellular signal-related kinase kinase activity potently inhibits Egr-1 DNA-binding function at concentrations that promote differentiation of CD8+ thymocytes, suggesting Egr-1 activity is not essential for CD8 commitment. To further determine the role of Egr-1 in thymocyte development, we compare steady-state Egr-1 DNA-binding activity in thymocytes from mice with defined defects in positive selection. The data indicate that the appearance of functional Egr-1 is downstream of signals induced by TCR/MHC engagement, whereas it is less sensitive to alterations in Lck-mediated signals, and does not correlate directly with proficient positive selection. Egr-1 is one of the earliest transcription factors induced upon TCR ligation on immature thymocytes, and plays a potential role in the transcription of genes involved in thymocyte selection.

Developing the IVIG biomimetic, Hexa-Fc, for drug and vaccine applications

The remarkable clinical success of Fc-fusion proteins has driven intense investigation for even more potent replacements. Using quality-by-design (QbD) approaches, we generated hexameric-Fc (hexa-Fc), a ~20 nm oligomeric Fc-based scaffold that we here show binds low-affinity inhibitory receptors (FcRL5, FcγRIIb, and DC-SIGN) with high avidity and specificity, whilst eliminating significant clinical limitations of monomeric Fc-fusions for vaccine and/or cancer therapies, in particular their poor ability to activate complement. Mass spectroscopy of hexa-Fc reveals high-mannose, low-sialic acid content, suggesting that interactions with these receptors are influenced by the mannose-containing Fc. Molecular dynamics (MD) simulations provides insight into the mechanisms of hexa-Fc interaction with these receptors and reveals an unexpected orientation of high-mannose glycans on the human Fc that provides greater accessibility to potential binding partners. Finally, we show that this biosynthetic nanoparticle can be engineered to enhance interactions with the human neonatal Fc receptor (FcRn) without loss of the oligomeric structure, a crucial modification for these molecules in therapy and/or vaccine strategies where a long plasma half-life is critical.

A new Fc receptor homolog, FREB2, found in germinal center B cells.

Fc receptor homologs are a recently identified family of proteins homologous to FcγRI, found on human and mouse B cells. One of these, FREB/FcRX/FCRL, was found to be unique since it lacks a transmembrane domain and is expressed intracellularly within germinal center B cells. We have identified in humans and mice a new Fc receptor homolog, FREB2, that blends conserved elements of the classical Fc gamma receptors with structural motifs previously thought to be unique to FREB1. This protein is comprised of three immunoglobulin-like domains with high homology to those in FcγRI, and a C-terminus containing a proline-rich stalk region followed by a leucine-rich amphipathic alpha helix. Like FREB1, FREB2 is expressed as an intracellular protein. In murine splenocytes, RNA transcripts for each of the two proteins can be amplified from germinal center B cells. However, immunohistochemical analysis of human tonsils indicates that expression of FREB1 and FREB2 is mutually exclusive in non-neoplastic cells. Importantly, FREB2 expression within human tonsils appears to be limited to a small subset of nonproliferating germinal center B cells, suggesting that it may play a role in regulating clonal expansion or differentiation of B cells during the germinal center reaction.

A novel molecular interaction for the adhesion of follicular CD4 T cells to follicular DC: HIGHLIGHTS

Nectins and Nectin‐like molecules (Necl) play a critical role in cell polarity within epithelia and in the nervous and reproductive systems. Recently, immune receptors specific for Nectins/Necl have been described. Since the expression and distribution of Nectins/Necl is often subverted during tumorigenesis, it has been suggested that the immune system may use these receptors to recognize and eliminate tumors. Here we describe a novel immunoreceptor, Washington University Cell Adhesion Molecule, which is expressed on human follicular B helper T cells (TFH) and binds a Nectin/Necl family member, the poliovirus receptor (PVR), under both static and flow conditions. Furthermore, we demonstrate that PVR is abundantly expressed by follicular DC (FDC) within the germinal center. These results reveal a novel molecular interaction that mediates adhesion of TFH to FDC and provide the first evidence that immune receptors for Nectins/Necl may be involved the generation of T cell‐dependent antibody responses.

A novel molecular interaction for the adhesion of follicular CD4 T cells to follicular dendritic cells

Nectins and Nectin‐like molecules (Necl) play a critical role in cell polarity within epithelia and in the nervous and reproductive systems. Recently, immune receptors specific for Nectins/Necl have been described. Since the expression and distribution of Nectins/Necl is often subverted during tumorigenesis, it has been suggested that the immune system may use these receptors to recognize and eliminate tumors. Here we describe a novel immunoreceptor, Washington University Cell Adhesion Molecule, which is expressed on human follicular B helper T cells (TFH) and binds a Nectin/Necl family member, the poliovirus receptor (PVR), under both static and flow conditions. Furthermore, we demonstrate that PVR is abundantly expressed by follicular DC (FDC) within the germinal center. These results reveal a novel molecular interaction that mediates adhesion of TFH to FDC and provide the first evidence that immune receptors for Nectins/Necl may be involved the generation of T cell‐dependent antibody responses.