Preclinical and clinical development of an anti-kappa free light chain mAb for multiple myeloma.

Monoclonal antibodies (mAb) have had tremendous success in treating a variety of cancers over the past twenty years. Yet despite their widespread clinical use, which includes treatments for haematological malignancies, there are still no approved mAb therapies for multiple myeloma (MM). This is likely to change within the next few years with a number of mAb therapies being assessed in late stage clinical trials, most notably, the anti-CS-1 mAb, elotuzumab, and the anti-CD38 mAb, daratumumab, which are currently being evaluated in Phase III clinical trials for MM.

Cell membrane associated free kappa light chains are found on a subset of tonsil and in vitro-derived plasmablasts.

The monoclonal antibody, MDX-1097, is currently progressing through clinical trials as a possible therapy for multiple myeloma. MDX-1097 targets a cell membrane bound form of free immunoglobulin kappa light chain (FκLC), termed kappa myeloma antigen (KMA), which is found on the surface of malignant plasma cells. The clinical potential of MDX-1097 highlights the need to characterise the expression of its cognate antigen, KMA, in normal tissue.

Formation of assemblies on cell membranes by secreted proteins: molecular studies of free λ light chain aggregates found on the surface of myeloma cells.

We have described the presence of cell-membrane-associated κFLCs (free immunoglobulin light chains) on the surface of myeloma cells. Notably, the anti-κFLC mAb (monoclonal antibody) MDX-1097 is being assessed in clinical trials as a therapy for κ light chain isotype multiple myeloma. Despite the clinical potential of anti-FLC mAbs, there have been limited studies on characterizing membrane-associated FLCs at a molecular level.

The ability to interact with cell membranes suggests possible biological roles for free light chain.

During antibody synthesis, immunoglobulin light chains are produced in excess of heavy chains and, as a consequence, can be secreted by plasma cells as free light chains (FLC). Thus, FLC were considered to be a by-product of immunoglobulin synthesis, lacking any biological function or relevance. However, mounting evidence suggests that FLC are bioactive molecules.

Characterization of a unique conformational epitope on free immunoglobulin kappa light chains that is recognized by an antibody with therapeutic potential.

The murine mAb, K-1-21, recognizes a conformational epitope expressed on free Ig kappa light chains (FκLCs) and also on cell membrane-associated FκLCs found on kappa myeloma cells. This has led to the development of a chimeric version of K-1-21, MDX-1097, which is being assessed in a Phase II clinical trial for the treatment of multiple myeloma. The epitope recognized by K-1-21 is of particular interest, especially in the context that it is not expressed on heavy chain-associated light chains such as in an intact Ig molecule.

Free Ig light chains interact with sphingomyelin and are found on the surface of myeloma plasma cells in an aggregated form.

Free κ L chains (FκLCs) are expressed on the surface of myeloma cells and are being assessed as a therapeutic target for the treatment of multiple myeloma. Despite its clinical potential, the mechanism by which FκLCs interact with membranes remains unresolved. In this study, we show that FκLCs associate with sphingomyelin on the plasma membrane of myeloma cells.

Characterisation of an immunodominant, high molecular weight glycoprotein on the surface of infectious Neoparamoeba spp., causative agent of amoebic gill disease (AGD) in Atlantic salmon.

Amoebic gill disease can be experimentally induced by the exposure of salmonids to Neoparamoeba spp. freshly isolated from infected fish, while cultured amoebae are non-infective. Results from our previous work suggested that one key difference between infectious and non-infectious Neoparamoeba were the highly glycosylated molecules in the glycocalyx.

Carbohydrate epitopes are immunodominant at the surface of infectious Neoparamoeba spp.

Amoebic gill disease, the main disease of concern to the salmon industry in Tasmania, is caused by the amoeba, Neoparamoeba spp. Experimental infection can only be induced by exposure to wild-type (WT) parasites isolated from the gills of infected fish, as cultured amoebae are non-infective. To characterize the surface antigens of WT parasites, we produced monoclonal antibodies (mAbs) using subtractive immunization.

Dissimilar aggregation processes govern precipitation and gelation of human IgM cryoglobulins.

Cryoglobulinemia is associated with a range of diseases including rheumatoid arthritis, B-cell malignancies, and chronic viral infections. This "cold-sensitivity" condition is caused by cryoglobulins that precipitate, gel, or occasionally crystallize in the cold. Clinical manifestations vary widely in severity, depending on many factors, including the type of cryoglobulin (monoclonal or mixed immunoglobulins) and the physical nature of the aggregates (precipitate, gel, or crystal).

Formation, transformation and transport of black carbon (charcoal) in terrestrial and aquatic ecosystems.

Black carbon (BC) is ubiquitous in terrestrial environments and its unique physical and chemical properties suggest that it may play an important role in the global carbon budget (GCB). A critical issue is whether the global production of BC results in significant amounts of carbon (C) being removed from the short-term bio-atmospheric carbon cycle and transferred to the long-term geological carbon cycle. Several dozen field and laboratory based studies of BC formation during the burning of biomass have been documented.

Marked differences in the structures and protein associations of lymphocyte and monocyte CD4: resolution of a novel CD4 isoform.

The structures, molecular interactions and functions of CD4 in a subset of T lymphocytes have been well characterized. The CD4 receptors of other cell types have, however, been poorly documented. We have previously shown that lymphocytes and monocytes/macrophages differ in their expression of CD4 monomers and dimers.

Changes in antigenic profile during culture of Neoparamoeba sp., causative agent of amoebic gill disease in Atlantic salmon.

Amoebic gill disease (AGD), the most serious infectious disease affecting farmed salmon in Tasmania, is caused by free-living marine amoeba Neoparamoeba sp. The parasites on the gills induce proliferation of epithelial cells initiating a hyperplastic response and reducing the surface area available for gaseous exchange. AGD can be induced in salmon by exposure to freshly isolated Neoparamoeba from AGD infected fish, however cultured Neoparamoeba are non-infective.

Expression and functional analysis of recombinant scFv and diabody fragments with specificity for human RhD.

In an attempt to generate recombinant anti-D reagents for possible diagnostic and therapeutic use we cloned the genes encoding the variable (V) domains of a human anti-D antibody secreted by the lymphoblastoid cell line BTSN4. A single-chain Fv (scFv) fragment was constructed using a 21 amino acid linker to join the genes encoding the variable domains of the BTSN4 heavy (VH) and light chains (VL). A diabody construct was also generated by reducing the length of the scFv linker from 21 to 10 residues.

Soluble expression of a functional recombinant cytolytic immunotoxin in insect cells.

We have previously described the production of a recombinant melittin-based cytolytic immunotoxin (IT), scFv-mel-FLAG, in bacterial cells. While the IT exhibited specific cytotoxicity for a human lymphoblastoid cell line, HMy2, yields from expression were low. Here, we describe a baculovirus expression system for the overexpression and secretion of scFv-mel-FLAG.

Antibody-antigen kinetics following immunization of rainbow trout (Oncorhynchus mykiss) with a T-cell dependent antigen.

Enhancement of the immune response through affinity maturation of the antibody response is a feature of the mammalian immune system and has important implications with respect to development of vaccination strategies. However, an absence of germinal centres and apparent lack of somatic hypermutation of immunoglobulin V genes suggests that this phenomenon does not occur in fish. We investigated the question of affinity maturation in rainbow trout (Oncorhynchus mykiss) by measuring antibody-antigen binding kinetics using a BIAcore biosensor.

IgM expressed by leukemic CD5(+) B cells binds mouse immunoglobulin light chain.

Mouse immunoglobulin (Ig) molecules have previously been shown to bind to the surface of CD5(+) B cells from patients with B-cell chronic lymphocytic leukemia (B-CLL). The results indicated that surface IgM was involved in the interaction and suggested the phenomenon was an example of the polyreactive binding capacity of the surface Ig (sIg) expressed by these malignant cells. This article describes the further characterization of the interaction between human IgM and mouse Ig molecules and subunits.

A C-type lectin from the tunicate, Styela plicata, that modulates cellular activity.

Previous studies have identified proteins from tunicates (invertebrate members of the Phylum Chordata) that have physicochemical and functional properties similar to those of the inflammatory cytokine, interleukin 1 (IL-1). Here we characterize one of those proteins from the tunicate, Styela plicata, that can stimulate tunicate and mammalian cell proliferation, activate phagocytosis, increase interleukin 2 (IL-2) secretion by mammalian peripheral blood mononuclear cells and enhance IL-2 receptor (IL-2R) expression by mammalian EL-4.IL-2 cells.

Characterisation of mucosal and systemic immune responses in rainbow trout (Oncorhynchus mykiss) using surface plasmon resonance.

Mucosal and systemic antibody production in rainbow trout, Oncorhynchus mykiss (Walbaum), was evaluated following different antigen delivery routes. A BIAcore instrument (Pharmacia) allowed direct detection of antibody-antigen interactions by surface plasmon resonance changes. These interactions were measured in real-time without secondary reagents or extraneous labels.

Structural aspects of human IgM antibodies expressed in chronic B lymphocytic leukemia.

Background: Malignant B cells from patients with chronic B lymphocytic leukemia (B CLL) generally express both surface IgM and the pan T cell antigen CD5, a characteristic of the B1 population of B lymphocytes. The IgM on the surface of these B CLL cells is frequently polyreactive with respect to its capacity to recognize multiple structurally dissimilar antigens (Ag).

Objectives: To understand the structural characteristics of the polyreactive binding sites of human IgM molecules expressed on B CLL cells by: (1) analyzing the nucleotide and protein sequences of the variable (V) domains of five IgM molecules expressed in cases of B CLL and; (2) utilizing these sequences to generate three-dimensional (3D) models of Fv (VL - VH) molecules.

Identification of a homologue of CD59 in a cyclostome: implications for the evolutionary development of the complement system.

We have employed a COS cell expression cloning procedure to isolate a full length cDNA clone encoding a hagfish leukocyte-associated membrane protein (HLMP1). The protein, which is identified by a monoclonal antibody (JB3) generated in our laboratory, is present on the majority of hagfish leukocytes and is also expressed on erythrocytes. The cDNA clone contained an open reading frame encoding a 120 residue polypeptide which exhibits 33% amino acid sequence identity with the precursor protein of human CD59, a leukocyte-associated membrane protein which regulates the action of the complement membrane attack complex on homologous cells.

Interleukin-10 inhibits the in vitro proliferation of human activated leukemic CD5+ B-cells.

B-cell chronic lymphocytic leukemia (B-CLL) is characterised by the proliferation and accumulation of sIgM+/CD5+ B-cells that fail to progress to the final stages of B-cell development. Despite their developmental arrest, leukemic CD5+ B-cells can undergo proliferation in vitro in the presence of different activators including phorbol esters, antibodies to cell surface antigens and human cytokines. Interleukin-10 (IL-10) has recently been found to inhibit CLL B-cell function in vitro by inducing apoptosis and down-regulating expression of bcl-2.

In vivo binding of mouse IgG via polyreactive surface IgM abrogates progressive lymphocytosis in prolymphocytic leukemia.

Surface IgM expressed by malignant CD5+ B-cells from patients with B-chronic lymphocytic leukemia (B-CLL) has previously been shown to bind mouse Ig in what appears to be an example of polyreactive antigen-binding activity. This report demonstrates the in vitro and in vivo binding of mouse Ig to the surface of malignant B-cells from a patient with B-cell prolymphocytic leukemia (B-PLL). In vitro studies showed that K121, a mouse monoclonal antibody, bound to the B-PLL cells via the same low-affinity binding interaction demonstrated to occur between mouse Ig and surface IgM expressed by B-CLL cells rather than in the conventional sense against a specific antigen via its antigen-binding site.

Cytokines and cross-linking of sIgM augment PMA-induced activation of human leukaemic CD5+ B cells.

Purified leukaemic CD5+ B cells obtained from patients with B cell chronic lymphocytic leukaemia (B-CLL) undergo activation and differentiation following in vitro stimulation with optimal concentrations of the phorbol ester PMA. This paper examines the ability of exogenous cytokines, anti-Ig antibodies, or combinations of these, to enhance or replace the activation signal provided by PMA to different populations of leukaemic B cells. Proliferation induced by PMA was enhanced 2-20-fold when the cells were co-cultured with either anti-Ig, IL-2, IL-4, IL-13, IFN-gamma or TNF-alpha.