CD32B1, a versatile non-signaling antibody-binding scaffold for enhanced T cell adhesion to tumor stromal cognate antigens.

Targeting cytotoxic T lymphocytes (CTLs), as chimeric antigen T cells (CAR-T), T cell receptor-engineered (TCR)-T cells or adoptive cell transfer of tumor infiltrating T cells (TILs) to solid tumors is a major therapeutic challenge. We describe a new strategy to confer these lymphocytes with adhesiveness to surface proteins enriched in the tumor microenvironment. This approach is based on decorating CTLs with monoclonal antibodies (mAbs) specific to any surface protein of interest within the stroma and the extracelullar matrix of solid tumors.

Regulatory CD4 T cells redirected against pathogenic CD8 T cells protect NOD mice from development of autoimmune diabetes.

Introduction: In this study, we report a novel therapeutic approach redirecting antigen-specific CD4 T cells recognizing a hybrid insulin peptide (BDC2.5 T cell receptor (TCR) transgenic CD4 T cells) to attract and suppress islet-specific CD8 T cells T cells in the non-obese diabetic (NOD) mouse model, and prevent the development of autoimmune diabetes.

Methods: Purified BDC2.

Genetic Modification of Tumor-Infiltrating Lymphocytes, Peripheral T Cells, and T-Cell Model Cell Lines.

Genetic modification of tumor-infiltrating lymphocytes (TILs) or circulating T cells has become an important avenue in cancer therapy. Here we describe a comprehensive method for establishing and expanding TIL cultures and genetically modifying them with a gene of interest (GOI) via retroviral transduction or mRNA transfection. The method includes all the important steps starting with TIL extraction from tumors through to the maintenance of the genetically modified TILs.

Novel engineered B lymphocytes targeting islet-specific T cells inhibit the development of type 1 diabetes in non-obese diabetic Scid mice.

Introduction: In this study, we report a novel therapeutic approach using B lymphocytes to attract islet-specific T cells in the non-obese diabetic (NOD) mouse model and prevent the development of autoimmune diabetes. Rather than using the antibody receptor of B cells, this approach utilizes their properties as antigen-presenting cells to T cells.

Methods: Purified splenic B cells were treated with lipopolysaccharide, which increases regulatory B (Breg) cell function, then electroporated with mRNA encoding either chimeric MHC-I or MHC-II molecules covalently linked to antigenic peptides.

Implementing Logic Gates for Safer Immunotherapy of Cancer.

Targeting solid tumors with absolute precision is a long-standing challenge in cancer immunotherapy. The identification of antigens, which are expressed by a large fraction of tumors of a given type and, preferably, across various types, but not by normal cells, holds the key to developing safe, off-the-shelf immunotherapies. Although the quest for widely shared, strictly tumor-specific antigens has been the focus of tremendous effort, only few such candidates have been implicated.

The Intracellular Domain of CD40 is a Potent Costimulatory Element in Chimeric Antigen Receptors.

The costimulatory domains incorporated into second-generation and third-generation chimeric antigen receptors (CARs) strongly influence CAR-T-cell function. Here, we explored second-generation and third-generation CARs harboring the signaling domain of the CD40 receptor as a new costimulatory element in comparison with similar CARs carrying the 4-1BB domain. In CARs of both generations, CD40 was more potent than 4-1BB in triggering the NF-κB signaling pathway.

Genetic Modification of Tumor-Infiltrating Lymphocytes Retroviral Transduction.

Adoptive T cell therapy (ACT) holds great promise for cancer treatment. One approach, which has regained wide interest in recent years, employs antitumor T cells isolated from tumor lesions ("tumor-infiltrating lymphocytes" or TIL). It is now appreciated that a considerable proportion of anti-melanoma TIL recognize new HLA-binding peptides resulting from somatic mutations, which occurred during tumor progression.

Endowing human CD8 T cells with a veto-like recognition capacity via the electroporation of MHC-I/CD3ζ mRNA.

Graft-versus-host disease (GVHD) and transplant rejection as a result of host-versus-graft (HVG) response have remained two major complications of allogeneic hematopoietic stem cell transplantation (allo-HSCT). When donors are partially HLA-mismatched unrelated or haploidentical related, their severity correlates with the degree of HLA disparity. Specific elimination of alloreactive donor or recipient T cells targeting the mismatched HLA products could markedly alleviate both complications while only minimally affecting graft-versus-tumor (GVT) response or engraftment.

Combined Expression of Genetic Adjuvants Via mRNA Electroporation Exerts Multiple Immunostimulatory Effects on Antitumor T Cells.

Adoptive transfer of tumor-infiltrating lymphocytes (TILs) or gene-modified T cells expressing antitumor TCRs or chimeric antigen receptors often yields a high rate of clinical response in several types of cancer. New approaches for enhancing the functional properties of antitumor T cells could improve the clinical outcome of these treatments. To this end, we created 3 classes of genes, each designed to operate autonomously upon expression in T cells.

Potent Activation of Human T Cells by mRNA Encoding Constitutively Active CD40.

New strategies for augmenting the actual performance of therapeutic T cells in vivo are needed for improving clinical outcome of adoptive cell therapy. Cumulative findings suggest that CD40 plays an intrinsic role in T cell costimulation. Recently, we demonstrated the ability of truncated, auto-oligomerizing CD40 derivatives to induce strong activation of APCs in a ligand-independent manner.

Adoptive Transfer of mRNA-Transfected T Cells Redirected against Diabetogenic CD8 T Cells Can Prevent Diabetes.

Chimeric major histocompatibility complex (MHC) molecules supplemented with T cell receptor (TCR) signaling motifs function as activation receptors and can redirect gene-modified T cells against pathogenic CD8 T cells. We have shown that β microglobulin (βm) operates as a universal signaling component of MHC-I molecules when fused with the CD3-ζ chain. Linking the H-2K-binding insulin B chain peptide insulin B chain, amino acids 15-23 (InsB) to the N terminus of βm/CD3-ζ, redirected polyclonal CD8 T cells against pathogenic CD8 T cells in a peptide-specific manner in the non-obese diabetic (NOD) mouse.

Spontaneous Activation of Antigen-presenting Cells by Genes Encoding Truncated Homo-Oligomerizing Derivatives of CD40.

The interaction between the CD40 receptor on antigen-presenting cells (APCs) and its trimeric ligand on CD4 T cells is essential for the initiation and progression of the adaptive immune response. Here we undertook to endow CD40 with the capacity to trigger spontaneous APC activation through ligand-independent oligomerization. To this end we exploited the GCN4 yeast transcriptional activator, which contains a leucine zipper DNA-binding motif that induces homophilic interactions.

Membrane-attached Cytokines Expressed by mRNA Electroporation Act as Potent T-Cell Adjuvants.

Proinflammatory cytokines are widely explored in different adoptive cell therapy protocols for enhancing survival and function of the transferred T cells, but their systemic administration is often associated with severe toxicity which limits their clinical use. To confine cytokine availability to the therapeutic T cells, we expressed 3 key cytokines, IL-2, IL-12, and IL-15, as integral T-cell membrane proteins. To prevent permanent activation of growth signaling pathways, we delivered these genes to T cells through mRNA electroporation.

Therapeutic Potential of T Cell Chimeric Antigen Receptors (CARs) in Cancer Treatment: Counteracting Off-Tumor Toxicities for Safe CAR T Cell Therapy.

A chimeric antigen receptor (CAR) is a recombinant fusion protein combining an antibody-derived targeting fragment with signaling domains capable of activating T cells. Recent early-phase clinical trials have demonstrated the remarkable ability of CAR-modified T cells to eliminate B cell malignancies. This review describes the choice of target antigens and CAR manipulations to maximize antitumor specificity.

mRNA-transfected Dendritic Cells Expressing Polypeptides That Link MHC-I Presentation to Constitutive TLR4 Activation Confer Tumor Immunity.

Recently, we have developed a novel genetic platform for improving dendritic cell (DC) induction of peptide-specific CD8 T cells, based on membrane-anchored β2-microglobulin (β2m) linked to a selected antigenic peptide at its N-terminus and to the cytosolic domain of toll-like receptor (TLR)4 C-terminally. In vitro transcribed mRNA transfection of antigen presenting cells resulted in polypeptides that efficiently coupled peptide presentation to cellular activation. In the present study, we evaluated the immunogenicity of such constructs in mRNA-transfected immature murine bone marrow-derived DCs.

Efficient peptide recovery from secreted recombinant MHC-I molecules expressed via mRNA transfection.

Most current methods for identifying peptides that are bound to a distinct MHC-I product in a given cell sample utilize detergent solubilization of membrane proteins followed by immunoaffinity purification. Since detergent traces and cell debris hamper subsequent peptide analysis, exceedingly large cell samples are often required. To avoid the use of detergents, truncated MHC-I heavy chains have recently been expressed by stable DNA transfection or retroviral transduction, resulting in the secretion of soluble MHC-I complexes to the growth medium.

A reproducible method for the expansion of mouse CD8+ T lymphocytes.

Murine adoptive CD8+ T-cell immunotherapy studies require the generation of large numbers of high viability CD8+ cells. Here we report a tissue culture protocol for the reliable expansion of CD8+ T-cells derived from murine spleen to give a 20-fold expansion after 4 days in culture. The cells were transfected with an mRNA GFP construct and transferred into NOD mice.

Selective immunotargeting of diabetogenic CD4 T cells by genetically redirected T cells.

The key role played by islet-reactive CD8 and CD4 T cells in type 1 diabetes calls for new immunotherapies that target pathogenic T cells in a selective manner. We previously demonstrated that genetically linking the signalling portion of CD3-ζ onto the C-terminus of β2 -microglobulin and an autoantigenic peptide to its N-terminus converts MHC-I complexes into functional T-cell receptor-specific receptors. CD8 T cells expressing such receptors specifically killed diabetogenic CD8 T cells, blocked T-cell-induced diabetes in immunodeficient NOD.

The emergence of T-bodies/CAR T cells.

The nickname "T-body" is used to denote a T cell expressing an antigen-specific or antibody-based chimeric receptor that combines antibody specificity with T-cell effector or regulatory function. Initially, we designed and constructed chimeric antibody-based receptors and expressed them in T cells to study the role of major histocompatibility complex in triggering T-cell activation. To this end, we replaced both variable domains (Vα and Vβ of the native T-cell receptor chains) with antibody-derived VH and VL sequences.

Development of novel genetic cancer vaccines based on membrane-attached β2 microglobulin.

Cytotoxic T lymphocytes (CTLs) are the major effector arm of the immune system against tumors. Many tumor-associated antigens (TAAs), known today as potential rejection antigens, were identified by their ability to induce CTL responses. CTLs utilize their clonotypic T cell receptor (TCR) to recognize short antigenic peptides presented on major histocompatibility complex (MHC)-I proteins.

Coupling presentation of MHC class I peptides to constitutive activation of antigen-presenting cells through the product of a single gene.

Priming of naive CD8 T cells by dendritic cells (DCs) entails both effective antigen presentation on MHC class I products and co-stimulatory signaling. Their optimal coupling is a major goal in the development of CTL-inducing vaccines. We recently reported that a membranal derivative of the invariant MHC-I light chain, β(2)-microglobulin (β(2)m), markedly stabilizes MHC-I molecules and can serve as a universal platform for exceptional presentation of genetically linked peptides.

Immunotargeting of insulin reactive CD8 T cells to prevent diabetes.

Insulin is one of the earliest targeted autoantigens in the immune destruction of insulin-producing beta cells by autoreactive CD4 and CD8 T cells in type 1 diabetes. In this study, we used Non-obese diabetic (NOD) transgenic T cells engineered to express MHC class I-insulin peptide complexes linked to a T cell activation component (InsCD3-ζ), to target insulin-reactive CD8 T cells. We showed that activated, but not naïve, InsCD3-ζ CD8 T cells killed diabetogenic insulin-reactive CD8 target cells in vitro, inducing antigen-specific cell death mediated via both the release of perforin and the Fas-Fas ligand pathway.

Enhanced HIV-1 neutralization by a CD4-VH3-IgG1 fusion protein.

HIV-1 gp120 is an alleged B cell superantigen, binding certain VH3+ human antibodies. We reasoned that a CD4-VH3 fusion protein could possess higher affinity for gp120 and improved HIV-1 inhibitory capacity. To test this we produced several human IgG1 immunoligands harboring VH3.