Publications by authors named "Liat Izhak"

Background: Bispecific antibodies are promising new therapeutics in B cell malignancies. Whether they lead to potent T cell activation despite described T cell dysfunction in chronic lymphocytic leukemia (CLL), and are able to effectively target high-risk or venetoclax-resistant samples, is currently unknown.

Methods: CD19 cell lines or primary (high-risk) CLL were cocultured in vitro with healthy donor (HD) or CLL-derived T cells in the presence of a CD3xCD19 dual affinity retargeting molecule (CD3xCD19 DART).

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Article Synopsis
  • Immunoglobulin E (IgE) typically plays a role in allergic reactions, activating mast cells and basophils to release histamine; however, recent findings indicate its involvement in systemic lupus erythematosus (SLE).
  • In SLE, specific IgE antibodies for double-stranded DNA (dsDNA) activate plasmacytoid dendritic cells (pDCs), leading to increased production of interferon-α (IFN-α), which is important for immune responses against viruses.
  • The presence of dsDNA-specific IgE in patient serum correlates with the severity of SLE, indicating that IgE not only contributes to allergies but also enhances autoimmune responses, complicating the disease pathology.
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Purpose: Most studies characterizing antitumor properties of invariant natural killer T (iNKT) cells have used the agonist, α-galactosylceramide (α-GalCer). However, α-GalCer induces strong, long-lasting anergy of iNKT cells, which could be a major detriment for clinical therapy. A novel iNKT cell agonist, β-mannosylceramide (β-ManCer), induces strong antitumor immunity through a mechanism distinct from that of α-GalCer.

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Eliminating one immunosuppressive mechanism is rarely sufficient to overcome cancer. One of reasons underlying this fact is that whether regulatory T cells (Tregs) or type II natural killer T (NKT) cells dominate immunosuppression depends on the mutual interactions between the latter and their type I counterparts. Thus, the balance among three immunomodulatory cell types dictates whether eliminating Tregs relieves or not immunosuppression.

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The nature of the regulatory cell types that dominate in any given tumor is not understood at present. Here, we addressed this question for regulatory T cells (Treg) and type II natural killer T (NKT) cells in syngeneic models of colorectal and renal cancer. In mice with both type I and II NKT cells, or in mice with neither type of NKT cell, Treg depletion was sufficient to protect against tumor outgrowth.

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The CCL2 CCR2 axis is likely to contributes to the development and progression of cancer diseases by two major mechanisms; autocrine effect of CCL2 as a survival/growth factor for CCR2+ cancer cells and, the attraction of CCR2+ CX₃CR1+tumor associated macrophages that in the absence of CCR2 hardly migrate. Thus far no in vivo system has been set up to differentiate the selective contribution of each of these features to cancer development. Here we employed a chimera animal model in which all non-malignant cells are CCR2-/-, but all cancer cells are CCR2+, combined with an adoptive transfer system of bone marrow (BM) CX₃CR1+ cells from CCR2+ mice harboring a targeted replacement of the CX₃CR1gene by an enhanced green fluorescent protein (EGFP) reporter gene (cx₃cr1(gfp)), together with the CD45.

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Type 1 or invariant NKT (iNKT) cell agonists, epitomized by α-galactosylceramide, protect against cancer largely by IFN-γ-dependent mechanisms. Here we describe what we believe to be a novel IFN-γ-independent mechanism induced by β-mannosylceramide, which also defines a potentially new class of iNKT cell agonist, with an unusual β-linked sugar. Like α-galactosylceramide, β-mannosylceramide directly activates iNKT cells from both mice and humans.

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We have previously shown that, during inflammatory autoimmune diseases in humans, the immune system develops a neutralizing auto-Ab-based response to a very limited number of inflammatory mediators, and that amplification of each response could be beneficial for the host. Our working hypothesis has been that this selective breakdown of immunological tolerance is due to a predominant expression of an inflammatory mediator at an immune-restricted site undergoing a destructive process. All three conditions also take place in cancer diseases.

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CCL2 is a key CC chemokine that has been implicated in a variety of inflammatory autoimmune diseases and in tumor progression and it is therefore an important target for therapeutic intervention in these diseases. Soluble receptor-based therapy is a known approach for neutralizing the in vivo functions of soluble mediators. Owing to the complexity of seven-transmembrane G protein-coupled receptors, efforts to generate neutralizing soluble chemokine receptors have so far failed.

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