Explore the vast range of titles available.

BackgroundPrevious data suggests that anti-OX40 mAb can elicit anti-tumor effects in mice through deletion of Tregs. However, OX40 also has powerful costimulatory effects on T cells which could evoke therapeutic responses. Human trials with anti-OX40 antibodies have shown that these entities are well tolerated but to date have delivered disappointing clinical responses, indicating that the rules for the optimal use of anti-human OX40 (hOX40) antibodies is not yet fully understood. Changes to timing and dosages may lead to improved outcomes; however, here we focus on addressing the role of agonism versus depleting activity in determining therapeutic outcomes. We investigated a novel panel of anti-hOX40 mAb to understand how these reagents and mechanisms may be optimized for therapeutic benefit.MethodsThis study examines the binding activity and in vitro activity of a panel of anti-hOX40 antibodies. They were further evaluated in several in vivo models to address how isotype and epitope determine mechanism of action and efficacy of anti-hOX40 mAb.ResultsBinding analysis revealed the antibodies to be high affinity, with epitopes spanning all four cysteine-rich domains of the OX40 extracellular domain. In vivo analysis showed that their activities relate directly to two key properties: (1) isotype—with mIgG1 mAb evoking receptor agonism and CD8+ T-cell expansion and mIgG2a mAb evoking deletion of Treg and (2) epitope—with membrane-proximal mAb delivering more powerful agonism. Intriguingly, both isotypes acted therapeutically in tumor models by engaging these different mechanisms.ConclusionThese findings highlight the significant impact of isotype and epitope on the modulation of anti-hOX40 mAb therapy, and indicate that CD8+ T-cell expansion or Treg depletion might be preferred according to the composition of different tumors. As many of the current clinical trials using OX40 antibodies are now using combination therapies, this understanding of how to manipulate therapeutic activity will be vital in directing new combinations that are more likely to improve efficacy and clinical outcomes.

CD134 (OX40) is a member of the tumour necrosis factor receptor superfamily (TNFRSF). It acts as a costimulatory receptor on T cells, but its role on NK cells is poorly understood. CD137, another TNFRSF member has been shown to enhance the anti-tumour activity of NK cells in various malignancies. Here, we examine the expression and function of CD134 on human and mouse NK cells in B-cell lymphoma. CD134 was transiently upregulated upon activation of NK cells in both species. In contrast to CD137, induction of CD134 on human NK cells was dependent on close proximity to, or cell-to-cell contact with, monocytes or T cells. Stimulation with an agonistic anti-CD134 mAb but not CD134 ligand, increased IFNγ production and cytotoxicity of human NK cells, but this was dependent on simultaneous antibody:Fcγ receptor binding. In complementary murine studies, intravenous inoculation with BCL 1 lymphoma into immunocompetent syngeneic mice resulted in transient upregulation of CD134 on NK cells. Combination treatment with anti-CD20 and anti-CD134 mAb produced a synergistic effect with durable remissions. This therapeutic benefit was abrogated by NK cell depletion and in Fcγ chain −/− mice. Hence, anti-CD134 agonists may enhance NK-mediated anti-tumour activity in an Fcγ receptor dependent fashion.

CD40 is essential in enabling antigen-presenting cells to process and present antigen effectively to T cells. We demonstrate here that when antibody against CD40 is used to treat mice with syngeneic lymphoma, a rapid cytotoxic T-cell response independent of T-helper cells occurs, with tenfold expansion of CD8 + T cells over a period of 5 days. This response eradicates the lymphoma and provides protection against tumor rechallenge without further antibody treatment. Thus, it seems that by treating mice with monoclonal antibody against CD40, we are immunizing against syngeneic tumors. The phenomenon proved reproducible with two antibodies against CD40 (3/23 and FGK-45) in three CD40 + lymphomas (A20, A31 and BCL 1 ) and gave partial protection in one of two CD40 – lymphomas (EL4 and Ten1). Although the nature of the target antigens on these lymphomas is unknown, CD8 + T cells recovered from responding mice showed powerful cytotoxic activity against the target B-cell lymphoma in vitro .

Despite the success of mAb and bispecific (bs)Ab in the treatment of certain malignancies, there is still considerable uncertainty about the most appropriate format in which they should be used. In the current work we have investigated a panel of bsAb [IgG and F(ab)2] with dual specificity for T cells and neoplastic B cells. Throughout this work, anti-CD2 or anti-CD3 were used to bind the mouse T cells, and antibodies to surface IgM idiotype (Id), CD19, CD22, or MHC class II were used to target mouse B cell lymphomas BCL1 or A31. In vitro, killing was measured in a conventional cytotoxicity assay using 51Cr-labelled A31 and BCL1 cells as targets and activated mouse splenocytes as effectors. bsAb showed a wide range of cytotoxic activities, which could be ranked in the following order: [anti-CD3 x anti-class-II] > [anti-CD3 x anti-CD19] > [anti-CD3 x anti-Id] > [anti-CD3 x anti-CD22], with the [anti-CD2 x anti-Id] derivative showing relatively little cytotoxic activity. This hierarchy of activity indicates some correlation with the binding activity of the bsAb on target cells, but showed a much stronger parallel with the tendency of the anti-(target cells) mAb to undergo antigenic modulation (less modulation, more killing). In vivo, the situation was completely different and only the anti-Id derivatives, [anti-CD3 x anti-Id] and [anti-CD2 x anti-Id], were effective in prolonging the survival of tumour-bearing animals. Under optimal conditions Id-positive tumour was eradicated with a single treatment of bsAb. We conclude from this work that the target cell specificity of a bsAb is critical in determining therapeutic outcome and that in vitro cytotoxicity assays do not predict in vivo activity.

We report the use of a bispecific F(ab')2 antibody to target the ribosome-inactivating protein saporin to the surface antigen CD22 in the treatment of low-grade, end-stage, B-cell lymphoma. Four patients were treated. Toxic effects were minimal (grade I), with mild fever, weakness, and myalgia for 1-2 days after treatment. One patient showed an antibody response to mouse Fab' and saporin. All patients showed rapid and beneficial responses to treatment with improvements in most disease sites and in peripheral blood cytopenia. The responses were short-lived (less than 28 days) but further study of this targeting system is warranted.

Previous data suggests that anti-OX40 mAb can elicit anti-tumour effects in mice through deletion of Tregs. However, OX40 also has powerful costimulatory effects on T cells which could evoke therapeutic responses. The contributions of these different effector mechanisms has not previously been systematically evaluated, particularly for mAb directed to human OX40. Therefore, we generated a novel human OX40 knock-in (KI) mouse to evaluate a panel of anti-hOX40 mAb and show that their activities relate directly to two key properties: 1) isotype; with mIgG1 mAb evoking receptor agonism and CD8+ T cell expansion and mIgG2a mAb evoking deletion of Treg and; 2) epitope; with membrane-proximal mAb delivering more powerful agonism. Intriguingly, both isotypes acted therapeutically in tumour models by engaging these different mechanisms. These findings highlight the significant impact of isotype and epitope on the modulation of anti-hOX40 mAb therapy, and indicate that CD8+ T cell expansion or Treg depletion might be preferable according to the composition of different tumours. Competing Interest Statement MSC is a retained consultant for BioInvent International and has performed educational and advisory roles for Baxalta and Boehringer Ingleheim. He has received research funding from Roche, Gilead, Bioinvent International and GSK. BF, IT, LM and MS are employees of Bioinvent International.

There have been very significant advances across many areas of the study, investigation and treatment of breast cancer. This publication surveys how scientific advances have influenced, improved and extended therapeutic options. The volume spans prevention, screening, genetics, and treatment of pre-invasive breast cancer, before focusing in depth on management of established breast cancer. This includes chapters on the various therapeutic options available and their role in treating breast cancer from the very earliest stage through to advanced and metastatic breast cancer. In addition, the text looks forward at the potential for emerging experimental strategies to become adopted into medical management in the future. The volume concludes with a chapter on palliative care. This wide-ranging account will be essential for breast cancer specialists, trainees in oncology and clinical research scientists.