Robert Kuhn scite author profile

The advent of costimulation blockade provides the prospect for targeted therapy with improved graft survival in transplant patients. Perhaps the most effective costimulation blockade in experimental models is the use of reagents to block the CD40/CD154 pathway. Unfortunately, successful clinical translation of anti-CD154 therapy has not been achieved. In an attempt to develop an agent that is as effective as previous CD154 blocking antibodies but lacks the risk of thromboembolism, we evaluated the efficacy and safety of a novel anti-human CD154 domain antibody (dAb, BMS-986004). The anti-CD154 dAb effectively blocked CD40-CD154 interactions but lacked Fc binding activity and resultant platelet activation. In a non-human primate kidney transplant model, anti-CD154 dAb was safe and efficacious, significantly prolonging allograft survival without evidence of thromboembolism (MST 103 days). The combination of anti-CD154 dAb and conventional immunosuppression synergized to effectively control allograft rejection (MST 397 days). Furthermore, anti-CD154 dAb treatment increased the frequency of CD4+CD25+Foxp3+ regulatory T cells. This study demonstrates that the use of a novel anti-CD154 dAb that lacks Fc binding activity is safe without evidence of thromboembolism and is equally as potent as previous anti-CD154 agents at prolonging renal allograft survival in a non-human primate preclinical model.

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Engineering of a Novel Anti-CD40L Domain Antibody for Treatment of Autoimmune Diseases

Xie

Yamniuk

Borowski

et al. 2014

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CD40–CD40L interactions play a critical role in regulating immune responses. Blockade of CD40L by Abs, such as the anti-CD40L Ab 5c8, demonstrated positive clinical effects in patients with autoimmune diseases; however, incidents of thromboembolism (TE) precluded further development of these molecules. In this study, we examined the role of the Fc domain interaction with FcγRs in modulating platelet activation and potential for TE. Our results show that the interaction of the 5c8 wild-type IgG1 Fc domain with FcγRs is responsible for platelet activation, as measured by induction of PAC-1 and CD62P. A version of 5c8 with a mutated IgG1 tail was identified that showed minimal FcγR binding and platelet activation while maintaining full binding to CD40L. To address whether Fc effector function is required for immunosuppression, a potent Ab fragment, termed a “domain Ab” (dAb), against murine CD40L was identified and fused to a murine IgG1 Fc domain containing a D265A mutation that lacks Fc effector function. In vitro, this dAb–Fc demonstrated comparable potency to the benchmark mAb MR-1 in inhibiting B cell and dendritic cell activation. Furthermore, the anti-CD40L dAb–Fc exhibited a notable efficacy comparable to MR-1 in various preclinical models, such as keyhole limpet hemocyanin–induced Ab responses, alloantigen-induced T cell proliferation, “heart-to-ear” transplantation, and NZB × NZW F1 spontaneous lupus. Thus, our data show that immunosuppression and TE can be uncoupled and that a CD40L dAb with an inert Fc tail is expected to be efficacious for treating autoimmune diseases, with reduced risk for TE.

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The optimization and validation of the glycoprotein ELISA assay for quantitative varicella-zoster virus (VZV) antibody detection

et al. 2006

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Varicella is a highly contagious viral disease found throughout the world. A live-attenuated Varicella-Zoster virus (VZV) vaccine (Oka/Merck strain), VARIVAXtrade mark, was licensed in the United States (US) in 1995 and was made a part of the US recommended childhood vaccination schedule in 1996. The immune response to VZV-containing vaccines has been measured using an enzyme-linked immunosorbent assay (ELISA) to detect antibodies to glycoproteins from VZV. A correlate for protective immunity has been established between anti-VZV glycoprotein antibody levels and protection against breakthrough varicella in children, and this correlate is used as the primary immunogenicity endpoint in clinical trials with VZV-containing vaccines. The performance of the "first generation" validated version of the assay was recently reevaluated in order to identify areas for improvement. Specific format and reagent changes were implemented, with the goal of improving assay consistency by maintaining tighter control over assay processes and reagents. An extensive validation of the "second generation" gpELISA was undertaken in order to characterize the updated assay. In this article, we describe the gpELISA method, detail the procedures used to evaluate assay performance, and present the operating characteristics of the second generation gpELISA.

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Ivacaftor drug desensitization

Patterson

Autry

Kuhn

et al. 2019

Pediatric Pulmonology

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Functional Antagonism of Human CD40 Achieved by Targeting a Unique Species-Specific Epitope

Yamniuk

Suri

Krystek

et al. 2016

Journal of Molecular Biology

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Current clinical anti-CD40 biologic agents include both antagonist molecules for the treatment of autoimmune diseases and agonist molecules for immuno-oncology, yet the relationship between CD40 epitope and these opposing biological outcomes is not well defined. This report describes the identification of potent antagonist domain antibodies (dAbs) that bind to a novel human CD40-specific epitope that is divergent in the CD40 of nonhuman primates. A similarly selected anti-cynomolgus CD40 dAb recognizing the homologous epitope is also a potent antagonist. Mutagenesis, biochemical, and X-ray crystallography studies demonstrate that the epitope is distinct from that of CD40 agonists. Both the human-specific and cynomolgus-specific molecules remain pure antagonists even when formatted as bivalent Fc-fusion proteins, making this an attractive therapeutic format for targeting hCD40 in autoimmune indications.

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Robert Kuhn

Fc-Silent Anti-CD154 Domain Antibody Effectively Prevents Nonhuman Primate Renal Allograft Rejection

Engineering of a Novel Anti-CD40L Domain Antibody for Treatment of Autoimmune Diseases

The optimization and validation of the glycoprotein ELISA assay for quantitative varicella-zoster virus (VZV) antibody detection

Ivacaftor drug desensitization

Functional Antagonism of Human CD40 Achieved by Targeting a Unique Species-Specific Epitope

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