Sean Hammond scite author profile

Many adverse reactions associated with immune checkpoint inhibitor (ICI) treatments are immunologically driven and may necessitate discontinuation of the ICI. Herein, we present a patient who had been administered the radio contrast media amidotrizoate multiple times without issue but who then developed a Stevens-Johnson syndrome reaction after coadministration of atezolizumab. Causality was confirmed by a positive re-challenge with amidotrizoate and laboratory investigations that implicated T cells. Importantly, the introduction of atezolizumab appears to have altered the immunologic response to amidotrizoate in terms of the tolerance–elicitation continuum. Proof of concept studies demonstrated enhancement of recall responses to a surrogate antigen panel following in-vitro (healthy donors) and in-vivo (ICI patients) administrations of ICIs. Our findings highlight the importance of considering all concomitant medications in patients on ICIs who develop immune-mediated adverse reactions. In the event of some immune-related adverse reactions, it may be critical to identify the culprit antigen-forming entity that the ICIs have altered the perception of rather than simply attribute causality to the ICI itself in order to optimize both patient safety and treatment of malignancies.

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In-Vitro Approaches to Predict and Study T-Cell Mediated Hypersensitivity to Drugs

Hammond

Thomson

Meng

et al. 2021

Front. Immunol.

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Mitigating the risk of drug hypersensitivity reactions is an important facet of a given pharmaceutical, with poor performance in this area of safety often leading to warnings, restrictions and withdrawals. In the last 50 years, efforts to diagnose, manage, and circumvent these obscure, iatrogenic diseases have resulted in the development of assays at all stages of a drugs lifespan. Indeed, this begins with intelligent lead compound selection/design to minimize the existence of deleterious chemical reactivity through exclusion of ominous structural moieties. Preclinical studies then investigate how compounds interact with biological systems, with emphasis placed on modeling immunological/toxicological liabilities. During clinical use, competent and accurate diagnoses are sought to effectively manage patients with such ailments, and pharmacovigilance datasets can be used for stratification of patient populations in order to optimise safety profiles. Herein, an overview of some of the in-vitro approaches to predict intrinsic immunogenicity of drugs and diagnose culprit drugs in allergic patients after exposure is detailed, with current perspectives and opportunities provided.

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Checkpoint Inhibition Reduces the Threshold for Drug-Specific T-Cell Priming and Increases the Incidence of Sulfasalazine Hypersensitivity

Hammond

Olsson‐Brown

Grice

et al. 2021

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An emerging clinical issue associated with immune-oncology agents is the collateral effects on the tolerability of concomitant medications. One report of this phenomenon was the increased incidence of hypersensitivity reactions observed in patients receiving concurrent immune checkpoint inhibitors and sulfasalazine. Thus, the aim of this study was to characterize the T-cells involved in the pathogenesis of such reactions, and recapitulate the effects of inhibitory checkpoint blockade on de-novo priming responses to compounds within in-vitro platforms. A regulatory competent human dendritic cell/T-cell co-culture assay was used to model the effects of immune checkpoint inhibitors on de-novo nitroso sulfamethoxazole- and sulfapyridine (the sulfonamide component of sulfasalazine) hydroxylamine-specific priming responses. The role of T-cells in the pathogenesis of the observed reactions was explored in three patients through phenotypic characterization of sulfapyridine/sulfapyridine hydroxylamine-responsive T-cell clones, and assessment of cross-reactivity and pathways of T-cell activation. Augmentation of the frequency of responding drug-specific T-cells and intensity of the T-cell response was observed with PD-1/PD-L1 blockade. Monoclonal populations of sulfapyridine- and sulfapyridine hydroxylamine-responsive T-cells were isolated from all three patients. A core secretory effector molecule profile (IFN-γ, IL-13, granzyme B and perforin) was identified for sulfapyridine and sulfapyridine hydroxylamine responsive T-cell clones, which proceeded through Pi and hapten mechanisms, respectively. Data presented herein provides evidence that drug-responsive T-cells are effectors of hypersensitivity reactions observed in oncology patients administered immune checkpoint inhibitors and sulfasalazine. Perturbation of drug-specific T-cell priming is a plausible explanation for clinical observations of how an increased incidence of these adverse events is occurring.

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Tolvaptan- and Tolvaptan-Metabolite-Responsive T Cells in Patients with Drug-Induced Liver Injury

Gibson

Hammond

Jaruthamsophon

et al. 2020

Chem. Res. Toxicol.

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Tolvaptan is an effective drug for the treatment of autosomal dominant polycystic kidney disease, but its use is associated with a significant risk of liver injury in a small number of patients. Herein we describe the presence of tolvaptan- and tolvaptan-metabolite-responsive T cell clones within the peripheral circulation of patients with liver injury. Drug treatment of the clones resulted in a proliferative response and secretion of IFN-γ, IL-13, and the cytolytic molecule granzyme B. Future work should explore pathways of tolvaptan driven T cell activation and the role of T cells in the disease pathogenesis.

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Sean Hammond

T-Cell Activation by Low Molecular Weight Drugs and Factors That Influence Susceptibility to Drug Hypersensitivity

T cell mediated hypersensitivity to previously tolerated iodinated contrast media precipitated by introduction of atezolizumab

In-Vitro Approaches to Predict and Study T-Cell Mediated Hypersensitivity to Drugs

Checkpoint Inhibition Reduces the Threshold for Drug-Specific T-Cell Priming and Increases the Incidence of Sulfasalazine Hypersensitivity

Tolvaptan- and Tolvaptan-Metabolite-Responsive T Cells in Patients with Drug-Induced Liver Injury

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