Peter Bunyard scite author profile

We have previously described critical and nonredundant roles for the phosphoinositide 3-kinase p110␦ during the activation and differentiation of naive T cells, and p110␦ inhibitors are currently being developed for clinical use. However, to effectively treat established inflammatory or autoimmune diseases, it is important to be able to inhibit previously activated or memory T cells. In this study, using the isoform-selective inhibitor IC87114, we show that sustained p110␦ activity is required for interferon-␥ production. Moreover, acute inhibition of p110␦ inhibits cytokine production and reduces hypersensitivity responses in mice. Whether p110␦ played a similar role in human T cells was unknown. Here we show that IC87114 potently blocked T-cell receptorinduced phosphoinositide 3-kinase signaling by both naive and effector/memory human T cells. Importantly, IC87114 reduced cytokine production by memory T cells from healthy and allergic donors and from inflammatory arthritis patients. These studies establish that previously activated memory T cells are at least as sensitive to p110␦ inhibition as naive T cells and show that mouse models accurately predict p110␦ function in human T cells. There is therefore a strong rationale for p110␦ inhibitors to be considered for therapeutic use in T-cell-mediated autoimmune and inflammatory diseases. (Blood. 2010;115:2203-2213)

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Effects of oxidised low density lipoprotein on dendritic cells: a possible immunoregulatory component of the atherogenic micro-environment?

Alderman

Bunyard

Chain

et al. 2002

Cardiovascular Research

101

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This study supports the hypothesis that oxidised LDL are capable of triggering the transition from sentinel to messenger DC. Furthermore, the DC clustering-activation-apoptosis sequence in the presence of different LDL forms is consistent with a regulatory DC role in immunopathogenesis of atheroma. A sequence of initial accumulation of DC, increasing LDL oxidation, and DC-induced T cell activation, may explain why local breach of tolerance can occur. Above a threshold level, however, supervening DC apoptosis limits this, contributing instead to the central plaque core.

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Inhibition of Bruton's TK regulates macrophage NF‐κB and NLRP3 inflammasome activation in metabolic inflammation

Purvis

Collino

Aranda-Tavío

et al. 2020

British J Pharmacology

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Background and Purpose There are no medications currently available to treat metabolic inflammation. Bruton's tyrosine kinase (BTK) is highly expressed in monocytes and macrophages and regulates NF‐κB and NLRP3 inflammasome activity; both propagate metabolic inflammation in diet‐induced obesity. Experimental Approach Using an in vivo model of chronic inflammation, high‐fat diet (HFD) feeding, in male C57BL/6J mice and in vitro assays in primary murine and human macrophages, we investigated if ibrutinib, an FDA approved BTK inhibitor, may represent a novel anti‐inflammatory medication to treat metabolic inflammation. Key Results HFD‐feeding was associated with increased BTK expression and activation, which was significantly correlated with monocyte/macrophage accumulation in the liver, adipose tissue, and kidney. Ibrutinib treatment to HFD‐fed mice inhibited the activation of BTK and reduced monocyte/macrophage recruitment to the liver, adipose tissue, and kidney. Ibrutinib treatment to HFD‐fed mice decreased the activation of NF‐κB and the NLRP3 inflammasome. As a result, ibrutinib treated mice fed HFD had improved glycaemic control through restored signalling by the IRS‐1/Akt/GSK‐3β pathway, protecting mice against the development of hepatosteatosis and proteinuria. We show that BTK regulates NF‐κB and the NLRP3 inflammasome specifically in primary murine and human macrophages, the in vivo cellular target of ibrutinib. Conclusion and Implications We provide “proof of concept” evidence that BTK is a novel therapeutic target for the treatment of diet‐induced metabolic inflammation and ibrutinib may be a candidate for drug repurposing as an anti‐inflammatory agent for the treatment of metabolic inflammation in T2D and microvascular disease.

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Ribotoxic stress activates p38 and JNK kinases and modulates the antigen-presenting activity of dendritic cells

Bunyard

Handley

Pollara

et al. 2003

Molecular Immunology

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Identification of compounds acting as negative allosteric modulators of the LPA1 receptor

Ellery

Dickson

Cheung

et al. 2018

European Journal of Pharmacology

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The Lysophosphatidic Acid 1 Receptor (LPA receptor) has been linked to the initiation and progression of a variety of poorly treated fibrotic conditions. Several compounds that have been described as LPA receptor antagonists have progressed into clinical trials: 1-(4-{4-[3-methyl-4-({[(1R)-1-phenylethoxy]carbonyl}amino)-1,2-oxazol-5-yl]phenyl}phenyl)cyclopropane-1-carboxylic acid (BMS-986202) and 2-{4-methoxy-3-[2-(3-methylphenyl)ethoxy]benzamido}-2,3-dihydro-1H-indene-2-carboxylic acid (SAR-100842). We considered that as LPA receptor function is involved in many normal physiological processes, inhibition of specific signalling pathways associated with fibrosis may be therapeutically advantageous. We compared the binding and functional effects of a novel compound; 4-({(Cyclopropylmethyl)[4-(2-fluorophenoxy)benzoyl]amino}methyl}benzoic acid (TAK-615) with BMS-986202 and SAR-100842. Back-scattering interferometry (BSI) was used to show that the apparent affinity of TAK-615 was enhanced in the presence of LPA. The binding signal for BMS-986202 was not detected in the presence of LPA suggesting competition but interestingly the apparent affinity of SAR-100842 was also enhanced in the presence of LPA. Only BMS-986202 was able to fully inhibit the response to LPA in calcium mobilisation, β-arrestin, cAMP, GTPγS and RhoA functional assays. TAK-615 and SAR-100842 showed different inhibitory profiles in the same functional assays. Further binding studies indicated that TAK-615 is not competitive with either SAR-100842 or BMS-986202, suggesting a different site of binding. The results generated with this set of experiments demonstrate that TAK-615 acts as a negative allosteric modulator (NAM) of the LPA receptor. Surprisingly we find that SAR-100842 also behaves like a NAM. BMS-986202 on the other hand behaves like an orthosteric antagonist.

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Peter Bunyard

PI3K p110δ regulates T-cell cytokine production during primary and secondary immune responses in mice and humans

Effects of oxidised low density lipoprotein on dendritic cells: a possible immunoregulatory component of the atherogenic micro-environment?

Inhibition of Bruton's TK regulates macrophage NF‐κB and NLRP3 inflammasome activation in metabolic inflammation

Ribotoxic stress activates p38 and JNK kinases and modulates the antigen-presenting activity of dendritic cells

Identification of compounds acting as negative allosteric modulators of the LPA1 receptor

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