BTK inhibitor–induced defects in human neutrophil effector activity against Aspergillus fumigatus are restored by TNF-α
Diego A. Vargas-Blanco, Olivia W. Hepworth, Kyle J. Basham, Patricia Simaku, Arianne J. Crossen, Kyle D. Timmer, Alex Hopke, Hannah Brown Harding, Steven R. Vandal, Kirstine N. Jensen, Daniel J. Floyd, Jennifer L. Reedy, Christopher Reardon, Michael K. Mansour, Rebecca A. Ward, Daniel Irimia, Jeremy S. Abramson, Jatin M. Vyas
Diego A. Vargas-Blanco, Olivia W. Hepworth, Kyle J. Basham, Patricia Simaku, Arianne J. Crossen, Kyle D. Timmer, Alex Hopke, Hannah Brown Harding, Steven R. Vandal, Kirstine N. Jensen, Daniel J. Floyd, Jennifer L. Reedy, Christopher Reardon, Michael K. Mansour, Rebecca A. Ward, Daniel Irimia, Jeremy S. Abramson, Jatin M. Vyas
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Research Article Immunology Infectious disease

BTK inhibitor–induced defects in human neutrophil effector activity against Aspergillus fumigatus are restored by TNF-α

Abstract

Inhibition of Bruton’s tyrosine kinase (BTK) through covalent modifications of its active site (e.g., ibrutinib [IBT]) is a preferred treatment for multiple B cell malignancies. However, IBT-treated patients are more susceptible to invasive fungal infections, although the mechanism is poorly understood. Neutrophils are the primary line of defense against these infections; therefore, we examined the effect of IBT on primary human neutrophil effector activity against Aspergillus fumigatus. IBT significantly impaired the ability of neutrophils to kill A. fumigatus and potently inhibited reactive oxygen species (ROS) production, chemotaxis, and phagocytosis. Importantly, exogenous TNF-α fully compensated for defects imposed by IBT and newer-generation BTK inhibitors and restored the ability of neutrophils to contain A. fumigatus hyphal growth. Blocking TNF-α did not affect ROS production in healthy neutrophils but prevented exogenous TNF-α from rescuing the phenotype of IBT-treated neutrophils. The restorative capacity of TNF-α was independent of transcription. Moreover, the addition of TNF-α immediately rescued ROS production in IBT-treated neutrophils, indicating that TNF-α worked through a BTK-independent signaling pathway. Finally, TNF-α restored effector activity of primary neutrophils from patients on IBT therapy. Altogether, our data indicate that TNF-α rescued the antifungal immunity block imposed by inhibition of BTK in primary human neutrophils.

Authors

Diego A. Vargas-Blanco, Olivia W. Hepworth, Kyle J. Basham, Patricia Simaku, Arianne J. Crossen, Kyle D. Timmer, Alex Hopke, Hannah Brown Harding, Steven R. Vandal, Kirstine N. Jensen, Daniel J. Floyd, Jennifer L. Reedy, Christopher Reardon, Michael K. Mansour, Rebecca A. Ward, Daniel Irimia, Jeremy S. Abramson, Jatin M. Vyas

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Figure 5

Restorative activity of exogenous TNF-α signals independent of transcription.

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Restorative activity of exogenous TNF-α signals independent of transcrip...
(A) Neutrophils were incubated with A. fumigatus B5233 strain (MOI: 2.5) for 5h, and metabolic activity was estimated by fluorescence. Data calculated through time course study (see raw data in the Supporting Data Values file) and panel represent the output from linear regression analysis using Gompertz fit with data shown as 95% CI, n = 3. Ordinary 1-way ANOVA and Tukey’s multiple-comparison test with a single pooled variance demonstrated a P < 0.001 for TNF-α alone, IFM alone, and in combination with IBT treatments versus IBT alone and P = 0.0004 for IBT + TNF-α versus IBT alone. (B) ROS production in IBT-treated neutrophils incubated with 25 μg/mL IFM in the presence of exogenous TNF-α and coincubated with 1 mg/mL A. fumigatus heat-killed hyphae. Data are shown as mean ± SD, n = 3; data are representative from at least 3 independent experiments. (C) Neutrophils were treated with 0.3 μM IBT for 30 min followed by 5 ng/mL TNF-α for the time indicated. To better visualize the starting point of ROS production (black dotted line, 20 min), only the trend but not the time points are shown. (D) Neutrophils were treated with DMSO or 0.3 μM IBT for 30 min followed by 1 μg/mL actD for 15 min and by 5 ng/mL TNF-α for 1h. ROS production was measured after stimulation with 1 mg/mL A. fumigatus heat-killed hyphae. The black dotted line represents the starting point of ROS production (15 min) upon stimulation with A. fumigatus for treatments containing actD.