Zinc deficiency primes the lung for ventilator-induced injury
Francis Boudreault, Miguel Pinilla-Vera, Joshua A. Englert, Alvin T. Kho, Colleen Isabelle, Antonio J. Arciniegas, Diana Barragan-Bradford, Carolina Quintana, Diana Amador-Munoz, Jiazhen Guan, Kyoung Moo Choi, MICU Registry, Lynette Sholl, Shelley Hurwitz, Daniel J. Tschumperlin, Rebecca M. Baron
Francis Boudreault, Miguel Pinilla-Vera, Joshua A. Englert, Alvin T. Kho, Colleen Isabelle, Antonio J. Arciniegas, Diana Barragan-Bradford, Carolina Quintana, Diana Amador-Munoz, Jiazhen Guan, Kyoung Moo Choi, MICU Registry, Lynette Sholl, Shelley Hurwitz, Daniel J. Tschumperlin, Rebecca M. Baron
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Research Article Inflammation Pulmonology

Zinc deficiency primes the lung for ventilator-induced injury

Abstract

Mechanical ventilation is necessary to support patients with acute lung injury, but also exacerbates injury through mechanical stress–activated signaling pathways. We show that stretch applied to cultured human cells, and to mouse lungs in vivo, induces robust expression of metallothionein, a potent antioxidant and cytoprotective molecule critical for cellular zinc homeostasis. Furthermore, genetic deficiency of murine metallothionein genes exacerbated lung injury caused by high tidal volume mechanical ventilation, identifying an adaptive role for these genes in limiting lung injury. Stretch induction of metallothionein required zinc and the zinc-binding transcription factor MTF1. We further show that mouse dietary zinc deficiency potentiates ventilator-induced lung injury, and that plasma zinc levels are significantly reduced in human patients who go on to develop acute respiratory distress syndrome (ARDS) compared with healthy and non-ARDS intensive care unit (ICU) controls, as well as with other ICU patients without ARDS. Taken together, our findings identify a potentially novel adaptive response of the lung to stretch and a critical role for zinc in defining the lung’s tolerance for mechanical ventilation. These results demonstrate that failure of stretch-adaptive responses play an important role in exacerbating mechanical ventilator–induced lung injury, and identify zinc and metallothionein as targets for lung-protective interventions in patients requiring mechanical ventilation.

Authors

Francis Boudreault, Miguel Pinilla-Vera, Joshua A. Englert, Alvin T. Kho, Colleen Isabelle, Antonio J. Arciniegas, Diana Barragan-Bradford, Carolina Quintana, Diana Amador-Munoz, Jiazhen Guan, Kyoung Moo Choi, MICU Registry, Lynette Sholl, Shelley Hurwitz, Daniel J. Tschumperlin, Rebecca M. Baron

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Figure 6

Zinc deficiency exacerbates injury from mechanical ventilation after endotoxin exposure.

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Zinc deficiency exacerbates injury from mechanical ventilation after end...
(A) Zinc-deficient mice exhibit more pronounced physiologic dysfunction (increased elastance) compared with control mice when subjected to mechanical ventilation (15 ml/kg tidal volume for 8 hours) beginning 24 hours after nebulized endotoxin exposure. Elastance was measured hourly on the Flexivent ventilator, and the percentage change from baseline to 8 hours was calculated (n = 4–6 /group). *P < 0.05 versus control diet by 2-way repeated measures ANOVA. (BD) After 8 hours of LPS+ventilator–induced lung injury (VILI), bronchoalveolar lavage (BAL) fluid was collected and analyzed for (B) total protein levels (baseline n = 6/group, VILI n = 4–6/group), *P < 0.05 by 2-way ANOVA, with Bonferonni post-hoc test including baseline data from Figure 5D; (C) IL-6 levels (baseline n = 6/group, VILI n = 4/group), *P < 0.05 by 2-way ANOVA, with Bonferroni post-hoc test using baseline data from Figure 5E; and (D) total and differential cell counts (n = 4–6/group). All data presented as mean ± SEM. (E and F) Lung tissue homogenate analysis from multiplexed assays revealed increased IL-1α and IL-12p40 in zinc-deficient mice exposed to LPS plus mechanical ventilation. *P < 0.05 by 2-way ANOVA, with Bonferroni post-hoc test, using control data included in Supplemental Table I; data presented as mean ± SEM.