mTORC1 is a mechanosensor that regulates surfactant function and lung compliance during ventilator-induced lung injury
Hyunwook Lee, Qinqin Fei, Adam Streicher, Wenjuan Zhang, Colleen Isabelle, Pragi Patel, Hilaire C. Lam, Antonio Arciniegas-Rubio, Miguel Pinilla-Vera, Diana P. Amador-Munoz, Diana Barragan-Bradford, Angelica Higuera-Moreno, Rachel K. Putman, Lynette M. Sholl, Elizabeth P. Henske, Christopher M. Bobba, Natalia Higuita-Castro, Emily M. Shalosky, R. Duncan Hite, John W. Christman, Samir N. Ghadiali, Rebecca M. Baron, Joshua A. Englert
Hyunwook Lee, Qinqin Fei, Adam Streicher, Wenjuan Zhang, Colleen Isabelle, Pragi Patel, Hilaire C. Lam, Antonio Arciniegas-Rubio, Miguel Pinilla-Vera, Diana P. Amador-Munoz, Diana Barragan-Bradford, Angelica Higuera-Moreno, Rachel K. Putman, Lynette M. Sholl, Elizabeth P. Henske, Christopher M. Bobba, Natalia Higuita-Castro, Emily M. Shalosky, R. Duncan Hite, John W. Christman, Samir N. Ghadiali, Rebecca M. Baron, Joshua A. Englert
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Research Article Pulmonology

mTORC1 is a mechanosensor that regulates surfactant function and lung compliance during ventilator-induced lung injury

Abstract

The acute respiratory distress syndrome (ARDS) is a highly lethal condition that impairs lung function and causes respiratory failure. Mechanical ventilation (MV) maintains gas exchange in patients with ARDS but exposes lung cells to physical forces that exacerbate injury. Our data demonstrate that mTOR complex 1 (mTORC1) is a mechanosensor in lung epithelial cells and that activation of this pathway during MV impairs lung function. We found that mTORC1 is activated in lung epithelial cells following volutrauma and atelectrauma in mice and humanized in vitro models of the lung microenvironment. mTORC1 is also activated in lung tissue of mechanically ventilated patients with ARDS. Deletion of Tsc2, a negative regulator of mTORC1, in epithelial cells impairs lung compliance during MV. Conversely, treatment with rapamycin at the time MV is initiated improves lung compliance without altering lung inflammation or barrier permeability. mTORC1 inhibition mitigates physiologic lung injury by preventing surfactant dysfunction during MV. Our data demonstrate that, in contrast to canonical mTORC1 activation under favorable growth conditions, activation of mTORC1 during MV exacerbates lung injury and inhibition of this pathway may be a novel therapeutic target to mitigate ventilator-induced lung injury during ARDS.

Authors

Hyunwook Lee, Qinqin Fei, Adam Streicher, Wenjuan Zhang, Colleen Isabelle, Pragi Patel, Hilaire C. Lam, Antonio Arciniegas-Rubio, Miguel Pinilla-Vera, Diana P. Amador-Munoz, Diana Barragan-Bradford, Angelica Higuera-Moreno, Rachel K. Putman, Lynette M. Sholl, Elizabeth P. Henske, Christopher M. Bobba, Natalia Higuita-Castro, Emily M. Shalosky, R. Duncan Hite, John W. Christman, Samir N. Ghadiali, Rebecca M. Baron, Joshua A. Englert

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Figure 2

Airway epithelial Tsc2 deletion impairs lung function in a murine model of combined volutrauma and atelectrauma.

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Airway epithelial Tsc2 deletion impairs lung function in a murine model ...
Mice with airway epithelial Tsc2 deletion (Cre+) and Cre– control mice were subjected to MV with high TV (12 cc/kg) without PEEP (0 cm H2O) for 4 hours. (A) The change in respiratory system compliance (CRS) and (B) inspiratory capacity (IC) were measured during MV. All data were normally distributed, analyzed by Student’s t test, *P < 0.05. (C) Oxygen saturations measured via pulse oximetry during the 4-hour period of ventilation presented as mean ± SEM. *P < 0.05, by 2-way ANOVA with repeated measures with Holms-Sidak post hoc test. Following MV, a bronchoalveolar lavage (BAL) was performed and total inflammatory cells (D), neutrophils (PMNs) (E), and protein levels (F) were measured. For PMN counts, n = 12 for Cre- and n = 9 for Cre+. IL-6 (G) and KC (H) levels were measured in BAL fluid by ELISA. n = 13 for Cre- and n = 11 for Cre+ unless otherwise noted. Box blots show median ± interquartile range and whiskers define min and max values.