Patient-specific iPSCs carrying an SFTPC mutation reveal the intrinsic alveolar epithelial dysfunction at the inception of interstitial lung disease

Konstantinos Dionysios Alysandratos; Scott J. Russo; Anton Petcherski; Evan P. Taddeo; Rebeca Acín-Pérez; Carlos Villacorta-Martin; J. C. Jean; Surafel Mulugeta; Luis R. Rodriguez; Benjamin C. Blum; Ryan M. Hekman; Olivia T. Hix; Kasey Minakin; Marall Vedaie; Seunghyi Kook; Andrew M. Tilston-Lunel; Xaralabos Varelas; Jennifer A. Wambach; F. Sessions Cole; Aaron Hamvas; Lisa R. Young; Marc Liesa; Andrew Emili; Susan H. Guttentag; Orian S. Shirihai; Michael F. Beers; Darrell N. Kotton

doi:10.1016/j.celrep.2021.109636

Patient-specific iPSCs carrying an SFTPC mutation reveal the intrinsic alveolar epithelial dysfunction at the inception of interstitial lung disease

Konstantinos Dionysios Alysandratos, Scott J. Russo, Anton Petcherski, Evan P. Taddeo, Rebeca Acín-Pérez, Carlos Villacorta-Martin, J. C. Jean, Surafel Mulugeta, Luis R. Rodriguez, Benjamin C. Blum, Ryan M. Hekman, Olivia T. Hix, Kasey Minakin, Marall Vedaie, Seunghyi Kook, Andrew M. Tilston-Lunel, Xaralabos Varelas, Jennifer A. Wambach, F. Sessions Cole, Aaron HamvasLisa R. Young, Marc Liesa, Andrew Emili, Susan H. Guttentag, Orian S. Shirihai, Michael F. Beers, Darrell N. Kotton

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

Abstract

Alveolar epithelial type 2 cell (AEC2) dysfunction is implicated in the pathogenesis of adult and pediatric interstitial lung disease (ILD), including idiopathic pulmonary fibrosis (IPF); however, identification of disease-initiating mechanisms has been impeded by inability to access primary AEC2s early on. Here, we present a human in vitro model permitting investigation of epithelial-intrinsic events culminating in AEC2 dysfunction, using patient-specific induced pluripotent stem cells (iPSCs) carrying an AEC2-exclusive disease-associated variant (SFTPC^I73T). Comparing syngeneic mutant versus gene-corrected iPSCs after differentiation into AEC2s (iAEC2s), we find that mutant iAEC2s accumulate large amounts of misprocessed and mistrafficked pro-SFTPC protein, similar to in vivo changes, resulting in diminished AEC2 progenitor capacity, perturbed proteostasis, altered bioenergetic programs, time-dependent metabolic reprogramming, and nuclear factor κB (NF-κB) pathway activation. Treatment of SFTPC^I73T-expressing iAEC2s with hydroxychloroquine, a medication used in pediatric ILD, aggravates the observed perturbations. Thus, iAEC2s provide a patient-specific preclinical platform for modeling the epithelial-intrinsic dysfunction at ILD inception.

Original language	English (US)
Article number	109636
Journal	Cell Reports
Volume	36
Issue number	9
DOIs	https://doi.org/10.1016/j.celrep.2021.109636
State	Published - Aug 31 2021
Externally published	Yes

Keywords

NF-κB
autophagy
bioenergetics
iPSC-derived alveolar epithelial type 2 cells
idiopathic pulmonary fibrosis
induced pluripotent stem cells
interstitial lung disease
metabolic reprogramming
proteostasis
surfactant protein C

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2021.109636

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Alysandratos, K. D., Russo, S. J., Petcherski, A., Taddeo, E. P., Acín-Pérez, R., Villacorta-Martin, C., Jean, J. C., Mulugeta, S., Rodriguez, L. R., Blum, B. C., Hekman, R. M., Hix, O. T., Minakin, K., Vedaie, M., Kook, S., Tilston-Lunel, A. M., Varelas, X., Wambach, J. A., Cole, F. S., ... Kotton, D. N. (2021). Patient-specific iPSCs carrying an SFTPC mutation reveal the intrinsic alveolar epithelial dysfunction at the inception of interstitial lung disease. Cell Reports, 36(9), Article 109636. https://doi.org/10.1016/j.celrep.2021.109636

Alysandratos, KD, Russo, SJ, Petcherski, A, Taddeo, EP, Acín-Pérez, R, Villacorta-Martin, C, Jean, JC, Mulugeta, S, Rodriguez, LR, Blum, BC, Hekman, RM, Hix, OT, Minakin, K, Vedaie, M, Kook, S, Tilston-Lunel, AM, Varelas, X, Wambach, JA, Cole, FS, Hamvas, A, Young, LR, Liesa, M, Emili, A, Guttentag, SH, Shirihai, OS, Beers, MF & Kotton, DN 2021, 'Patient-specific iPSCs carrying an SFTPC mutation reveal the intrinsic alveolar epithelial dysfunction at the inception of interstitial lung disease', Cell Reports, vol. 36, no. 9, 109636. https://doi.org/10.1016/j.celrep.2021.109636

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title = "Patient-specific iPSCs carrying an SFTPC mutation reveal the intrinsic alveolar epithelial dysfunction at the inception of interstitial lung disease",

abstract = "Alveolar epithelial type 2 cell (AEC2) dysfunction is implicated in the pathogenesis of adult and pediatric interstitial lung disease (ILD), including idiopathic pulmonary fibrosis (IPF); however, identification of disease-initiating mechanisms has been impeded by inability to access primary AEC2s early on. Here, we present a human in vitro model permitting investigation of epithelial-intrinsic events culminating in AEC2 dysfunction, using patient-specific induced pluripotent stem cells (iPSCs) carrying an AEC2-exclusive disease-associated variant (SFTPCI73T). Comparing syngeneic mutant versus gene-corrected iPSCs after differentiation into AEC2s (iAEC2s), we find that mutant iAEC2s accumulate large amounts of misprocessed and mistrafficked pro-SFTPC protein, similar to in vivo changes, resulting in diminished AEC2 progenitor capacity, perturbed proteostasis, altered bioenergetic programs, time-dependent metabolic reprogramming, and nuclear factor κB (NF-κB) pathway activation. Treatment of SFTPCI73T-expressing iAEC2s with hydroxychloroquine, a medication used in pediatric ILD, aggravates the observed perturbations. Thus, iAEC2s provide a patient-specific preclinical platform for modeling the epithelial-intrinsic dysfunction at ILD inception.",

keywords = "NF-κB, autophagy, bioenergetics, iPSC-derived alveolar epithelial type 2 cells, idiopathic pulmonary fibrosis, induced pluripotent stem cells, interstitial lung disease, metabolic reprogramming, proteostasis, surfactant protein C",

author = "Alysandratos, {Konstantinos Dionysios} and Russo, {Scott J.} and Anton Petcherski and Taddeo, {Evan P.} and Rebeca Ac{\'i}n-P{\'e}rez and Carlos Villacorta-Martin and Jean, {J. C.} and Surafel Mulugeta and Rodriguez, {Luis R.} and Blum, {Benjamin C.} and Hekman, {Ryan M.} and Hix, {Olivia T.} and Kasey Minakin and Marall Vedaie and Seunghyi Kook and Tilston-Lunel, {Andrew M.} and Xaralabos Varelas and Wambach, {Jennifer A.} and Cole, {F. Sessions} and Aaron Hamvas and Young, {Lisa R.} and Marc Liesa and Andrew Emili and Guttentag, {Susan H.} and Shirihai, {Orian S.} and Beers, {Michael F.} and Kotton, {Darrell N.}",

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T1 - Patient-specific iPSCs carrying an SFTPC mutation reveal the intrinsic alveolar epithelial dysfunction at the inception of interstitial lung disease

AU - Alysandratos, Konstantinos Dionysios

AU - Russo, Scott J.

AU - Petcherski, Anton

AU - Taddeo, Evan P.

AU - Acín-Pérez, Rebeca

AU - Villacorta-Martin, Carlos

AU - Jean, J. C.

AU - Mulugeta, Surafel

AU - Rodriguez, Luis R.

AU - Blum, Benjamin C.

AU - Hekman, Ryan M.

AU - Hix, Olivia T.

AU - Minakin, Kasey

AU - Vedaie, Marall

AU - Kook, Seunghyi

AU - Tilston-Lunel, Andrew M.

AU - Varelas, Xaralabos

AU - Wambach, Jennifer A.

AU - Cole, F. Sessions

AU - Hamvas, Aaron

AU - Young, Lisa R.

AU - Liesa, Marc

AU - Emili, Andrew

AU - Guttentag, Susan H.

AU - Shirihai, Orian S.

AU - Beers, Michael F.

AU - Kotton, Darrell N.

PY - 2021/8/31

Y1 - 2021/8/31

N2 - Alveolar epithelial type 2 cell (AEC2) dysfunction is implicated in the pathogenesis of adult and pediatric interstitial lung disease (ILD), including idiopathic pulmonary fibrosis (IPF); however, identification of disease-initiating mechanisms has been impeded by inability to access primary AEC2s early on. Here, we present a human in vitro model permitting investigation of epithelial-intrinsic events culminating in AEC2 dysfunction, using patient-specific induced pluripotent stem cells (iPSCs) carrying an AEC2-exclusive disease-associated variant (SFTPCI73T). Comparing syngeneic mutant versus gene-corrected iPSCs after differentiation into AEC2s (iAEC2s), we find that mutant iAEC2s accumulate large amounts of misprocessed and mistrafficked pro-SFTPC protein, similar to in vivo changes, resulting in diminished AEC2 progenitor capacity, perturbed proteostasis, altered bioenergetic programs, time-dependent metabolic reprogramming, and nuclear factor κB (NF-κB) pathway activation. Treatment of SFTPCI73T-expressing iAEC2s with hydroxychloroquine, a medication used in pediatric ILD, aggravates the observed perturbations. Thus, iAEC2s provide a patient-specific preclinical platform for modeling the epithelial-intrinsic dysfunction at ILD inception.

AB - Alveolar epithelial type 2 cell (AEC2) dysfunction is implicated in the pathogenesis of adult and pediatric interstitial lung disease (ILD), including idiopathic pulmonary fibrosis (IPF); however, identification of disease-initiating mechanisms has been impeded by inability to access primary AEC2s early on. Here, we present a human in vitro model permitting investigation of epithelial-intrinsic events culminating in AEC2 dysfunction, using patient-specific induced pluripotent stem cells (iPSCs) carrying an AEC2-exclusive disease-associated variant (SFTPCI73T). Comparing syngeneic mutant versus gene-corrected iPSCs after differentiation into AEC2s (iAEC2s), we find that mutant iAEC2s accumulate large amounts of misprocessed and mistrafficked pro-SFTPC protein, similar to in vivo changes, resulting in diminished AEC2 progenitor capacity, perturbed proteostasis, altered bioenergetic programs, time-dependent metabolic reprogramming, and nuclear factor κB (NF-κB) pathway activation. Treatment of SFTPCI73T-expressing iAEC2s with hydroxychloroquine, a medication used in pediatric ILD, aggravates the observed perturbations. Thus, iAEC2s provide a patient-specific preclinical platform for modeling the epithelial-intrinsic dysfunction at ILD inception.

KW - NF-κB

KW - autophagy

KW - bioenergetics

KW - iPSC-derived alveolar epithelial type 2 cells

KW - idiopathic pulmonary fibrosis

KW - induced pluripotent stem cells

KW - interstitial lung disease

KW - metabolic reprogramming

KW - proteostasis

KW - surfactant protein C

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Patient-specific iPSCs carrying an SFTPC mutation reveal the intrinsic alveolar epithelial dysfunction at the inception of interstitial lung disease

Abstract

Keywords

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