CYB5R3 in type II alveolar epithelial cells protects against lung fibrosis by suppressing TGF-β1 signaling
Marta Bueno, Jazmin Calyeca, Timur Khaliullin, Megan P. Miller, Diana Alvarez, Lorena Rosas, Judith Brands, Christian Baker, Amro Nasser, Stephanie Shulkowski, August Mathien, Nneoma Uzoukwu, John Sembrat, Brenton G. Mays, Kaitlin Fiedler, Scott A. Hahn, Sonia R. Salvatore, Francisco J. Schopfer, Mauricio Rojas, Peter Sandner, Adam C. Straub, Ana L. Mora
Marta Bueno, Jazmin Calyeca, Timur Khaliullin, Megan P. Miller, Diana Alvarez, Lorena Rosas, Judith Brands, Christian Baker, Amro Nasser, Stephanie Shulkowski, August Mathien, Nneoma Uzoukwu, John Sembrat, Brenton G. Mays, Kaitlin Fiedler, Scott A. Hahn, Sonia R. Salvatore, Francisco J. Schopfer, Mauricio Rojas, Peter Sandner, Adam C. Straub, Ana L. Mora
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Research Article Pulmonology

CYB5R3 in type II alveolar epithelial cells protects against lung fibrosis by suppressing TGF-β1 signaling

Abstract

Type II alveolar epithelial cell (AECII) redox imbalance contributes to the pathogenesis of idiopathic pulmonary fibrosis (IPF), a deadly disease with limited treatment options. Here, we show that expression of membrane-bound cytochrome B5 reductase 3 (CYB5R3), an enzyme critical for maintaining cellular redox homeostasis and soluble guanylate cyclase (sGC) heme iron redox state, is diminished in IPF AECIIs. Deficiency of CYB5R3 in AECIIs led to sustained activation of the pro-fibrotic factor TGF-β1 and increased susceptibility to lung fibrosis. We further show that CYB5R3 is a critical regulator of ERK1/2 phosphorylation and the sGC/cGMP/protein kinase G axis that modulates activation of the TGF-β1 signaling pathway. We demonstrate that sGC agonists (BAY 41-8543 and BAY 54-6544) are effective in reducing the pulmonary fibrotic outcomes of in vivo deficiency of CYB5R3 in AECIIs. Taken together, these results show that CYB5R3 in AECIIs is required to maintain resilience after lung injury and fibrosis and that therapeutic manipulation of the sGC redox state could provide a basis for treating fibrotic conditions in the lung and beyond.

Authors

Marta Bueno, Jazmin Calyeca, Timur Khaliullin, Megan P. Miller, Diana Alvarez, Lorena Rosas, Judith Brands, Christian Baker, Amro Nasser, Stephanie Shulkowski, August Mathien, Nneoma Uzoukwu, John Sembrat, Brenton G. Mays, Kaitlin Fiedler, Scott A. Hahn, Sonia R. Salvatore, Francisco J. Schopfer, Mauricio Rojas, Peter Sandner, Adam C. Straub, Ana L. Mora

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Figure 4

Mitochondrial intervention does not improve virus-induced lung fibrosis in Cyb5r3 SPC–KO mice.

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Mitochondrial intervention does not improve virus-induced lung fibrosis ...
(A) Representative Masson’s trichrome staining in lung sections from Cyb5r3 SPC–KO showing no change in collagen deposition (blue) at day 15 after MHV68 infection after osmotic pump implantation with corresponding treatment (vehicle, mitoTEMPO, NAM) at day 7. Scale bars: 500 μm. (n = 5–6/group.) (B) Treatment did not change collagen deposition in total lung lysate of Cyb5r3 SPC–KO mice after infection determined by hydroxyproline levels. (Min to max with median, n = 5–6/group.) (C) Relative changes of fibrotic markers Tgfb1, Col1a1, and Fn1 mRNA expression levels after treatments in Cyb5r3 SPC–KO MHV68-infected mice. (Min to max with median, n = 5–6/group.) (D) No detectable change of Timp1 and Spp1 transcript levels after treatments in Cyb5r3 SPC–KO MHV68-infected mice. (Min to max with median, n = 5–6/group.) Statistical analysis was performed using 1-way ANOVA with multiple-comparison test (BD), versus vehicle: **P < 0.01.