Angiotensin-converting enzyme defines matrikine-regulated inflammation and fibrosis
Philip J. O’Reilly, Qiang Ding, Samia Akthar, Guoqiang Cai, Kristopher R. Genschmer, Dhiren F. Patel, Patricia L. Jackson, Liliana Viera, Mojtaba Roda, Morgan L. Locy, Ellen A. Bernstein, Clare M. Lloyd, Kenneth E. Bernstein, Robert J. Snelgrove, J. Edwin Blalock
Philip J. O’Reilly, Qiang Ding, Samia Akthar, Guoqiang Cai, Kristopher R. Genschmer, Dhiren F. Patel, Patricia L. Jackson, Liliana Viera, Mojtaba Roda, Morgan L. Locy, Ellen A. Bernstein, Clare M. Lloyd, Kenneth E. Bernstein, Robert J. Snelgrove, J. Edwin Blalock
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Research Article Pulmonology

Angiotensin-converting enzyme defines matrikine-regulated inflammation and fibrosis

Abstract

The neutrophil chemoattractant proline-glycine-proline (PGP) is generated from collagen by matrix metalloproteinase-8/9 (MMP-8/9) and prolyl endopeptidase (PE), and it is concomitantly degraded by extracellular leukotriene A4 hydrolase (LTA4H) to limit neutrophilia. Components of cigarette smoke can acetylate PGP, yielding a species (AcPGP) that is resistant to LTA4H-mediated degradation and can, thus, support a sustained neutrophilia. In this study, we sought to elucidate if an antiinflammatory system existed to degrade AcPGP that is analogous to the PGP-LTA4H axis. We demonstrate that AcPGP is degraded through a previously unidentified action of the enzyme angiotensin-converting enzyme (ACE). Pulmonary ACE is elevated during episodes of acute inflammation, as a consequence of enhanced vascular permeability, to ensure the efficient degradation of AcPGP. Conversely, we suggest that this pathway is aberrant in chronic obstructive pulmonary disease (COPD) enabling the accumulation of AcPGP. Consequently, we identify a potentially novel protective role for AcPGP in limiting pulmonary fibrosis and suggest the pathogenic function attributed to ACE in idiopathic pulmonary fibrosis (IPF) to be a consequence of overzealous AcPGP degradation. Thus, AcPGP seemingly has very divergent roles: it is pathogenic in its capacity to drive neutrophilic inflammation and matrix degradation in the context of COPD, but it is protective in its capacity to limit fibrosis in IPF.

Authors

Philip J. O’Reilly, Qiang Ding, Samia Akthar, Guoqiang Cai, Kristopher R. Genschmer, Dhiren F. Patel, Patricia L. Jackson, Liliana Viera, Mojtaba Roda, Morgan L. Locy, Ellen A. Bernstein, Clare M. Lloyd, Kenneth E. Bernstein, Robert J. Snelgrove, J. Edwin Blalock

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Figure 3

ACE is elevated in BALF following pulmonary challenge to promote AcPGP degradation and is inhibited by captopril.

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ACE is elevated in BALF following pulmonary challenge to promote AcPGP d...
(A and B) Balb/c mice were administered 10 μg LPS i.n. and culled after 6, 12, or 24 hours. BALF ACE protein levels were determined by ELISA (A). BALF from these mice was incubated with AcPGP and degradation assessed after 24 hours by mass spectrometry (B). (C–E) Naive Balb/c mice were administered histamine i.v. and culled after 30 min. BALF AcPGP–degrading activity was assessed by mass spectrometry (C) and ACE protein levels by ELISA (D). (E) Correlation between BALF ACE protein levels and BALF albumin levels (determined by ELISA). (F–H) Balb/c mice were administered 1 μg MIP-2 i.n. and culled after 6 hours. BALF AcPGP–degrading activity was assessed by mass spectrometry (F) and ACE protein levels by ELISA (G). (H) Correlation between BALF ACE protein levels and BALF albumin levels (determined by ELISA). (I and J) Lta4h–/– mice and littermate controls were administered 10 μg LPS i.n. and 2 mg captopril/PBS control i.p. Mice were culled after 24 hours, and levels of PGP (I) and AcPGP (J) in BALF were assessed by mass spectrometry. Experiments are from 4 (F and G) or 5 (A–D, I and J) mice/group and representative of 2 experiments. Spearman correlation (E and H) is representative of 2 experiments, each with at least 4 mice per group. Results depicted as mean ± SEM. *P < 0.05 or **P < 0.01 using Mann–Whitney statistical test (C and H) or Kruskal-Wallis with Dunn’s post test (G). Spearman correlation from 2 experiments with at least 5 mice per group.