Anti-CELA1 antibody KF4 prevents emphysema by inhibiting stretch-mediated remodeling
Mohit Ojha, Noah J. Smith, Andrew J. Devine, Rashika Joshi, Emily M. Goodman, Qiang Fan, Richard Schuman, Aleksey Porollo, J. Michael Wells, Ekta Tiwary, Matthew R. Batie, Jerilyn Gray, Hitesh Deshmukh, Michael T. Borchers, Samuel A. Ammerman, Brian M. Varisco
Mohit Ojha, Noah J. Smith, Andrew J. Devine, Rashika Joshi, Emily M. Goodman, Qiang Fan, Richard Schuman, Aleksey Porollo, J. Michael Wells, Ekta Tiwary, Matthew R. Batie, Jerilyn Gray, Hitesh Deshmukh, Michael T. Borchers, Samuel A. Ammerman, Brian M. Varisco
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Research Article Aging Pulmonology

Anti-CELA1 antibody KF4 prevents emphysema by inhibiting stretch-mediated remodeling

Abstract

There are no therapies to prevent emphysema progression. Chymotrypsin-like elastase 1 (CELA1) is a serine protease that binds and cleaves lung elastin in a stretch-dependent manner and is required for emphysema in a murine antisense oligonucleotide model of α-1 antitrypsin (AAT) deficiency. This study tested whether CELA1 is important in strain-mediated lung matrix destruction in non–AAT-deficient emphysema and the efficacy of CELA1 neutralization. Airspace simplification was quantified after administration of tracheal porcine pancreatic elastase (PPE), after 8 months of cigarette smoke (CS) exposure, and in aging. In all 3 models, Cela1–/– mice had less emphysema and preserved lung elastin despite increased lung immune cells. A CELA1-neutralizing antibody was developed (KF4), and it inhibited stretch-inducible lung elastase in ex vivo mouse and human lung and immunoprecipitated CELA1 from human lung. In mice, systemically administered KF4 penetrated lung tissue in a dose-dependent manner and 5 mg/kg weekly prevented emphysema in the PPE model with both pre- and postinjury initiation and in the CS model. KF4 did not increase lung immune cells. CELA1-mediated lung matrix remodeling in response to strain is an important contributor to postnatal airspace simplification, and we believe that KF4 could be developed as a lung matrix–stabilizing therapy in emphysema.

Authors

Mohit Ojha, Noah J. Smith, Andrew J. Devine, Rashika Joshi, Emily M. Goodman, Qiang Fan, Richard Schuman, Aleksey Porollo, J. Michael Wells, Ekta Tiwary, Matthew R. Batie, Jerilyn Gray, Hitesh Deshmukh, Michael T. Borchers, Samuel A. Ammerman, Brian M. Varisco

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Figure 6

CELA1, other proteases, and human lung elastase activity.

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CELA1, other proteases, and human lung elastase activity. (A) In 23 cont...
(A) In 23 control and 8 COPD lung homogenates, CELA1 mRNA levels were variable but overall higher in COPD lungs than smoker controls but not different from nonsmoker control. *P < 0.05 by Mann-Whitney U test. (B) mRNA levels of matrix metalloproteinase 2 (MMP2), MMP8, MMP9, MMP12, MMP14, proteinase-3 (PTRN3), cathepsin G (CTSG), neutrophil elastase (ELANE), CELA1, tissue inhibitor of metalloproteinase-1 (TIMP1), TIMP2, TIMP3, and α1-antitrypsin (SERPINA1) as well as tissue protease, gelatinase, and elastase activities were compared by Spearman’s rank correlation with Bonferroni’s correction for multiple comparisons. CELA1 and MMP12 mRNA levels correlated with each other and with tissue protease, elastase, and gelatinase levels. The other proteases and antiproteases were generally correlated with each other. *P < 0.05, **P < 0.01, ***P < 0.001.