The antifibrotic drug pirfenidone promotes pulmonary cavitation and drug resistance in a mouse model of chronic tuberculosis
Bintou A. Ahidjo, Mariama C. Maiga, Elizabeth A. Ihms, Mamoudou Maiga, Alvaro A. Ordonez, Laurene S. Cheung, Sarah Beck, Bruno B. Andrade, Sanjay Jain, William R. Bishai
Bintou A. Ahidjo, Mariama C. Maiga, Elizabeth A. Ihms, Mamoudou Maiga, Alvaro A. Ordonez, Laurene S. Cheung, Sarah Beck, Bruno B. Andrade, Sanjay Jain, William R. Bishai
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Research Article Infectious disease Therapeutics

The antifibrotic drug pirfenidone promotes pulmonary cavitation and drug resistance in a mouse model of chronic tuberculosis

Abstract

Pirfenidone is a recently approved antifibrotic drug for the treatment of idiopathic pulmonary fibrosis (IPF). Because tuberculosis (TB) is characterized by granulomatous inflammation in conjunction with parenchymal destruction and replacement fibrosis, we sought to determine whether the addition of pirfenidone as an adjunctive, host-directed therapy provides a beneficial effect during antimicrobial treatment of TB. We hypothesized that pirfenidone’s antiinflammatory and antifibrotic properties would reduce inflammatory lung damage and increase antimicrobial drug penetration in granulomas to accelerate treatment response. The effectiveness of adjunctive pirfenidone during TB drug therapy was evaluated using a murine model of chronic TB. Mice treated with standard therapy 2HRZ/4HR (H, isoniazid; R, rifampin; and Z, pyrazinamide) were compared with 2 alternative regimens containing pirfenidone (Pf) (2HRZPf/4HRPf and 2HRZPf/4HR). Contrary to our hypothesis, adjunctive pirfenidone use leads to reduced bacterial clearance and increased relapse rates. This treatment failure is closely associated with the emergence of isoniazid monoresistant bacilli, increased cavitation, and significant lung pathology. While antifibrotic agents may eventually be used as part of adjunctive host-directed therapy of TB, this study clearly demonstrates that caution must be exercised. Moreover, as pirfenidone becomes more widely used in clinical practice, increased patient monitoring would be required in endemic TB settings.

Authors

Bintou A. Ahidjo, Mariama C. Maiga, Elizabeth A. Ihms, Mamoudou Maiga, Alvaro A. Ordonez, Laurene S. Cheung, Sarah Beck, Bruno B. Andrade, Sanjay Jain, William R. Bishai

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Figure 4

Pathology of Mycobacterium tuberculosis (Mtb)–infected C3HeB/FeJ mice in the absence and presence of pirfenidone (Pf).

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Pathology of Mycobacterium tuberculosis (Mtb)–infected C3HeB/FeJ mice in...
(A) Histopathology of lungs of Mtb-infected C3HeB/FeJ Pf-naive mice showing reduced MMPsense 680 fluorescence (left) and hence reduced MMP activation, areas of hypercellularity, and a single large necrogranuloma (G), composed of a central core of necrotic granular debris (N), lined by foamy macrophages (FM) and surrounded by a rim of fibrous connective tissue. Middle 4 images are of H&E-stained tissue. Scale bars: 200 μm. Images on right are of acid-fast–stained tissue. Scale bars: 50 μm. (B) Pf treatment resulted in increased MMPsense 680 fluorescence, which corresponds to an increase in MMP activity and an increased number of pulmonary cavities with air-filled centers (*), lined by foamy macrophages (FM) and surrounded by a thin rim of fibrous connective tissue (CT). Cavities are interspersed with adjacent normal alveoli (A). (C) Gross pathology of lobar pneumonia observed during treatment with pirfenidone (red arrows). These are all representative of n ≥ 3 characterized mouse lungs per group.