Pulmonary Transplantation of Macrophage Progenitors As Effective and Long-lasting Therapy for Hereditary Pulmonary Alveolar Proteinosis

Overview

Journal Sci Transl Med

Specialties General Medicine
Science

Date 2014 Aug 22

PMID 25143363

Citations 61

Authors

Christine Happle

Nico Lachmann

Jelena Skuljec

Martin Wetzke

Mania Ackermann

Sebastian Brennig

Adele Mucci

Adan Chari Jirmo

Stephanie Groos

Anja Mirenska

Christina Hennig

Thomas Rodt

Jens P Bankstahl

Nicolaus Schwerk

Thomas Moritz

Gesine Hansen

Affiliations

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Abstract

Hereditary pulmonary alveolar proteinosis (herPAP) is a rare lung disease caused by mutations in the granulocyte-macrophage colony-stimulating factor (GM-CSF) receptor genes, resulting in disturbed alveolar macrophage differentiation, massive alveolar proteinosis, and life-threatening respiratory insufficiency. So far, the only effective treatment for herPAP is repetitive whole-lung lavage, a merely symptomatic and highly invasive procedure. We introduce pulmonary transplantation of macrophage progenitors as effective and long-lasting therapy for herPAP. In a murine disease model, intrapulmonary transplanted macrophage progenitors displayed selective, long-term pulmonary engraftment and differentiation into functional alveolar macrophages. A single transplantation ameliorated the herPAP phenotype for at least 9 months, resulting in significantly reduced alveolar proteinosis, normalized lung densities in chest computed tomography, and improved lung function. A significant and sustained disease resolution was also observed in a second, humanized herPAP model after intrapulmonary transplantation of human macrophage progenitors. The therapeutic effect was mediated by long-lived, lung-resident macrophages, which displayed functional and phenotypical characteristics of primary human alveolar macrophages. Our findings present the concept of organotopic transplantation of macrophage progenitors as an effective and long-lasting therapy of herPAP and may also serve as a proof of principle for other diseases, expanding current stem cell-based strategies toward potent concepts using the transplantation of differentiated cells.

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