Gene therapy of Csf2ra deficiency in mouse fetal monocyte precursors restores alveolar macrophage development and function
Fengqi Li, Katarzyna Maria Okreglicka, Federica Piattini, Lea Maria Pohlmeier, Christoph Schneider, Manfred Kopf
Fengqi Li, Katarzyna Maria Okreglicka, Federica Piattini, Lea Maria Pohlmeier, Christoph Schneider, Manfred Kopf
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Research Article Immunology

Gene therapy of Csf2ra deficiency in mouse fetal monocyte precursors restores alveolar macrophage development and function

Abstract

Tissue-resident macrophage-based immune therapies have been proposed for various diseases. However, generation of sufficient numbers that possess tissue-specific functions remains a major handicap. Here, we showed that fetal liver monocytes cultured with GM-CSF (CSF2-cFLiMo) rapidly differentiated into a long-lived, homogeneous alveolar macrophage–like population in vitro. CSF2-cFLiMo retained the capacity to develop into bona fide alveolar macrophages upon transfer into Csf2ra–/– neonates and prevented development of alveolar proteinosis and accumulation of apoptotic cells for at least 1 year in vivo. CSF2-cFLiMo more efficiently engrafted empty alveolar macrophage niches in the lung and protected mice from severe pathology induced by respiratory viral infection compared with transplantation of macrophages derived from BM cells cultured with M-CSF (CSF1-cBMM) in the presence or absence of GM-CSF. Harnessing the potential of this approach for gene therapy, we restored a disrupted Csf2ra gene in fetal liver monocytes and demonstrated their capacity to develop into alveolar macrophages in vivo. Altogether, we provide a platform for generation of immature alveolar macrophage–like precursors amenable for genetic manipulation, which will be useful to dissect alveolar macrophage development and function and for pulmonary transplantation therapy.

Authors

Fengqi Li, Katarzyna Maria Okreglicka, Federica Piattini, Lea Maria Pohlmeier, Christoph Schneider, Manfred Kopf

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Figure 6

Rejection of allogenic CSF2-cFLiMo–derived alveolar macrophages.

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Rejection of allogenic CSF2-cFLiMo–derived alveolar macrophages. (A) Ill...
(A) Illustration of experimental regimen. CD45.2 BALB/c and CD45.1 B6 CSF2-cFLiMo were generated from E14.5 embryos and cultured 2 weeks in vitro. BALB/c CSF2-cFLiMo were transferred to neonatal CD45.2 Csf2ra–/– mice (B6 background) either separately or in a 1:1 ratio with B6 CSF2-cFLiMo and analyzed 10 weeks later in B and C. (B) Representative dot plots showing the phenotype of donor-derived alveolar macrophages (AMs) in the BAL, pre-gated on viable CD45+ single cells (n = 3/group). (C) Percentage of donor-derived AMs in BAL of cotransferred recipients (n = 3). (D) Illustration of experimental regimen. GM-CSF cultured neonatal liver monocytes (CSF2-cNLiMo) generated from CD45.1 WT male neonates after 2-week culture were i.n. transferred to neonatal CD45.2 Csf2ra–/– mice and analyzed after 10 weeks in E and F. Mice were grouped according to sex (n = 6 to 7/group). (E and F) Numbers of donor-derived and WT AMs in the BAL (E) and lung (F) are shown. Age-matched Csf2ra–/– and CD45.2 WT mice were included as negative and positive controls (n = 3/group). Data are presented as mean ± SD and the results are representative of 3 experiments. Student’s t test (unpaired) was used in C and ANOVA (1-way) was used in E and F. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.