James H. Fisher scite author profile

Removal of cells dying by apoptosis is essential to normal development, maintenance of tissue homeostasis, and resolution of inflammation. Surfactant protein A (SP-A) and surfactant protein D (SP-D) are high abundance pulmonary collectins recently implicated in apoptotic cell clearance in vitro. Other collectins, such as mannose-binding lectin and the collectin-like C1q, have been shown to bind to apoptotic cells and drive ingestion through interaction with calreticulin and CD91 on the phagocyte in vitro. However, only C1q has been shown to enhance apoptotic cell uptake in vivo. We sought to determine the relative importance of SP-A, SP-D, and C1q in pulmonary clearance of apoptotic cells using knockout and overexpressing mice, and to determine the role of calreticulin and CD91 in this process. SP-A, SP-D, and C1q all enhanced apoptotic cell ingestion by resident murine and human alveolar macrophages in vitro. However, only SP-D altered apoptotic cell clearance from the naive murine lung, suggesting that SP-D plays a particularly important role in vivo. Similar to C1q and mannose-binding lectin, SP-A and SP-D bound to apoptotic cells in a localized, patchy pattern and drove apoptotic cell ingestion by phagocytes through a mechanism dependent on calreticulin and CD91. These results suggest that the entire collectin family of innate immune proteins (including C1q) works through a common receptor complex to enhance removal of apoptotic cells, and that collectins are integral, organ-specific components of the clearance machinery.

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Increased metalloproteinase activity, oxidant production, and emphysema in surfactant protein D gene-inactivated mice

Wert

Yoshida

LeVine

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

384

298

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Targeted ablation of the surfactant protein D (SP-D) gene caused chronic inflammation, emphysema, and fibrosis in the lungs of SP-D (؊͞؊) mice. Although lung morphology was unperturbed during the first 2 weeks of life, airspace enlargement was observed by 3 weeks and progressed with advancing age. Inflammation consisted of hypertrophic alveolar macrophages and peribronchiolar-perivascular monocytic infiltrates. These abnormalities were associated with increased activity of the matrix metalloproteinases, MMP2 and MMP9, and immunostaining for MMP9 and MMP12 in alveolar macrophages. Hydrogen peroxide production by isolated alveolar macrophages also was increased significantly (10-fold). SP-D plays a critical role in the suppression of alveolar macrophage activation, which may contribute to the pathogenesis of chronic inflammation and emphysema.

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Distinct Effects of Surfactant Protein A or D Deficiency During Bacterial Infection on the Lung

LeVine

Whitsett²,

Gwozdz³

et al. 2000

325

276

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Mice lacking surfactant protein (SP)-A (SP-A−/−) or SP-D (SP-D−/−) and wild-type mice were infected with group B streptococcus or Haemophilus influenzae by intratracheal instillation. Although decreased killing of group B streptococcus and H. influenzae was observed in SP-A−/− mice but not in SP-D−/− mice, deficiency of either SP-A or SP-D was associated with increased inflammation and inflammatory cell recruitment in the lung after infection. Deficient uptake of bacteria by alveolar macrophages was observed in both SP-A- and SP-D-deficient mice. Isolated alveolar macrophages from SP-A−/− mice generated significantly less, whereas those from SP-D−/− mice generated significantly greater superoxide and hydrogen peroxide compared with wild-type alveolar macrophages. In SP-D−/− mice, bacterial killing was associated with increased lung inflammation, increased oxidant production, and decreased macrophage phagocytosis. In contrast, in the absence of SP-A, bacterial killing was decreased and associated with increased lung inflammation, decreased oxidant production, and decreased macrophage phagocytosis. Increased oxidant production likely contributes to effective bacterial killing in the lungs of SP-D−/− mice. The collectins, SP-A and SP-D, play distinct roles during bacterial infection of the lung.

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Surfactant Protein-D Regulates Surfactant Phospholipid Homeostasis in Vivo

Korfhagen¹,

Sheftelyevich²,

Burhans³

et al. 1998

Journal of Biological Chemistry

292

238

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Surfactant proteins A and D inhibit the growth of Gram-negative bacteria by increasing membrane permeability

Wu¹,

Kuzmenko²,

Wan³

et al. 2003

J. Clin. Invest.

352

216

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James H. Fisher

Role of Surfactant Proteins A, D, and C1q in the Clearance of Apoptotic Cells In Vivo and In Vitro: Calreticulin and CD91 as a Common Collectin Receptor Complex

Increased metalloproteinase activity, oxidant production, and emphysema in surfactant protein D gene-inactivated mice

Distinct Effects of Surfactant Protein A or D Deficiency During Bacterial Infection on the Lung

Surfactant Protein-D Regulates Surfactant Phospholipid Homeostasis in Vivo

Surfactant proteins A and D inhibit the growth of Gram-negative bacteria by increasing membrane permeability

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