Margot Lundborg scite author profile

Alveolar macrophages (AM) and interstitial macrophages (IM) from rat lungs were characterized with respect to morphology, phagocytosis, adhesion properties, and phenotype. AM were recovered by lung lavage and IM by treatment of the lung tissue with DNAse and collagenase. The AM were enzyme treated in the same way as the IM. The IM were smaller than AM and had a higher nuclear to cytoplasm ratio. They had markedly lower phagocytic capacity. The attachment of particles to the cell surface was significantly lower in IM than in AM, but the capacity to ingest the particles was the same. Adherence to vitronectin- as well as fibronectin-coated surfaces was significantly higher in AM. The phagolysosomal pH was similar in IM and AM, around pH 5, indicating that dissolution of inorganic particles can take place effectively also in IM. Five surface receptors were studied, and the expression differed significantly in all five between AM and IM. The expression of OX-1 (CD 45), a common leukocyte antigen, was significantly higher on AM as was the expression of CD 71 (transferrin receptor). The receptor density for OX-42 was higher on a fraction of IM. This might be compatible with a stronger interaction between these cells and, for example, matrix components. IM had more surface antigen expressing MHC class Ia (OX-6) and CD 54. Both receptors are important for the antigen presentation capacity of macrophages. These findings show profound differences in phenotype between AM and IM and indicate that IM is a highly immunocompetent cell and should not be regarded only as a precursor to AM.

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Aggregates of ultrafine particles impair phagocytosis of microorganisms by human alveolar macrophages

Lundborg

Dahlén

Johard

et al. 2006

Environmental Research

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Ability of Rabbit Alveolar Macrophages to Dissolve Metals

Lundborg

Lind

Camner

1984

Experimental Lung Research

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Manganese dioxide particles, 0.1-0.5 micron, were added to samples of 2-3 X 10(6) rabbit alveolar macrophages. The amount of manganese added and dissolved from the particles, over periods of 0, 1, 3, and 5 days, was determined by flame atomic absorption spectrophotometry. Macrophages from six rabbits received about 10 micrograms of Mn, macrophages from two rabbits about 30 micrograms, and macrophages from another two rabbits about 100 micrograms. Over periods of 1, 3, and 5 days the macrophages in all three dose groups dissolved two to three times more Mn than was dissolved in control experiments. In control experiments solubility was studied in the medium without macrophages. Macrophages cultivated 3 days before the addition of MnO2 dissolved the particles within another 2 days to an extent similar to that in the control experiments. The ability of the macrophages to dissolve MnO2 particles might be related to the low pH values in the phagosomes. Studies of the ability of macrophages from various species to dissolve metal particles as well as of pH values in their phagosomes might lead to a better understanding of alveolar clearance of metal particles.

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Margot Lundborg

Human Alveolar Macrophage Phagocytic Function is Impaired by Aggregates of Ultrafine Carbon Particles

Functional and Morphological Differences between Human Alveolar and Interstitial Macrophages

Functional, morphological, and phenotypical differences between rat alveolar and interstitial macrophages.

Aggregates of ultrafine particles impair phagocytosis of microorganisms by human alveolar macrophages

Ability of Rabbit Alveolar Macrophages to Dissolve Metals

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