Abstract
Alveolar macrophage (AM) phagocytic activity and glucose metabolism were evaluated during lung tumour growth in adult rats challenged i.v. with 10(5) viable Walker 256 tumour cells. Phagocytosis was estimated by the in vitro uptake of (14)C-labelled Pseudomonas aeruginosa and glucose oxidation was evaluated by (14)CO(2) production from 1-(14)C-glucose. AM were harvested by lung lavage from rats prior to and at 7 and 21 days following i.v. tumour-cell challenge. Macroscopic lung tumour nodules were not observed by 7 days after tumour challenge. However, 3 weeks after tumour challenge, tumour nodules were clearly identifiable on the surfaces of the lungs. One week after the i.v. tumour challenge a marked increase in the number of AM was evident. The in vitro phagocytosis of (14)C-labelled Pseudomonas aeruginosa was unaltered at that time, but became progressively depressed thereafter. Three weeks after tumour challenge, this decrease in phagocytic activity was evident when cells were incubated in normal serum, and was furtheri ntensified by serum obtained from tumour-bearing animals. Glucose oxidation by AM in either the resting condition or during bacterial phagocytosis was clearly decreased at both 1 and 3 weeks following i.v. tumour challenge. These findings indicate that the growth of pulmonary metastases is associated with a depression of alveolar macrophage bacterial phagocytic capacity, perturbations in serum opsonic activity and distinct alterations in macrophage energy metabolism. The metabolic dysfunction may impair pulmonary macrophage host defences against lung tumour growth.
Highlights
Summary.-Alveolar macrophage (AM) phagocytic activity and glucose metabolism were evaluated during lung tumour growth in adult rats challenged i.v. with 105 viable Walker 256 tumour cells
The alveolar macrophage is recognized as the major cellular defence used as recipients in all studies of alveolar macrophage function
Differential cell counts were but once established, the growing tumour may feed back and further undermine local defence mechanisms. To illuminate this )roblem, we have studied the functional stability of the alveolar macrophage with respect to phagocytosis, response to an opsonic stimulus, and glucose metabolism, during the growth and spread made w%vith Wright-Giemsa staining and cell viability was determined by trypan-blue exclusion
Summary
Nodules were first observed 2 weeks after tumour-cell injection and, by 3 weeks, 75%0 of the recipients demonstrated large macroscopic tumour nodules (2-10 nodules/rat) on the surface of the lungs. A significant and consistent increase in the number of AM lavaged from tumour-challenged recipients was observed after onie week (P < 0.001), prior to the appearance of detectable macroscopic lung tumours. This pattern of increased yield remained elevated during the second and third. TABLE III.-In vitro Phagocytosis of 14C-labelled Pseudomonas aeruginosa by Alveolar Macrophages (AM)
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