The Lung as an Embattled Domain Against Inanimate Pollutants

Gross, Paul; deTrevïlle, Robert T. P.

doi:10.1164/arrd.1972.106.5.684

Cited by 29 publications

(16 citation statements)

References 3 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Thus, the organism is able to limit AM recruitment, especially that of NL when an effective clearance can be assured at lower costs in cell resources. Such regulation of the response is even more expedient because recruitment of an unusually large number of cells to the free alveolar surface can, by creating hindrances to their draining through a considerably smaller surface of the acinus mouth (32), become by itself, not an elimination mechanism, but a cause of dust retention. For instance, when AM and NL recruitment was enhanced by the action of some biogenic stimulators (33) or of cold acclimatization (17), pulmonary dust retention increased.…”

Section: Cytotoxicity Of Dust and The Characteristics Of Alveolar Phamentioning

confidence: 99%

Recruitment of Phagocytizing Cells into the Respiratory Tract as a Response to the Cytotoxic Action of Deposited Particles

Katsnelson¹,

Privalova²

1984

Environmental Health Perspectives

View full text Add to dashboard Cite

Section: Cytotoxicity Of Dust and The Characteristics Of Alveolar Phamentioning

confidence: 99%

Recruitment of Phagocytizing Cells into the Respiratory Tract as a Response to the Cytotoxic Action of Deposited Particles

Katsnelson¹,

Privalova²

1984

Environmental Health Perspectives

View full text Add to dashboard Cite

“…A search for physiological agents which increase the resistance of AM to damage and thereby help to increase the clearance efficiency along with a decrease of cell expenditure on it is indicated. When we deal with damage by silica particles to macrophages such increase of resistance means also a decrease of the factor stimulating silicotic fibrogenesis (71,75,76) and a favorable influence on other elements of the silicosis pathogenesis connected with a specific cytotoxicity of these particles. Experimental data showing that muscle training may provide a similar favorable influence lead to possible perspectives of this approach.…”

Section: Discussionmentioning

confidence: 99%

“…One more positive feedback, shown in the same scheme, reflects the earlier proved (15) enhancement of alveolar macrophage degeneration caused by inhaled quartz in rats, which had, due to long-term excessive fat administration PO, an increased sudanophilic inclusion content in AM. (71). In fact, the hyperstimulation of the AM and NL recruitment by some biogenic preparations did not speed up, but rather slowed the elimination of 60Co particles injected intratracheally, although a more moderate stimulation gave a favorable effect (30).…”

Section: Macrophagal Lipids and Quartz Particle Phagocytosismentioning

confidence: 99%

Response of a phagocyte cell system to products of macrophage breakdown as a probable mechanism of alveolar phagocytosis adaptation to deposition of particles of different cytotoxicity.

Privalova¹,

Katsnelson²,

Osipenko³

et al. 1980

Environ Health Perspect

View full text Add to dashboard Cite

The adaptation of the alveolar phagocytosis response to the quantitative and qualitative features of dust deposited during inhalation consists not only in enhanced recruitment of alveolar macrophages (AM), but also in adding a more or less pronounced neutrophil leukocyte (NL) recruitment as an auxiliary participant of particle clearance. The NL contribution to clearance is especially typical for response to cytotoxic particles (quartz, in particular). An important feature of the adaptation considered is the limitation of the number of AM and NL recruited when an efficient clearance can be achieved by a lesser number ofceDls due to increased AM resistance to the damaging action of phagocytized particles. The main mechanism providing the adequacy of the alveolar phagocytosis response is its self-regulation through the products of macrophage breakdown (PMB). In a series of experiments with intraperitoneal and intratracheal injections of syngenetic PMB into rats and mice, it was shown that these products stimulate respiration and migration of phagocytic cells, their dose-dependent attraction to the site of PMB formation with the predominant NL contribution, increasing with the increase of amount of PMB, the AM and NL precursor cells recruitment from reserve pools, and the replenishment of these reserves in the process of hemopoiesis. At least some of the above effects are connected with the action of the lipid components of PMB. The action of specialized regulative systems of the organism can modify the response to PMB, judging by the results obtained by hydrocortisone injection. Autocontrol of alveolar phagocytosis requires great care in attempts at artificial stimulation ofthis process, as an excessive cell recruitment may promote the retention of particles in lungs.According to estimates based on comparison of calculated deposition of dust in miners' lungs with the actual amount found postmortem, about 98-99% of primarily deposited dust mass is cleared from the respiratory system (1). This impressive calculation allows us not only to explain why life is compatible

show abstract

“…This results from two counterbalancing phenomena: deposition of inhaled particles in low airways and their clearance. A well known estimate of the mass of dust recovered from miners' lungs postmortem compared with the computed dust deposition is approximately 98 to 99% total efficiency of pulmonary dust clearance during a long period of underground work (7). This seemingly narrow range indicates that under identical dust exposures, one may expect up to a twofold difference between the masses of dust accumulated in the lungs.…”

Section: Some Theoretical Premises Of Pathogenesismentioning

confidence: 99%

“…At the same time, however, a reactivity shift is observed which is clearly excessive, as the highly cytotoxic quartz dust itself induces an intensive recruitment of AMs, and especially NLs, into lower airways and alveoli. It has long been known that such inordinate recruitment of cells to the free surface of the acinus creates prerequisites for cellular stasis in the respiratory bronchiole, and thus becomes one of the mechanisms of particle retention instead of clearance (7). An increase of such retention was observed with the response of alveolar phagocytosis, and especially the NL recruitment, when hyperstimulated with the prodigiosane (67).…”

Section: Cold Acclimatizationmentioning

confidence: 99%

Some aspects of the problem of individual predisposition to silicosis.

Katsnelson¹,

Polzik²,

Privalova³

1986

Environ Health Perspect

View full text Add to dashboard Cite

Based on experimental and epidemiological data findings presented here, as well as on data of other investigators, the authors conclude that a wide interindividual variability of susceptibility to silicosis is a real phenomenon. This susceptibility depends on both intrinsic features of the host and the influence of many environmental factors. The effect of any such factor is realized at different stages of silicosis pathogenesis and in close interrelation with the influence of other factors. The necessity of multifactorial analysis is stressed, and an example of such analysis is presented.

show abstract

The Lung as an Embattled Domain Against Inanimate Pollutants

Cited by 29 publications

References 3 publications

Recruitment of Phagocytizing Cells into the Respiratory Tract as a Response to the Cytotoxic Action of Deposited Particles

Recruitment of Phagocytizing Cells into the Respiratory Tract as a Response to the Cytotoxic Action of Deposited Particles

Response of a phagocyte cell system to products of macrophage breakdown as a probable mechanism of alveolar phagocytosis adaptation to deposition of particles of different cytotoxicity.

Some aspects of the problem of individual predisposition to silicosis.

Contact Info

Product

Resources

About