Interactions of Chrysotile Asbestos Fibres with the Complement System

Overview

Journal Immunology

Specialty Allergy & Immunology

Date 1980 Oct 1

PMID 6904360

Citations 10

Authors

J M Saint-Remy

P Cole

Affiliations

Soon will be listed here.

Abstract

Type A chrysotile fibres (white asbestos) were tested in vitro for activation of the complement system. Fibres were incubated in normal human serum (NHS), factor B-depleted human serum, and normal and C4-deficient guinea-pig sera; the supernates were assayed for the remaining complement activity. Activation of the alternative pathway (AP) was shown in three ways. First, quantitative measurement of factor B; second, kinetic analysis of rabbit red blood cell lysis in whole alternative pathway (AP) and factor B lytic assays; third, qualitative measurement of C3 and factor B conversion by crossed immunoelectrophoresis. No C3 convertase activity could be demonstrated on the fibres but other possible mechanisms of AP activation are discussed. Magnesium itself is not responsible for this activation because acid-treated fibres retain this property. The early classical pathway is not involved as shown by normal whole complement activity of a factor B-depleted human serum and the absence of decrease of C4 functional activity. Knowing that complement proteins are present in pulmonary alveoli, mainly provided by cell synthesis, we suggest that complement activation in vivo may be relevant to the genesis of the chronic inflammation and fibrosis in the lung.

Citing Articles

In vitro biological effects of clay minerals advised as substitutes for asbestos.

Governa M, Valentino M, Visona I, Monaco F, Amati M, Scancarello G Cell Biol Toxicol. 1995; 11(5):237-49.

PMID: 8608405 DOI: 10.1007/BF00757622.

Chemotactic factor generation by asbestos. Fibre type differences and the effects of leaching.

Yano E, Takeuch A, Yukiyamo Y, Brown R Br J Exp Pathol. 1984; 65(2):223-9.

PMID: 6324844 PMC: 2040956.

Biological in vitro and in vivo responses of chrysotile versus amphiboles.

Bignon J, Jaurand M Environ Health Perspect. 1983; 51:73-80.

PMID: 6315385 PMC: 1569268. DOI: 10.1289/ehp.835173.

Asbestos induced fibrosis in the omentum of rats. Immunofluorescence microscopical demonstration of collagens types I and III; laminin and fibronectin.

Friemann J, Voss B, Weller W, Muller K Virchows Arch A Pathol Anat Histopathol. 1987; 411(5):403-8.

PMID: 3116754 DOI: 10.1007/BF00735220.

In vitro fibrinolytic activity and viability of rat alveolar macrophages treated with inflammation generating mineral dusts.

Donaldson K, Slight J, Bolton R Agents Actions. 1987; 20(1-2):87-92.

PMID: 3034004 DOI: 10.1007/BF01965629.

References

HEPPLESTON A, Styles J . Activity of a macrophage factor in collagen formation by silica. Nature. 1967; 214(5087):521-2. DOI: 10.1038/214521a0. View

TURNER-WARWICK M, PARKES W . Circulating rheumatoid and antinuclear factors in asbestos workers. Br Med J. 1970; 3(5721):492-5. PMC: 1701367. DOI: 10.1136/bmj.3.5721.492. View

Beck E, HOLT P, Nasrallah E . Effects of chrysotile and acid-treated chrysotile on macrophage cultures. Br J Ind Med. 1971; 28(2):179-85. PMC: 1009263. DOI: 10.1136/oem.28.2.179. View

Harington J, Miller K, MACNAB G . Hemolysis by asbestos. Environ Res. 1971; 4(2):95-117. DOI: 10.1016/0013-9351(71)90038-7. View

Harington J, MACNAB G, Miller K, King P . Enhancement of haemolytic activity of asbestos by heat-labile factors in fresh serum. Med Lav. 1971; 62(4):171-6. View

Pooley F . Electron microscope characteristics of inhaled chrysotile asbestos fibre. Br J Ind Med. 1972; 29(2):146-53. PMC: 1009392. DOI: 10.1136/oem.29.2.146. View

Davis J . The fibrogenic effects of mineral dusts injected into the pleural cavity of mice. Br J Exp Pathol. 1972; 53(2):190-201. PMC: 2072548. View

Fine D, Marney Jr S, Colley D, Sergent J, DES PREZ R . C3 shunt activation in human serum chelated with EGTA. J Immunol. 1972; 109(4):807-9. View

Harington J, Ritchie M, King P, Miller K . The in-vitro effects of silica-treated hamster macrophages on collagen production by hamster fibroblasts. J Pathol. 1973; 109(1):21-37. DOI: 10.1002/path.1711090104. View

10.

Brade V, Lee G, Nicholson A, Shin H, Mayer M . The reaction of zymosan with the properdin system in normal and C4-deficienct guinea pig serum. Demonstration of C3- and C5-cleaving multi-unit enzymes, both containing factor B, and acceleration of their formation by the classical complement pathway. J Immunol. 1973; 111(5):1389-400. View

11.

Fine D . Activation of the classic and alternate complement pathways by endotoxin. J Immunol. 1974; 112(2):763-9. View

12.

Wagner J, Berry G, Skidmore J, Timbrell V . The effects of the inhalation of asbestos in rats. Br J Cancer. 1974; 29(3):252-69. PMC: 2009089. DOI: 10.1038/bjc.1974.65. View

13.

Platts-Mills T, Ishizaka K . Activation of the alternate pathway of human complements by rabbit cells. J Immunol. 1974; 113(1):348-58. View

14.

Allison A . Effects of silica and asbestos on cells in culture. Inhaled Part. 1970; 1:437-45. View

15.

Davies P, Allison A, Ackerman J, Butterfield A, Williams S . Asbestos induces selective release of lysosomal enzymes from mononuclear phagocytes. Nature. 1974; 251(5474):423-5. DOI: 10.1038/251423a0. View

16.

TURNER-WARWICK M . Immunology and asbestosis. Proc R Soc Med. 1973; 66(9):927-30. PMC: 1645453. View

17.

Lai A Fat R, Van Furth R . In vitro synthesis of some complement components (C1q, C3 and C4) by lymphoid tissues and circulating leucocytes in man. Immunology. 1975; 28(2):359-68. PMC: 1445813. View

18.

Lew F, Yukiyama Y, Waks H, OSLER A . Activation of the alternative (properdin) pathway by divalent cations. J Immunol. 1975; 115(3):884-8. View

19.

Medicus R, Schreiber R, Gotze O, MULLER-EBERHARD H . A molecular concept of the properdin pathway. Proc Natl Acad Sci U S A. 1976; 73(2):612-6. PMC: 335961. DOI: 10.1073/pnas.73.2.612. View

20.

Martin A, LACHMANN P, Halbwachs L, Hobart M . Haemolytic diffusion plate assays for factors B and D of the alternative pathway of complement activation. Immunochemistry. 1976; 13(4):317-24. DOI: 10.1016/0019-2791(76)90341-4. View