ROLE OF THE CLOTTING SYSTEM IN CELL-MEDIATED HYPERSENSITIVITY: I. FIBRIN DEPOSITION IN DELAYED SKIN REACTIONS IN MAN

doi:10.1084/jem.138.3.686

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ARTICLE

ROLE OF THE CLOTTING SYSTEM IN CELL-MEDIATED HYPERSENSITIVITY : I. FIBRIN DEPOSITION IN DELAYED SKIN REACTIONS IN MAN

Robert B. Colvin ¹, Richard A. Johnson ¹, Martin C. Mihm Jr. ¹, and Harold F. Dvorak ¹

¹ From the Departments of Pathology and Dermatology, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts 02114

The expression of delayed-type hypersensitivity in animalshas been inhibited by a variety of anticoagulants, but directevidence for activation of clotting in the evolution of thesereactions has been lacking. Using the fluorescent antibody techniquewe here demonstrate that fibrin deposition is a prominent andconsistent feature of both allergic contact dermatitis and classicdelayed hypersensitivity skin reactions in man. Fib was detectedin 55 of 58 delayed reactions studied at the peak of their intensity.The characteristic distribution of Fib—principally in theintervascular portions of the reticular dermis with sparingof vessels and their associated cuffs of mononuclear cells—isunusual and quite different from that described in antibody-mediatedlesions in animals or man. Fib was found in vessel walls inonly 2 of 94 biopsies studied. With a single exception, depositionof immunoglobulins and complement was not observed.

The pathogensisand significance of Fib deposition in these reactions are notyet clear. Fib is ultimately derived from circulating fibrinogen,and its accumulation provides additional evidence for locallyincreased vascular permeability in delayed hypersensitivity.Polymerization of extravascular fibrinogen could be triggerednonspecifically by dermal elements (e.g., collagen) or by aproduct of sensitized lymphocytes. The appearance of Fib earlyin the development of these reactions (4–8 h after epicutaneoustest with DNCB) and inhibition studies with anticoagulants togethersuggest that clotting may have a role in their pathogenesis,possibly by the release of bioactive peptides from fibrinogen/fibrinor by contributing to the induration characteristic of delayedhypersensitivity.

Submitted on May 24, 1973

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