125I-fibrin deposition in IgE-dependent immediate hypersensitivity reactions in mouse skin. Demonstration of the role of mast cells using genetically mast cell-deficient mice locally reconstituted with cultured mast cells.

We investigated the clotting associated with IgE-dependent immediate hypersensitivity reactions in the mouse by injecting monoclonal mouse anti-dintrophenyl IgE antibodies i.d. and, the next day, administering 125I-guinea pig fibrinogen i.v. 10 to 30 min before i.v. antigen (2,4-dinitrophenylated human serum albumin) challenge. In normal mice, 2-hr passive cutaneous anaphylaxis (PCA) reactions were associated with substantial leakage of 125I-fibrinogen and deposition of 125I-fibrin. Thus, ears injected with IgE contained up to six times the total cpm of 125I and up to 30 times the cross-linked 125I-fibrin-associated cpm of 125I than did control ears. Several lines of evidence indicated that the 125I-fibrin deposition associated with the PCA reactions was dependent on the activity of mast cells: 1) Mast cell degranulation occurred at sites of PCA reactions. 2) Antigen-induced influx of 125I-fibrinogen and deposition of 125I-fibrin were virtually abolished by heating the IgE (56 degrees C, 1 hr) before i.d. injection. 3) Little or no IgE-dependent 125I-fibrinogen influx or 125I-fibrin deposition occurred in mast cell-deficient WBB6F1-W/Wv or WCB6F1-S1/S1d mice X 4) Adoptive transfer of cutaneous mast cell populations into WBB6F1-W/Wv mice (by each of three approaches: i.v. transplantation of normal bone marrow cells or local i.d. injection of cultured, growth factor-dependent mast cells 2 days or 9 to 10 wk before antigen challenge) conferred on the recipients the ability to express the 125I-fibrinogen influx and 125I-fibrin deposition associated with PCA reactions. These data demonstrate that 125I-fibrinogen influx and 125I-fibrin deposition occurs in association with PCA reactions in the mouse, and that the reaction is largely or entirely dependent on the function of cutaneous mast cells. The experiments also demonstrate the utility of a novel model system for the analysis of mast cell function in vivo: WBB6F1-W/Wv mice locally reconstituted with mast cells by the injection of mast cell populations generated in vitro.