Reversible expression of mouse mast cell protease 2 mRNA and protein in cultured mast cells exposed to IL-10.

BALB/cJ mouse mast cells derived by culturing bone marrow progenitor cells in WEHI-3 cell-conditioned medium (BMMCW) do not contain mouse mast cell protease 2 (mMCP-2) mRNA, but these cells can be induced to express this transcript after exposure to rIL-10. To study the translation and granule accumulation of mMCP-2 in rIL-10-treated BMMC (BMMCW+IL-10), a rabbit antibody was developed to a synthetic peptide that corresponds to the novel amino acid sequence in mMCP-2 at residues 56 to 71. After affinity purification, this antibody, anti-mMCP-2(56-71) IgG, reacted in SDS-PAGE/immunoblots against a 28-kDa protein in BMMCW+IL-10 that had the N-terminal amino acid sequence of mMCP-2. As assessed immunohistochemically, mMCP-2 protein accumulated in the secretory granules of Kirsten sarcoma virus-immortalized mouse mast cells, BMMCW+IL-10, and the mucosal mast cells present in the jejunum of Trichinella spiralis-infected BALB/cJ mice. Time course analyses of the induction of mMCP-2 mRNA and protein in BMMCW+IL-10 revealed that these cells contain a high steady-state level of mMCP-2 mRNA 24 h after their exposure to rIL-10. Although a small amount of immunodetectable mMCP-2 protein is present in the cells treated for 24 h, large amounts of this protease are not obtained until 7 days of treatment of the cells with rIL-10. Time course analyses of the loss of mMCP-2 mRNA and protein in BMMCW+IL-10 revealed that the steady-state level of mMCP-2 mRNA decreased dramatically 24 h after rIL-10 was removed from the culture medium, but that the level of mMCP-2 protein did not decline measurably until day 5 of culture. The fact that the steady-state levels of mMCP-2 mRNA and protein in BMMC can both be reversibly altered by culturing these mast cells in the presence and absence of rIL-10 suggests that the phenotype of mast cells is not fixed. Rather, it is in a dynamic state regulated by the cytokine network to which mast cells are exposed in their different microenvironments.