Mast-cell-deficient W/Wv mice exhibit a decreased rate of tumor angiogenesis.

The role of host mast cells in tumor-associated angiogenesis was investigated by comparing the angiogenic response of genetically mast-cell-deficient W/Wv mice and mast-cell-sufficient +/+ littermate mice to s.c. growing B16-BL6 tumors. The angiogenic response was found to be slower and initially less intense in W/Wv mice than in +/+ mice. Fewer W/Wv mice than +/+ mice developed spontaneous lung metastases and W/Wv mice exhibited fewer lung metastases per mouse. Bone-marrow repair of the mast-cell deficiency restored the angiogenic response of W/Wv mice and also restored the incidence of hematogenous metastases to approach that of +/+ mice. Differences in lymphatic metastasis were not detected between W/Wv and +/+ mice. These results demonstrate a role for mast cells in vivo during tumor angiogenesis, and suggest a role also for host mast cells in hematogenous metastasis.

Immune response potential of mast cell-deficient W/Wv mice.

Immune responses of mast cell-deficient WBB6F1-W/Wv mice and their mast cell-sufficient littermates (LM: WBB6F1-W/+, Wv/+ and +/+) were compared. After a single intravenous injection of sheep erythrocytes (SE), polyvinylpyrrolidone or bacterial lipopolysaccharide, the antigen-specific IgM plaque-forming cell (PFC) response of W/Wv mice was similar to or greater than the response of LM mice. When both primary and secondary injections of SE or chicken gamma-globulin were given to mice and antigen-specific IgG PFC responses quantified, the response of W/Wv again was similar to or greater than that of LM mice. Serum titers of antigen-specific IgE were higher in W/Wv than in LM mice after injections of ovalbumin in alum or infections of Nippostrongylus brasiliensis. Ovalbumin-sensitized W/Wv and LM mice developed active systemic anaphylaxis after ovalbumin challenge. The ability of W/Wv mice to be sensitized for and elicit contact sensitivity (CS) reactions was studied using picryl chloride or dinitrofluorobenzene as sensitizing and challenge agents and quantifying 24-hour reactions by change in ear thickness. SE or methylated bovine serum albumin was used to sensitize and challenge mice for delayed-type hypersensitivity (DTH) reactions which were quantified at 24 h by change in foot pad or ear thickness. CS and DTH reactions of W/Wv and LM mice were similar. No evidence of immune deficiency of W/Wv mice was found.

Bone marrow origin of mucosal mast cells.

Infection with the intestinal parasite Nippostrongylus brasiliensis stimulates an accumulation of mucosal mast cells (MMC) in the villi of the small intestine of normal but not athymic or W/Wv anemic mice. W/Wv mice are congenitally deficient in both MMC and skin and connective tissue mast cells (CTMC). Athymic mice have normal or elevated numbers of CTMC but are severely deficient in MMC. CTMC derive from the bone marrow. To determine the origin of MMC, athymic and W/Wv mice were given various hematopoietic or lymphoid tissues from normal littermate or beige mice and the MMC response to N. brasiliensis infection was evaluated. The MMC defect in athymic mice was repaired by grafts of thymus cells, thymus gland, or spleen cells, but not by bone marrow cells or anti-Thy 1-treated bone marrow or spleen cells. The MMC and CTMC defects of W/Wv mice were repaired by grafts of bone marrow, spleen cells, or anti-Thy 1-treated bone marrow or spleen cells. Neither the MMC nor the CTMC defect in W/Wv mice was repaired by grafts of thymus cells or thymus glands. These results indicate the following, MMC, like CTMC, derive from the bone marrow and not from the thymus. MMC require a thymic influence for development. Athymic mice possess bone marrow precursors for both MMC and CTMC but lack a thymus-dependent component necessary for MMC development. W/Wv mice lack both MMC and CTMC mast cell precursors but possess the thymus-dependent component required for MMC development.

Delayed expulsion of adult Trichinella spiralis by mast cell-deficient W/Wv mice.

Mast cell-deficient W/Wv mice and their mast cell-sufficient littermates were given infections of Trichinella spiralis. W/Wv mice were slower than their littermates to expel adult T. spiralis. Repair of the mast cell deficiency of W/Wv mice by bone marrow grafting was accompanied by accelerated expulsion of T. spiralis.

Mucosal mast cell reconstitution and Nippostrongylus brasiliensis rejection by W/Wv mice.

The ability of congenitally mast cell-deficient W/Wv anemic mice and mast cell-reconstituted W/Wv mice to reject the intestinal parasite Nippostrongylus brasiliensis was examined. The W/Wv mice were deficient in connective tissue mast cells and mucosal mast cells and, unlike normal mice, did not accumulate intestinal mucosal mast cells in response to N. brasiliensis infection. They had higher peak egg counts than did normal littermates and were slower than littermates to reject the parasites. Reconstitution with bone marrow or spleen cells repaired both the connective tissue and mucosal mast cell defects in W/Wv mice but did not alter the time of parasite rejection or decrease the high peak egg counts. These results indicate that mucosal mast cells that accumulate in the small intestine in response to parasite infection may not be functionally involved in the rejection mechanism.

Characteristics of mast cells in Chediak-Higashi mice: light and electron microscopic studies of connective tissue and mucosal mast cells.

The beige mouse, a homologue of the Chediak-Higashi syndrome in man, possesses abnormally large granules in many tissue cells. The granules in the mucosal mast cells (MMC) of the small intestine of beige and littermate C57BL/6J mice were examined after infecting the mice with the intestinal parasite, Nippostrongylus brasiliensis. MMC in both beige and littermate mice had irregular granules which contained paracrystalline substructures embedded in an amorphous matrix. Granules were not observed in fusion with the cell membrane. Instead, in late-stage mast cells, the granule membrane broke down, the granule contents were spread throughout the cytoplasm, and the cell organelles disintegrated. Unlike connective tissue mast cells, MMC were poorly demonstrated with formalin fixation and toluidine blue staining.

Rejection of the intestinal parasite Nippostrongylus brasiliensis by mast cell-deficient W/Wv anemic mice.

The ability of W/Wv anemic mice to accumulate mucosal mast cells and to reject the intestinal parasite Nippostrongylus brasiliensis was examined. W/Wv mice did not accumulate mucosal mast cells in response to infections with N. brasiliensis. They eliminated a primary infection more slowly than did their normal littermate controls but were as refractory as controls to second and third infections. W/Wv mice had higher serum titers of worm-specific immunoglobulin E than did controls. These results indicate that mucosal mast cells are not an absolute requirement for N. brasiliensis rejection.