Zhiqi Chen

Breast cancer cell CD200 expression regulates immune response to EMT6 tumor cells in mice

CD200 has been characterized as an important immunoregulatory molecule, increased expression of which can lead to decreased transplant rejection, autoimmunity, and allergic disease. Elevated CD200 expression has been reported to be associated with poor prognosis in a number of human malignancies. We have found that cells of the transplantable EMT6 mouse breast cancer line growing in vitro express low levels of CD200, but levels increase markedly during growth in immunocompetent mice. Similar increased in vivo expression does not occur in NOD-SCID.IL-2γr−/− mice or mice with generalized over-expression of a CD200 transgene. In both mice, tumor growth occurs faster. Altered CD200 expression in control versus transgenic mice is accompanied by reproducible changes in tumor-infiltrating host cells, and altered cell composition in lymph nodes draining the tumor (DLN). Neutralization of expressed CD200 by anti-CD200mAbs leads to decreased tumor growth in immunocompetent mice, with improved detection of cytotoxic anti-tumor immune cells in DLN. Finally, we report that tumor growth in vivo can be monitored by levels of soluble CD200 (sCD200) in serum of tumor-bearing animals.

Graft-infiltrating cells expressing a CD200 transgene prolong allogeneic skin graft survival in association with local increases in Foxp3+Treg and mast cells

Expression of the molecule CD200 has been reported to increase allograft survival by suppression of inflammation and acquired immunity. In previous studies we have shown that increased skin and cardiac allograft survival in transgenic mice over-expressing CD200 (CD200(tg)) occurs in association with increased intra-graft expression of mRNAs for genes associated with altered T cell subset differentiation. We investigated changes in graft-infiltrating cells, Treg and mast cells in skin grafts post transplantation into control or CD200(tg) mice, using focused gene array and real-time PCR to assess altered gene expression, and FACS, immunohistology and MLC to determine numbers/function of those cells. Graft-infiltrating cells isolated from CD200(tg) recipients suppressed induction of CTL from control lymph node cells in vitro, and contained increased numbers of infiltrating, non-degranulating, mast cells and Foxp3(+)Treg. Mast cells were also evident in graft tissue of control animals, but there these cells showed evidence for degranulation, and fewer Foxp3(+)Treg were present than was the case of CD200(tg) mice. The infusion of a competitive inhibitor of CD200:CD200R interactions, CD200(tr), at high concentrations (50μg/mouse iv) caused rapid rejection of grafts in CD200(tg) mice, mast cell degranulation within graft tissue, and a decrease in Treg infiltrates. These effects were attenuated by simultaneous infusion of the mast cell stabilizer, sodium cromoglycate. We conclude that CD200 expression contributes to graft prolongation through local suppression of mast cell degranulation, attraction/expansion of Treg, and attenuation of T cell effector activation.

CCR4 dependent migration of Foxp3+ Treg cells to skin grafts and draining lymph nodes is implicated in enhanced graft survival in CD200tg recipients.

We have previously reported that transgenic overexpression of CD200 in either mouse skin graft donors or recipients significantly enhances skin allograft survival. By focused microarray analysis we showed this enhanced graft survival is associated with increased expression of Foxp3, GITR, CTLA-4 and CCR4 mRNA, all genes related to T(reg) cell induction/function, and of Gata3, IL-4, IL-5, IL-13, and somewhat surprisingly, of T-bet, INF-γ and granzyme b. Gene-specific real-time PCR and immunohistochemistry analysis confirmed an increase in Foxp3(+) T(reg) cells in both the skin grafts and draining lymph nodes (DLNs) of CD200(tg) recipient mice at both 7/14 days post engraftment, as well as providing evidence for increased expression of the ligands for CCR4, CCL17 and CCL22 in both locations. Following lentivirus-mediated shRNA treatment of Dox-treated CD200(tg) mice to attenuate expression of CCR4 mRNA, the increased localization of T(reg) cells in skin/DLN of CD200(tg) recipients was abolished, and the enhanced graft survival similarly reversed. We conclude that enhanced CCR4 dependent migration of Foxp3(+) T(reg) to grafted tissue and DLNs is an essential step in the graft prolongation afforded by overexpression of CD200.

Comparison of immunity in mice cured of primary/metastatic growth of EMT6 or 4THM breast cancer by chemotherapy or immunotherapy.

Purpose We have compared cure from local/metastatic tumor growth in BALB/c mice receiving EMT6 or the poorly immunogenic, highly metastatic 4THM, breast cancer cells following manipulation of immunosuppressive CD200:CD200R interactions or conventional chemotherapy. Methods We reported previously that EMT6 tumors are cured in CD200R1KO mice following surgical resection and immunization with irradiated EMT6 cells and CpG oligodeoxynucleotide (CpG), while wild-type (WT) animals developed pulmonary and liver metastases within 30 days of surgery. We report growth and metastasis of both EMT6 and a highly metastatic 4THM tumor in WT mice receiving iv infusions of Fab anti-CD200R1 along with CpG/tumor cell immunization. Metastasis was followed both macroscopically (lung/liver nodules) and microscopically by cloning tumor cells at limiting dilution in vitro from draining lymph nodes (DLN) harvested at surgery. We compared these results with local/metastatic tumor growth in mice receiving 4 courses of combination treatment with anti-VEGF and paclitaxel. Results In WT mice receiving Fab anti-CD200R, no tumor cells are detectable following immunotherapy, and CD4+ cells produced increased TNFα/IL-2/IFNγ on stimulation with EMT6 in vitro. No long-term cure was seen following surgery/immunotherapy of 4THM, with both microscopic (tumors in DLN at limiting dilution) and macroscopic metastases present within 14 d of surgery. Chemotherapy attenuated growth/metastases in 4THM tumor-bearers and produced a decline in lung/liver metastases, with no detectable DLN metastases in EMT6 tumor-bearing mice-these latter mice nevertheless showed no significantly increased cytokine production after restimulation with EMT6 in vitro. EMT6 mice receiving immunotherapy were resistant to subsequent re-challenge with EMT6 tumor cells, but not those receiving curative chemotherapy. Anti-CD4 treatment caused tumor recurrence after immunotherapy, but produced no apparent effect in either EMT6 or 4THM tumor bearers after chemotherapy treatment. Conclusion Immunotherapy, but not chemotherapy, enhances CD4+ immunity and affords long-term control of breast cancer growth and resistance to new tumor foci.