Immune evasion by CD200: New approaches to targeted therapies for chronic lymphocytic leukemia (CLL)

Abstract

2519 Background: Although the human immune system is capable of raising an immune response against many cancer types, that response is insufficient to eradicate the cancer in most patients, possibly due to immune evasion through negative regulation of the immune system by the tumor. We identified the immune-suppressive molecule CD200 to be upregulated 1.5–5.4-fold on CLL cells in all 80 patients examined. Interaction of CD200 with its receptor alters cytokine profiles from Th1 to Th2 in mixed lymphocyte reactions, and results in the induction of regulatory T cells, which are thought to hamper tumor-specific effector T cell immunity. We addressed whether CD200 expression on tumor cells plays a role in immune evasion, thereby preventing elimination of tumor cells by the immune system in a xenograft hu/SCID mouse model, and whether treatment with an antagonistic anti-CD200 antibody affects tumor growth. Methods: The human non-Hodgkins lymphoma cell lines RAJI and Namalwa were transduced with human CD200 and injected subcutaneously together with human peripheral blood lymphocytes (PBL) into NOD/SCID mice. Tumor growth over time was compared among mice that either received CD200-expressing tumor cells or received tumor cells lacking CD200 expression. In subsequent experiments, mice were treated with chimeric or humanized anti-CD200 antibodies (doses ranged from 1 to 20 mg/kg) by intravenous injection. Treatment was either started immediately or 7 days after tumor cell injection. Results: As expected, PBLs reduced CD200-negative RAJI or Namalwa tumor growth by up to 75%. In contrast, growth of RAJI or Namalwa tumors expressing CD200 at levels comparable to that of CLL was not reduced by PBLs. Administration of anti-CD200 antibodies at 5 mg/kg resulted in nearly complete tumor growth inhibition (1/10 mice developed a small tumor) over the course of the study even when treatment was started 7 days after tumor cell injection. Conclusions: CD200 expression on tumor cells inhibits the ability of human lymphocytes to eradicate tumor cells. Treatment of CD200-expressing tumors with antagonistic anti-CD200 antibodies inhibits tumor growth, indicating the potential for anti-CD200 therapy as a promising approach for CLL. No significant financial relationships to disclose.