Abstract
Multiple myeloma is an incurable plasma cell malignancy for which existing animal models are limited. We have previously shown that the targeted expression of the transgenes c-Myc and Bcl-X(L) in murine plasma cells produces malignancy that displays features of human myeloma, such as localization of tumor cells to the bone marrow and lytic bone lesions. We have isolated and characterized in vitro cultures and adoptive transfers of tumors from Bcl-xl/Myc transgenic mice. Tumors have a plasmablastic morphology and variable expression of CD138, CD45, CD38, and CD19. Spectral karyotyping analysis of metaphase chromosomes from primary tumor cell cultures shows that the Bcl-xl/Myc tumors contain a variety of chromosomal abnormalities, including trisomies, translocations, and deletions. The most frequently aberrant chromosomes are 12 and 16. Three sites for recurring translocations were also identified on chromosomes 4D, 12F, and 16C. Gene expression profiling was used to identify differences in gene expression between tumor cells and normal plasma cells (NPC) and to cluster the tumors into two groups (tumor groups C and D), with distinct gene expression profiles. Four hundred and ninety-five genes were significantly different between both tumor groups and NPCs, whereas 124 genes were uniquely different from NPCs in tumor group C and 204 genes were uniquely different from NPCs in tumor group D. Similar to human myeloma, the cyclin D genes are differentially dysregulated in the mouse tumor groups. These data suggest the Bcl-xl/Myc tumors are similar to a subset of plasmablastic human myelomas and provide insight into the specific genes and pathways underlying the human disease.
Highlights
Multiple myeloma is an incurable form of B-cell cancer characterized by a proliferation of malignant plasma cells in the bone marrow
The spleen and lymph node cells taken from mouse DP3(AT4) were both CD38+CD19+CD138+; the lymph node cells were CD45À, whereas the spleen cells were CD45+ (Fig. 1A and B)
It has been shown that tumors with a high percentage of plasmablastic cells associate with more aggressive multiple myeloma, as well as decreased survival rates, both for patients treated with chemotherapy and those receiving autologous stem cell transplants [40,41,42]
Summary
Multiple myeloma is an incurable form of B-cell cancer characterized by a proliferation of malignant plasma cells in the bone marrow. A mouse model that has been developed for the study of multiple myeloma is the double transgenic line 3¶KE-BclXL/IgH-MycCa Transgenic Bcl-XL is regulated by the 3¶ n immunoglobulin light chain enhancer, which is active in late B-cell development and plasma cells [2]. The Bcl-xl/ Myc mice have an early expansion of nonmalignant plasma cells, which develop into clonal plasma cell malignancies in multiple tissue types. These plasma cell tumors develop in 100% of the mice, all involving the bone marrow, and show close resemblance to human multiple myeloma
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