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- Title
Rapid generation of human B-cell lymphomas via combined expression of Myc and Bcl2 and their use as a preclinical model for biological therapies.
- Authors
Leskov, I; Pallasch, C P; Drake, A; Iliopoulou, B P; Souza, A; Shen, C-H; Schweighofer, C D; Abruzzo, L; Frenzel, L P; Wendtner, C M; Hemann, M T; Chen, J
- Abstract
Although numerous mouse models of B-cell malignancy have been developed via the enforced expression of defined oncogenic lesions, the feasibility of generating lineage-defined human B-cell malignancies using mice reconstituted with modified human hematopoietic stem cells (HSCs) remains unclear. In fact, whether human cells can be transformed as readily as murine cells by simple oncogene combinations is a subject of considerable debate. Here, we describe the development of humanized mouse model of MYC/BCL2-driven 'double-hit' lymphoma. By engrafting human HSCs transduced with the oncogene combination into immunodeficient mice, we generate a fatal B malignancy with complete penetrance. This humanized-MYC/BCL2-model (hMB) accurately recapitulates the histopathological and clinical aspects of steroid-, chemotherapy- and rituximab-resistant human 'double-hit' lymphomas that involve the MYC and BCL2 loci. Notably, this model can serve as a platform for the evaluation of antibody-based therapeutics. As a proof of principle, we used this model to show that the anti-CD52 antibody alemtuzumab effectively eliminates lymphoma cells from the spleen, liver and peripheral blood, but not from the brain. The hMB humanized mouse model underscores the synergy of MYC and BCL2 in 'double-hit' lymphomas in human patients. Additionally, our findings highlight the utility of humanized mouse models in interrogating therapeutic approaches, particularly human-specific monoclonal antibodies.
- Subjects
B cell lymphoma; GENE expression; LABORATORY mice; HEMATOPOIETIC stem cells; HISTOPATHOLOGY; MONOCLONAL antibodies; CANCER chemotherapy; TUMOR treatment
- Publication
Oncogene, 2013, Vol 32, Issue 8, p1066
- ISSN
0950-9232
- Publication type
Article
- DOI
10.1038/onc.2012.117