A cultured malignant B-1 line serves as a model for Richter's syndrome

Autor: B Peng, D H Sherr, F Mahboudi, J Hardin, Y H Wu, L Sharer, E S Raveché
Rok vydání: 1994
Předmět:
Zdroj: The Journal of Immunology. 153:1869-1880
ISSN: 1550-6606
0022-1767
Popis: Human chronic lymphocytic leukemia (CLL) is a malignancy of B-1 cells characterized by the accumulation of mature appearing, long lived, slow growing B-1 cells in peripheral blood. CLL occasionally evolves into an aggressive large cell lymphoma termed Richter's syndrome. NZB mice can be used to model the early stage of CLL because aged NZB mice can spontaneously develop slow growing malignant B-1 cell clones. The malignant NZB B-1 clones fail to grow in culture and are typically carried in vivo as passaged lines. During serial passage, an aggressive lymphoma developed as a result of a continued transformation of the original B-1 clone, similar to the development of Richter's syndrome. An in vitro cell line was established from the aggressive lymphoma, which was stromal dependent and could rapidly metastasize when passaged into recipient animals. Analysis of adhesion molecules did not reveal any consistent characteristics that could account for the metastatic potential of the Richter's-like cells. In addition, the aggressive in vitro line had the identical heavy chain sequence as the slow growing NZB malignant B-1 clones. The in vitro and in vivo aggressive B-1 cells had very high levels of IL-10 message, and underwent more apoptosis in response to anti-IgM than did nonaggressive B-1 clones. Taking these characteristics together, we have composed a comprehensive animal model system for human CLL that includes both the aged NZB mice for the early stage and the recipients of the in vitro B-1 line for the late stage or Richter's syndrome. This model system can be used to study, not only the ontogeny and genetic linkage of CLL, but also the regulatory factors involved in transformation and growth both in vivo and in vitro.
Databáze: OpenAIRE
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