B cell activator PAX5 promotes lymphomagenesis through stimulation of B cell receptor signaling
Diana Cozma, Duonan Yu, Suchita Hodawadekar, Anna Azvolinsky, Shannon Grande, John W. Tobias, Michele H. Metzgar, Jennifer Paterson, Jan Erikson, Teresa Marafioti, John G. Monroe, Michael L. Atchison, Andrei Thomas-Tikhonenko
Diana Cozma, Duonan Yu, Suchita Hodawadekar, Anna Azvolinsky, Shannon Grande, John W. Tobias, Michele H. Metzgar, Jennifer Paterson, Jan Erikson, Teresa Marafioti, John G. Monroe, Michael L. Atchison, Andrei Thomas-Tikhonenko
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Research Article Oncology

B cell activator PAX5 promotes lymphomagenesis through stimulation of B cell receptor signaling

Abstract

The presumed involvement of paired box gene 5 (PAX5) in B-lymphomagenesis is based largely on the discovery of Pax5-specific translocations and somatic hypermutations in non-Hodgkin lymphomas. Yet mechanistically, the contribution of Pax5 to neoplastic growth remains undeciphered. Here we used 2 Myc-induced mouse B lymphoma cell lines, Myc5-M5 and Myc5-M12, which spontaneously silence Pax5. Reconstitution of these cells with Pax5–tamoxifen receptor fusion protein (Pax5ERTAM) increased neoplastic growth in a hormone-dependent manner. Conversely, expression of dominant-negative Pax5 in murine lymphomas and Pax5 knockdown in human lymphomas negatively affected cell expansion. Expression profiling revealed that Pax5 was required to maintain mRNA levels of several crucial components of B cell receptor (BCR) signaling, including CD79a, a protein with the immunoreceptor tyrosine-based activation motif (ITAM). In contrast, expression of 2 known ITAM antagonists, CD22 and PIR-B, was suppressed. The key role of BCR/ITAM signaling in Pax5-dependent lymphomagenesis was corroborated in Syk, an ITAM-associated tyrosine kinase. Moreover, we observed consistent expression of phosphorylated BLNK, an activated BCR adaptor protein, in human B cell lymphomas. Thus, stimulation of neoplastic growth by Pax5 occurs through BCR and is sensitive to genetic and pharmacological inhibitors of this pathway.

Authors

Diana Cozma, Duonan Yu, Suchita Hodawadekar, Anna Azvolinsky, Shannon Grande, John W. Tobias, Michele H. Metzgar, Jennifer Paterson, Jan Erikson, Teresa Marafioti, John G. Monroe, Michael L. Atchison, Andrei Thomas-Tikhonenko

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Figure 2

Growth of tumors with conditionally active Pax5.

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Growth of tumors with conditionally active Pax5. (A) Reconstitution of M...
(A) Reconstitution of Myc5-M5 cells with Pax5ER. Immunoblotting on transduced cell lysates was performed using an anti-Pax5 antibody. (B) Enhanced nuclear localization of Pax5ER following treatment with 4OHT. Right panels show immunocytochemical staining with an anti-Pax5 antibody. Left panels show counterstaining of nuclei with DAPI. (C) Kinetics of tumor growth by Pax5ER and control (GFP only) cells in animals treated with 4OHT or vehicle only. (D) Kinetics of tumor growth by short-term Myc5 cultures expressing either Pax5 or its dominant-negative mutant (Pax5DN) lacking the activation domain. The small increase in tumor size conferred by Pax5 expression was not statistically significant; the decrease in tumor sizes conferred by overexpression of the dominant-negative Pax5 mutant was significant.