Hodawadekar Suchita, Yu Duonan, Cozma Diana, Freedman Bruce, Sunyer Oriol, Atchison Michael L, Thomas-Tikhonenko Andrei
Department of Animal Biology, School of Veterinary Medicine, University of Pennsylvania, Philadelphia, PA 19104-4192, USA.
Exp Cell Res. 2007 Jan 15;313(2):331-40. doi: 10.1016/j.yexcr.2006.10.015. Epub 2006 Oct 25.
In mice, zygotic or pro-B-cell-specific knock-out of the Pax5 gene allows differentiation of pro-B-cells into all hematopoietic lineages. We previously generated and characterized a murine B-cell lymphoma, dubbed Myc5, whose cells spontaneously lose Pax5 expression when cultured in vitro, but regain it when re-injected into syngeneic mice. In cultured Myc5 cells, the loss of Pax5 correlates with the acquisition of myeloid markers, such as CD11b and F4/80. Here, we sought to determine whether these cells are truly B-macrophage-restricted or, like Pax5-null progenitors, can give rise to additional hematopoietic lineages. In vitro differentiation assays with various cytokines showed that Myc5 cells do not differentiate into NK cells, dendritic cells, neutrophils, or osteoclasts. At the same time, in the presence of macrophage colony-stimulating factor (M-CSF), they readily phagocytose latex beads and provide T-cell help. Both phenomena are indicative of the bona fide macrophage phenotype. Conversely, enforced Pax5 re-expression in macrophage-like Myc5 cells led to down-regulation of the M-CSF receptor and re-acquisition of some B-cell surface markers (e.g., CD79a) and lineage-specific transcription factors (e.g., IRF4 and Blimp). Retrovirally encoded Pax5 also restored expression of several master B-cell differentiation proteins, such as the IL-7 receptor and transcription factor E2A. In contrast, levels of EBF were unaffected by Pax5 suggesting that EBF acts exclusively upstream of Pax5 and might contribute to Pax5 expression. Indeed, transduction with an EBF-encoding retrovirus partly reactivated endogenous Pax5. Our data reveal the complex relationship between B-cell-specific transcription factors and suggest the existence of numerous feedback mechanisms.
在小鼠中,Pax5基因的合子型或前B细胞特异性敲除可使前B细胞分化为所有造血谱系。我们之前生成并鉴定了一种小鼠B细胞淋巴瘤,命名为Myc5,其细胞在体外培养时会自发失去Pax5表达,但重新注入同基因小鼠体内时又会恢复表达。在培养的Myc5细胞中,Pax5的缺失与髓系标志物(如CD11b和F4/80)的获得相关。在此,我们试图确定这些细胞是真正局限于B巨噬细胞,还是像Pax5缺失的祖细胞一样,能够分化为其他造血谱系。用各种细胞因子进行的体外分化试验表明,Myc5细胞不会分化为自然杀伤细胞、树突状细胞、中性粒细胞或破骨细胞。同时,在存在巨噬细胞集落刺激因子(M-CSF)的情况下,它们很容易吞噬乳胶珠并提供T细胞辅助。这两种现象都表明其具有真正的巨噬细胞表型。相反,在类似巨噬细胞的Myc5细胞中强制重新表达Pax5会导致M-CSF受体下调,并重新获得一些B细胞表面标志物(如CD79a)和谱系特异性转录因子(如IRF4和Blimp)。逆转录病毒编码的Pax5还恢复了几种主要B细胞分化蛋白的表达,如白细胞介素-7受体和转录因子E2A。相比之下,EBF的水平不受Pax5的影响,这表明EBF仅在Pax5的上游起作用,可能有助于Pax5的表达。事实上,用编码EBF的逆转录病毒转导部分重新激活了内源性Pax5。我们的数据揭示了B细胞特异性转录因子之间的复杂关系,并表明存在众多反馈机制。