SummaryAcute lymphoblastic leukaemia (ALL) is the most common malignancy in children. Recently, there has been a growing interest in Wnt signalling in several aspects of cellular development, including cancer formation. Little is known about Wnt signalling in B-ALL. We investigated whether activation of canonical Wnt signalling could occur in B-ALL cells and thereby play a potential role in cellular growth and/or survival. This study found that Wnt3A induced b-catenin accumulation in both primary B-ALL cells and B-ALL leukaemia cell lines. Further, Wnt3A was shown to induce nuclear translocation of b-catenin and TCF/Lef-1 dependent transcriptions in the B-ALL cell line Nalm-6. Examination of the mRNA expression pattern of WNT ligands, FZD receptors and WNT antagonists in Nalm-6 cells identified a set of ligands and receptors available for signalling, as well as antagonists potentially available for modulating the response. Functional analyses showed that Wnt3A inhibited the proliferation of several, but not all, B-ALL cell lines studied. Finally, microarray analysis was used to identify several Wnt3A target genes involved in a diverse range of cellular activities, which are potential mediators of the Wnt3A-restrained proliferation.
The bone marrow microenvironment regulates early B lymphopoiesis and protects leukemia cells against chemotherapy treatment, thus the microenvironment may serve as a sanctuary site for these cells. Yet, few factors that contribute to this process are known. We have explored the role of transforming growth factor b (TGFb) and bone morphogenetic protein-6 (BMP-6) and one target gene, TGFb inducible early gene 1 (TIEG1), in the communication between stroma cells and acute lymphoblastic leukemia (ALL) cell lines and their escape from chemotherapy. Here, we have demonstrated TIEG1 expression in both normal B progenitor cells and ALL cells, which increased rapidly upon TGFb and BMP-6 treatment. Stimulation with TGFb or BMP-6, as well as overexpression of TIEG1 inhibited proliferation. Furthermore, interaction with stroma cells induced TIEG1 expression in ALL cells, inhibited their proliferation and protected the cells against chemotherapeutic treatment. Similarly, treatment with TGFb or BMP-6, as well as overexpression of TIEG1, protected ALL cells against chemotherapy-induced cell death. These data suggest that TGFb and BMP-6 in the bone marrow microenvironment allow leukemia cells to escape therapy. Further, the data indicate that TIEG1 might be involved in mediating this effect from the microenvironment onto the leukemia cells.
Background: The early B lymphopoiesis in mammals is regulated through close interactions with stromal cells and components of the intracellular matrix in the bone marrow (BM) microenvironment. Although B lymphopoiesis has been studied for decades, the factors that are implicated in this process, both autocrine and paracrine, are inadequately explored. Wnt signaling is known to be involved in embryonic development and growth regulation of tissues and cancer. Wnt molecules are produced in the BM, and we here ask whether canonical Wnt signaling has a role in regulating human BM B lymphopoiesis.
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