Sebastian Herzog scite author profile

The pre-B-cell receptor (pre-BCR) is expressed following the productive recombination of the immunoglobulin heavy chain gene. Signals through the pre-BCR are required for initiating diverse processes in pre-B cells, including proliferation and recombination of the light chain gene, which eventually lead to the differentiation of pre-B cells to immature B cells. However, the molecular mechanisms by which the pre-BCR promotes these processes remain largely unresolved. Recent findings suggest that forkhead box O (FOXO) transcription factors connect pre-BCR signalling to the activation of the recombination machinery. In this Review, we discuss how FOXO transcription factors are regulated by the pre-BCR to allow the progression of the cell cycle and the recombination of the light chain gene.

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BCL6 enables Ph+ acute lymphoblastic leukaemia cells to survive BCR–ABL1 kinase inhibition

Duy

Hurtz

Shojaee

et al. 2011

Nature

180

209

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Tyrosine kinase inhibitors (TKI) are widely used to treat patients with leukemia driven by BCR-ABL11 and other oncogenic tyrosine kinases2,3. Recent efforts focused on the development of more potent TKI that also inhibit mutant tyrosine kinases4,5. However, even effective TKI typically fail to eradicate leukemia-initiating cells6–8, which often cause recurrence of leukemia after initially successful treatment. Here we report on the discovery of a novel mechanism of drug-resistance, which is based on protective feedback signaling of leukemia cells in response to TKI-treatment. We identified BCL6 as a central component of this drug-resistance pathway and demonstrate that targeted inhibition of BCL6 leads to eradication of drug-resistant and leukemia-initiating subclones. BCL6 is a known proto-oncogene that is often translocated in diffuse large B cell lymphoma (DLBCL)9. In response to TKI-treatment, BCR-ABL1 acute lymphoblastic leukemia (ALL) cells upregulate BCL6 protein levels by ~90-fold, i.e. to similar levels as in DLBCL (Fig. 1a). Upregulation of BCL6 in response to TKI-treatment represents a novel defense mechanism, which enables leukemia cells to survive TKI-treatment: Previous work suggested that TKI-mediated cell death is largely p53-independent. Here we demonstrate that BCL6 upregulation upon TKI-treatment leads to transcriptional inactivation of the p53 pathway. BCL6-deficient leukemia cells fail to inactivate p53 and are particularly sensitive to TKI-treatment. BCL6−/− leukemia cells are poised to undergo cellular senescence and fail to initiate leukemia in serial transplant recipients. A combination of TKI-treatment and a novel BCL6 peptide inhibitor markedly increased survival of NOD/SCID mice xenografted with patient-derived BCR-ABL1 ALL cells. We propose that dual targeting of oncogenic tyrosine kinases and BCL6-dependent feedback (Supplementary Fig. 1) represents a novel strategy to eradicate drug-resistant and leukemia-initiating subclones in tyrosine kinase-driven leukemia.

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SLP-65 regulates immunoglobulin light chain gene recombination through the PI(3)K-PKB-Foxo pathway

et al. 2008

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Although the essential role of the adaptor protein SLP-65 in pre-B cell differentiation is established, the molecular mechanism underlying its function is poorly understood. In this study, we uncover a link between SLP-65-dependent signaling and the phosphoinositide-3-OH kinase (PI(3)K)-protein kinase B (PKB)-Foxo pathway. We show that the forkhead box transcription factor Foxo3a promotes light chain rearrangement in pre-B cells. Our data suggest that PKB suppresses light chain recombination by phosphorylating Foxo proteins, whereas reconstitution of SLP-65 function counteracts PKB activation and promotes Foxo3a and Foxo1 activity in pre-B cells. Together, these data illuminate a molecular function of SLP-65 and identify a key role for Foxo proteins in the regulation of light chain recombination, receptor editing and B cell selection.

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