Nuclear FOXO1 promotes lymphomagenesis in germinal center B cells

Kabrani, Eleni; Chu, Van Trung; Tasouri, Evangelia; Sommermann, Thomas; Baßler, Kevin; Ulas, Thomas; Zenz, Thorsten; Bullinger, Lars; Schultze, Joachim L.; Rajewsky, Klaus; Sander, Sandrine

doi:10.1182/blood-2018-06-856203

Cited by 37 publications

(47 citation statements)

References 48 publications

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“…In conclusion, we have identified a previously undiscovered high frequency of FOXO1 mutations in pediatric sporadic and endemic BL. Together with previous findings that FOXO1 is a driver of in DLBCL 15,17 and murine BL-like tumors 19 and may mediate therapeutic resistance, 41 our data further identify the transcription factor FOXO1 as an important factor in pathophysiology of several germinal center-derived B-cell lymphomas. Further exploration of the mechanisms uncoupling FOXO1 from PI3K signaling will aid understanding of BL pathogenesis.…”

Section: Ebv Statussupporting

confidence: 84%

“…Mutations affecting the N-terminal AKT recognition motif, including those detected in this study, have been shown to prevent FOXO1 cytoplasmic localization, 17 and indeed Kabrani et al have very recently demonstrated that T24 mutation drives nuclear retention of FOXO1 and thereby cell proliferation and survival in murine PI3K-driven, BL-like tumors carrying acquired FOXO1 mutations. 19 In our study, FOXO1 knockout resulted in a significant decrease in cell proliferation in an endemic BL cell line, supporting an oncogenic function for FOXO1 in human BL as well. Thus, FOXO1 mutation likely represents 1 mechanism by which active PI3K signaling and FOXO1 activity can cooccur in BL cells.…”

Section: Ebv Statussupporting

confidence: 78%

“…17 Activating FOXO1 mutations have also been identified in tumors from a murine MYC/ PI3K-driven model of BL and in human BL cell lines. 19 These models demonstrate the role of T24 mutations in uncoupling FOXO1 from BCR/PI3K, driving nuclear localization of FOXO1 protein with subsequent pro-proliferative and pro-survival effects. However, to date, next-generation sequencing (NGS) based studies have identified FOXO1 mutations in only a small proportion of BL patient samples, [20][21][22][23][24] raising the question of how FOXO1 functions in the setting of BCR/PI3K signaling in BL.…”

Section: Introductionmentioning

confidence: 85%

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Sporadic and endemic Burkitt lymphoma have frequent FOXO1 mutations but distinct hotspots in the AKT recognition motif

et al. 2019

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FOXO1 has an oncogenic role in adult germinal center–derived lymphomas, in which mutations, predominately within the AKT recognition motif, cause nuclear retention of FOXO1, resulting in increased cell proliferation. To determine the prevalence and distribution of FOXO1 mutations in pediatric Burkitt lymphoma (BL), we sequenced a large number of sporadic and endemic BL patient samples. We report a high frequency of FOXO1 mutations in both sporadic and endemic BL at diagnosis, occurring in 23/78 (29%) and 48/89 (54%) samples, respectively, as well as 8/16 (50%) cases at relapse. Mutations of T24 were the most common in sporadic BL but were rare in endemic cases, in which mutations of residue S22, also within the AKT recognition motif, were the most frequent. FOXO1 mutations were almost always present in the major tumor cell clone but were not associated with outcome. Analysis of other recurrent mutations reported in BL revealed that FOXO1 mutations were associated with mutations of DDX3X and ARID1A, but not MYC, TCF3/ID3, or members of the phosphatidylinositol 3-kinase signaling pathway. We further show common nuclear retention of the FOXO1 protein, irrespective of mutation status, suggesting alternative unknown mechanisms for maintaining FOXO1 transcriptional activity in BL. CRISPR/Cas9 knockout of FOXO1 in an endemic cell line produced a significant decrease in cell proliferation, supporting an oncogenic role for FOXO1 in endemic BL. Thus, FOXO1 is frequently mutated in both sporadic and endemic BL and may offer a potential therapeutic target for pediatric BL patients worldwide.

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Section: Ebv Statussupporting

confidence: 84%

Section: Ebv Statussupporting

confidence: 78%

Section: Introductionmentioning

confidence: 85%

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Sporadic and endemic Burkitt lymphoma have frequent FOXO1 mutations but distinct hotspots in the AKT recognition motif

et al. 2019

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“…112 Rapid selection for editing rearrangements in the bone marrow is driven by the need for high-surface immunoglobulin, which activates tonic signals in the phosphatidylinositol-3 kinase (PI3K) pathway that suppresses nuclear FOXO1 transcription factor activity. 121,122 F I G U R E 4 Clonal redemption. 106 cells cycle between a PI3K-active FOXO1-negative light zone state and a PI3K-inactive FOXO1-positive CXCR4 + dark zone state.…”

Section: Mechanis M Of Clonal Redemp Ti On?mentioning

confidence: 99%

“…106 119,120 By contrast, Burkitt lymphoma cells establish a perpetual dark zone state where both signals are active by acquiring mutations that increase surface immunoglobulin tonic signaling to PI3K and by mutating FOXO1 to resist inactivation by PI3K. 121,122 F I G U R E 4 Clonal redemption. Antibody displayed as surface antigen receptors on an anergic B cell binds with moderate reactivity to a self-antigen.…”

Section: Mechanis M Of Clonal Redemp Ti On?mentioning

confidence: 99%

Clonal redemption and clonal anergy as mechanisms to balance B cell tolerance and immunity

Burnett

Reed

Christ

et al. 2019

Immunological Reviews

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The adaptive immune system is tasked with producing antibodies that recognize a wide scope of potential pathogens, including those never before encountered, and concurrently avoiding formation of antibodies binding host tissues. The diverse repertoire of antibodies produced by V(D)J recombination inevitably includes autoantibodies that bind to self‐antigens, estimated to be as much as 70% of nascent antibodies on immature B cells. Early theoretical models of tolerance hypothesized that such self‐reactive clones could not possibly be allowed to survive and mature. However from the first direct view of the fate of nascent B cells carrying a self‐binding antibody it was clear that many “forbidden clones” circulate to secondary lymphoid tissues, where they adopt an IgMlow IgD+ cell surface phenotype and are prevented from secreting autoantibodies by a series of tolerance checkpoints referred to as “clonal anergy.” Since anergic B cells can be reactivated to secrete pathogenic autoantibodies in certain settings, the advantage of controlling self‐reactive antibodies by clonal anergy has until recently remained enigmatic. Here we review this topic and recent advances showing that anergic B cells are recruited into the germinal center to mutate away from self‐reactivity, undergoing “clonal redemption” into cells making antibodies with exquisite specificity for foreign immunogens.

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Molecular Genetics in Indolent Lymphomas

Fitzgibbon

Weigert

2021

Hematologic Malignancies

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Nuclear FOXO1 promotes lymphomagenesis in germinal center B cells

Cited by 37 publications

References 48 publications

Sporadic and endemic Burkitt lymphoma have frequent FOXO1 mutations but distinct hotspots in the AKT recognition motif

Sporadic and endemic Burkitt lymphoma have frequent FOXO1 mutations but distinct hotspots in the AKT recognition motif

Clonal redemption and clonal anergy as mechanisms to balance B cell tolerance and immunity

Molecular Genetics in Indolent Lymphomas

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