@article{53711085f49946e3b7fc97bf07142c92,
title = "Mutations in the transcription factor FOXO1 mimic positive selection signals to promote germinal center B cell expansion and lymphomagenesis",
abstract = "The transcription factor forkhead box O1 (FOXO1), which instructs the dark zone program to direct germinal center (GC) polarity, is typically inactivated by phosphatidylinositol 3-kinase (PI3K) signals. Here, we investigated how FOXO1 mutations targeting this regulatory axis in GC-derived B cell non-Hodgkin lymphomas (B-NHLs) contribute to lymphomagenesis. Examination of primary B-NHL tissues revealed that FOXO1 mutations and PI3K pathway activity were not directly correlated. Human B cell lines bearing FOXO1 mutations exhibited hyperactivation of PI3K and Stress-activated protein kinase (SAPK)/Jun amino-terminal kinase (JNK) signaling, and increased cell survival under stress conditions as a result of alterations in FOXO1 transcriptional affinities and activation of transcriptional programs characteristic of GC-positive selection. When modeled in mice, FOXO1 mutations conferred competitive advantage to B cells in response to key T-dependent immune signals, disrupting GC homeostasis. FOXO1 mutant transcriptional signatures were prevalent in human B-NHL and predicted poor clinical outcomes. Thus, rather than enforcing FOXO1 constitutive activity, FOXO1 mutations enable co-option of GC-positive selection programs during the pathogenesis of GC-derived lymphomas.",
keywords = "B cell, CD40, FOXO1, JNK, PI3K, germinal center, mouse model, mutation, non-Hodgkin lymphoma, positive selection",
author = "Roberto, {Mark P.} and Gabriele Varano and Rosa Vinas-Castells and Holmes, {Antony B.} and Rahul Kumar and Laura Pasqualucci and Pedro Farinha and Scott, {David W.} and David Dominguez-Sola",
note = "Funding Information: We would like to thank D. Hasson (Icahn School of Medicine at Mount Sinai) for assistance in implementing next-generation sequencing protocols; G. Viavattene (Flow Cytometry core at Mount Sinai) and N. Terra (Dominguez-Sola lab) for invaluable technical assistance; P.J. Lehner and N.J. Matheson (University of Cambridge, United Kingdom) for sharing reagents and protocols for targeted cell isolation; Y. Tan and J.P. Mesirov (UCSD School of Medicine) for assistance with the Leading Edge Metanalysis pipeline; K. Kelley and P. Sanabria (Mouse Genetics and Gene Targeting CoRE, Mount Sinai) for assistance in generating Foxo1 mutant mice; R. Dalla-Favera (Columbia University Medical Center) for helpful scientific discussions; and E. Bernstein, E. Papapetrou, and P. Heeger (Icahn School of Medicine at Mount Sinai); K. Basso and A.F. Ferrando (Columbia University Medical Center); and Y. Takabatake for critically reading this manuscript. This study was supported by grants from the National Institutes of Health (NIH) RO1-CA207963 and the Louis Sklarow Memorial Trust (to D.D.-S.). Research was also funded in part through a NIH / National Cancer Institute (NCI) Cancer Center Support Grant (P30-CA196521) to the Tisch Cancer Institute and used the Flow Cytometry, Immunohistology, Next Generation Sequencing and Mouse Genetics and Gene Targeting Shared Resources at Mount Sinai. Additional funding support was provided by grant R35-CA210105 (NIH) and P30-CA013696 (NIH) ( Herbert Irving Comprehensive Cancer Center, Columbia University ). G.V. was supported by a Lymphoma Research Foundation postdoctoral award. M.P.R. was supported by a Ruth L. Kirchstein National Service Award (NRSA) Institutional Research Training Grant ( T32-C078207 ). Funding Information: We would like to thank D. Hasson (Icahn School of Medicine at Mount Sinai) for assistance in implementing next-generation sequencing protocols; G. Viavattene (Flow Cytometry core at Mount Sinai) and N. Terra (Dominguez-Sola lab) for invaluable technical assistance; P.J. Lehner and N.J. Matheson (University of Cambridge, United Kingdom) for sharing reagents and protocols for targeted cell isolation; Y. Tan and J.P. Mesirov (UCSD School of Medicine) for assistance with the Leading Edge Metanalysis pipeline; K. Kelley and P. Sanabria (Mouse Genetics and Gene Targeting CoRE, Mount Sinai) for assistance in generating Foxo1 mutant mice; R. Dalla-Favera (Columbia University Medical Center) for helpful scientific discussions; and E. Bernstein, E. Papapetrou, and P. Heeger (Icahn School of Medicine at Mount Sinai); K. Basso and A.F. Ferrando (Columbia University Medical Center); and Y. Takabatake for critically reading this manuscript. This study was supported by grants from the National Institutes of Health (NIH) RO1-CA207963 and the Louis Sklarow Memorial Trust (to D.D.-S.). Research was also funded in part through a NIH/National Cancer Institute (NCI) Cancer Center Support Grant (P30-CA196521) to the Tisch Cancer Institute and used the Flow Cytometry, Immunohistology, Next Generation Sequencing and Mouse Genetics and Gene Targeting Shared Resources at Mount Sinai. Additional funding support was provided by grant R35-CA210105 (NIH) and P30-CA013696 (NIH) (Herbert Irving Comprehensive Cancer Center, Columbia University). G.V. was supported by a Lymphoma Research Foundation postdoctoral award. M.P.R. was supported by a Ruth L. Kirchstein National Service Award (NRSA) Institutional Research Training Grant (T32-C078207). Conceptualization, D.D.-S. G.V. and M.P.R.; methodology, G.V. M.P.R. R.V.-C. and D.D.-S.; investigation, G.V. M.P.R. R.V.-C. and D.D.-S.; data curation, G.V. M.P.R. A.B.H. R.K. P.F. D.W.S. and D.D.-S.; computational analyses, M.P.R. A.B.H. R.K. and D.D.-S.; writing ? original draft, D.D.-S.; writing ? review and editing, all authors; visualization, G.V. M.P.R. R.V.-C. and D.D.-S.; funding acquisition, D.D.-S.; resources, D.D.-S. L.P. P.F. and D.W.S.; supervision, D.D.-S. The authors declare no competing interests. Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",
year = "2021",
month = aug,
day = "10",
doi = "10.1016/j.immuni.2021.07.009",
language = "English",
volume = "54",
pages = "1807--1824.e14",
journal = "Immunity",
issn = "1074-7613",
publisher = "Cell Press",
number = "8",
}