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Published October 5, 2020 | Published + Supplemental Material
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Notch2 complements Notch1 to mediate inductive signaling that initiates early T cell development

Romero-Wolf, Maile ORCID icon
Shin, Boyoung ORCID icon
Zhou, Wen ORCID icon
Koizumi, Maria ORCID icon
Rothenberg, Ellen V. ORCID icon
Hosokawa, Hiroyuki ORCID icon
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Abstract

Notch signaling is the dominant intercellular signaling input during the earliest stages of T cell development in the thymus. Although Notch1 is known to be indispensable, we show that it does not mediate all Notch signaling in precommitment stages: Notch2 initially works in parallel to promote early murine T cell development and antagonize other fates. Notch-regulated target genes before and after T lineage commitment change dynamically, and we show that this partially reflects shifts in genome-wide DNA binding by RBPJ, the transcription factor activated by complex formation with the Notch intracellular domain. Although Notch signaling and transcription factor PU.1 can activate some common targets in precommitment T progenitors, Notch signaling and PU.1 activity have functionally antagonistic effects on multiple targets, delineating separation of pro-T cells from alternative PU.1-dependent fates. These results define a distinct mechanism of Notch signal response that distinguishes the initial stages of murine T cell development.

Additional Information

© 2020 Romero-Wolf et al. This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms/). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 4.0 International license, as described at https://creativecommons.org/licenses/by-nc-sa/4.0/). Submitted: 13 May 2020; Revised: 7 July 2020; Accepted: 9 July 2020. This work was supported by grants to E.V. Rothenberg from the U.S. Public Health Service (R01AI135200, R01AI083514, and R01HD076915) and by grants to H. Hosokawa from the Japan Society for the Promotion of Science (KAKENHI grant JP19H03692), the Mochida Memorial Foundation for Medical and Pharmaceutical Research, the Naito Foundation, and the Takeda Science Foundation. Support was also received by M. Romero-Wolf from the California Institute for Regenerative Medicine Bridges to Stem Cell Research Program (Pasadena City College and California Institute of Technology) and by E.V. Rothenberg from the Louis A. Garfinkle Memorial Laboratory Fund, the Al Sherman Foundation, and the Albert Billings Ruddock Professorship. The authors declare no competing financial interests. Author contributions: M. Romero-Wolf designed the study, performed experiments, analyzed data, and wrote the manuscript. B. Shin performed experiments, analyzed data, and edited the manuscript. W. Zhou analyzed data and edited the manuscript. M. Koizumi performed experiments and analyzed data. E.V. Rothenberg designed and supervised the study, analyzed data, and wrote the manuscript. H. Hosokawa designed and supervised the study, performed experiments, analyzed data, and wrote the manuscript.

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Supplemental Material - jcb_202005093_tables2.xlsx

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