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Usage Information

FBXO11 suppression rewires an NPM1-centered interactome influencing the progression of myelodysplastic syndrome
Madeline Niederkorn, Lavanya Bezavada, Anitria Cotton, Lance E. Palmer, Lahiri Konada, Trent Hall, Vishwajeeth R. Pagala, Jinbin Zhai, Zuo-Fei Yuan, Yingxue Fu, Jacob A. Steele, Shilpa Narina, Andrew Schild, Chengzhou Wu, Sarah Aminov, Michael Schieber, Erin McGovern, Aaron B. Taylor, Sandeep Gurbuxani, Peng Xu, Peng Ji, Laura J. Janke, Anthony A. High, Guolian Kang, Shondra M. Pruett-Miller, Mitchell Weiss, Amit Verma, Raajit K. Rampal, John D. Crispino
Madeline Niederkorn, Lavanya Bezavada, Anitria Cotton, Lance E. Palmer, Lahiri Konada, Trent Hall, Vishwajeeth R. Pagala, Jinbin Zhai, Zuo-Fei Yuan, Yingxue Fu, Jacob A. Steele, Shilpa Narina, Andrew Schild, Chengzhou Wu, Sarah Aminov, Michael Schieber, Erin McGovern, Aaron B. Taylor, Sandeep Gurbuxani, Peng Xu, Peng Ji, Laura J. Janke, Anthony A. High, Guolian Kang, Shondra M. Pruett-Miller, Mitchell Weiss, Amit Verma, Raajit K. Rampal, John D. Crispino
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Research Article Hematology Oncology

FBXO11 suppression rewires an NPM1-centered interactome influencing the progression of myelodysplastic syndrome

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Abstract

Myelodysplastic syndromes (MDSs) are malignant hematopoietic stem and progenitor cell (HSPC) disorders that lead to ineffective blood production with poor outcomes. We previously showed that F-box only protein 11 (FBXO11) is downregulated in MDS, and here we report how this event contributes to disease progression. Integration of multiomics data revealed that the SCF-FBXO11 complex regulates spliceosome and ribosome components in a nucleophosmin 1 (NPM1)-centric network. FBXO11 facilitates the ubiquitylation of NPM1, whereby deletion of FBXO11 results in the reorganization of NPM1 and a de-repression of alternative splicing. Label-free total quantitative proteomics demonstrated that the FBXO11-NPM1 interactome was markedly downregulated in cells from patients with CD34+ MDS. In addition, we discovered that MYC was evicted from the FBXO11 promoter by TLR2 activation, revealing that it was a MYC target gene and explaining why FBXO11 expression was decreased in MDS. In MDS mouse models, genetic ablation of Fbxo11 exacerbated neutropenia concomitant with a profound decrease in NPM1 protein levels. Finally, we discovered rare mutations in FBXO11, which mapped to a previously unstudied functional intrinsically disordered region (IDR) in the N-terminus responsible for binding NPM1. These data support a model in which FBXO11 rewires RNA binding and ribosomal subnetworks through ubiquitylation of NPM1, ultimately restricting MDS progression.

Authors

Madeline Niederkorn, Lavanya Bezavada, Anitria Cotton, Lance E. Palmer, Lahiri Konada, Trent Hall, Vishwajeeth R. Pagala, Jinbin Zhai, Zuo-Fei Yuan, Yingxue Fu, Jacob A. Steele, Shilpa Narina, Andrew Schild, Chengzhou Wu, Sarah Aminov, Michael Schieber, Erin McGovern, Aaron B. Taylor, Sandeep Gurbuxani, Peng Xu, Peng Ji, Laura J. Janke, Anthony A. High, Guolian Kang, Shondra M. Pruett-Miller, Mitchell Weiss, Amit Verma, Raajit K. Rampal, John D. Crispino

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Usage data is cumulative from January 2026 through July 2026.

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ISSN: 0021-9738 (print), 1558-8238 (online)

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