Sagar Bajpai scite author profile

Sagar Bajpai

2Publications

18Citation Statements Received

83Citation Statements Given

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Case Western Reserve University, Hollings Cancer Center, Medical University of South Carolina

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Fbxl8 suppresses lymphoma growth and hematopoietic transformation through degradation of cyclin D3

et al. 2020

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Overexpression of D-type cyclins in human cancer frequently occurs as a result of protein stabilization, emphasizing the importance of identification of the machinery that regulates their ubiqutin-dependent degradation. Cyclin D3 is overexpressed in ~50% of Burkitt’s lymphoma correlating with a mutation of Thr-283. However, the E3 ligase that regulates phosphorylated cyclin D3 and whether a stabilized, phosphorylation deficient mutant of cyclin D3, has oncogenic activity are undefined. We describe the identification of SCF-Fbxl8 as the E3 ligase for Thr-283 phosphorylated cyclin D3. SCF-Fbxl8 poly-ubiquitylates p-Thr-283 cyclin D3 targeting it to the proteasome. Functional investigation demonstrates that Fbxl8 antagonizes cell cycle progression, hematopoietic cell proliferation, and oncogene-induced transformation through degradation of cyclin D3, which is abolished by expression of cyclin D3T283A, a non-phosphorylatable mutant. Clinically, the expression of cyclin D3 is inversely correlated with the expression of Fbxl8 in lymphomas from human patients implicating Fbxl8 functions as a tumor suppressor.

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Ubiquitylation of unphosphorylated c-myc by novel E3 ligase SCF^Fbxl8

Bajpai

Jin

Mucha

et al. 2022

Cancer Biology & Therapy

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Overexpression of c-myc via increased transcription or decreased protein degradation is common to many cancer etiologies. c-myc protein degradation is mediated by ubiquitin-dependent degradation, and this ubiquitylation is regulated by several E3 ligases. The primary regulator is Fbxw7, which binds to a phospho-degron within c-myc. Here, we identify a new E3 ligase for c-myc, Fbxl8 (F-box and Leucine Rich Repeat Protein 8), as an adaptor component of the SCF (Skp1-Cullin1-F-box protein) ubiquitin ligase complex, for selective c-myc degradation. SCF Fbxl8 binds and ubiquitylates c-myc, independent of phosphorylation, revealing that it regulates a pool of c-myc distinct from SCF Fbxw7 . Loss of Fbxl8 increases c-myc protein levels, protein stability, and cell division, while overexpression of Fbxl8 reduces c-myc protein levels. Concurrent loss of Fbxl8 and Fbxw7 triggers a robust increase in c-myc protein levels consistent with targeting distinct pools of c-myc. This work highlights new mechanisms regulating c-myc degradation.

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Sagar Bajpai

Fbxl8 suppresses lymphoma growth and hematopoietic transformation through degradation of cyclin D3

Ubiquitylation of unphosphorylated c-myc by novel E3 ligase SCF^Fbxl8

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Sagar Bajpai

Fbxl8 suppresses lymphoma growth and hematopoietic transformation through degradation of cyclin D3

Ubiquitylation of unphosphorylated c-myc by novel E3 ligase SCFFbxl8

Contact Info

Product

Resources

About

Ubiquitylation of unphosphorylated c-myc by novel E3 ligase SCF^Fbxl8