SPOP Promotes Nanog Destruction to Suppress Stem Cell Traits and Prostate Cancer Progression.
Abstract
Frequent SPOP mutation defines the molecular feature underlying one of seven sub-types
of human prostate cancer (PrCa). However, it remains largely elusive how SPOP functions
as a tumor suppressor in PrCa. Here, we report that SPOP suppresses stem cell traits
of both embryonic stem cells and PrCa cells through promoting Nanog poly-ubiquitination
and subsequent degradation. Mechanistically, Nanog, but not other pluripotency-determining
factors including Oct4, Sox2, and Klf4, specifically interacts with SPOP via a conservative
degron motif. Importantly, cancer-derived mutations in SPOP or at the Nanog-degron
(S68Y) disrupt SPOP-mediated destruction of Nanog, leading to elevated cancer stem
cell traits and PrCa progression. Notably, we identify the Pin1 oncoprotein as an
upstream Nanog regulator that impairs its recognition by SPOP and thereby stabilizes
Nanog. Thus, Pin1 inhibitors promote SPOP-mediated destruction of Nanog, which provides
the molecular insight and rationale to use Pin1 inhibitor(s) for targeted therapies
of PrCa patients with wild-type SPOP.
Type
Journal articleSubject
Stem CellsHumans
Prostatic Neoplasms
Disease Progression
Cullin Proteins
Nuclear Proteins
Repressor Proteins
Cell Proliferation
Mutation
Male
Protein Interaction Domains and Motifs
Ubiquitination
Permalink
https://hdl.handle.net/10161/20384Published Version (Please cite this version)
10.1016/j.devcel.2018.11.035Publication Info
(2019). SPOP Promotes Nanog Destruction to Suppress Stem Cell Traits and Prostate Cancer Progression.
Developmental cell, 48(3). pp. 329-344.e5. 10.1016/j.devcel.2018.11.035. Retrieved from https://hdl.handle.net/10161/20384.This is constructed from limited available data and may be imprecise. To cite this
article, please review & use the official citation provided by the journal.
Collections
More Info
Show full item recordScholars@Duke
Ming Chen
Assistant Professor in Pathology
Our laboratory is interested in understanding the molecular and genetic events underlying
cancer progression and metastasis. The focus of our work is a series of genetically
engineered mouse models that faithfully recapitulate human disease. Using a combination
of mouse genetics, omics technologies, cross-species analyses and in vitro approaches,
we aim to identify cancer cell–intrinsic and –extrinsic mechanisms driving
metastatic cancer progression, with a long
Jiaoti Huang
Endowed Department Chair of Pathology
I am a physician-scientist with clinical expertise in the pathologic diagnosis of
genitourinary tumors including tumors of the prostate, bladder, kidney and testis.
Another area of interest is gynecologic tumors. In my research laboratory we study
prostate cancer, focusing on molecular mechanisms of carcinogenesis and tumor progression,
as well as biomarkers, imaging and novel therapeutic strategies. In addition to patient
care and research, I am also passionate about education. I have trained n
Alphabetical list of authors with Scholars@Duke profiles.
Articles written by Duke faculty are made available through the campus open access policy. For more information see: Duke Open Access Policy
Rights for Collection: Scholarly Articles
Works are deposited here by their authors, and represent their research and opinions, not that of Duke University. Some materials and descriptions may include offensive content. More info