Ping Mu scite author profile

Prostate cancer relapsing from antiandrogen therapies can exhibit variant histology with altered lineage marker expression, suggesting that lineage plasticity facilitates therapeutic resistance. The mechanisms underlying prostate cancer lineage plasticity are incompletely understood. Studying mouse models, we demonstrate that Rb1 loss facilitates lineage plasticity and metastasis of prostate adenocarcinoma initiated by Pten mutation. Additional loss of Trp53 causes resistance to antiandrogen therapy. Gene expression profiling indicates that mouse tumors resemble human prostate cancer neuroendocrine variants; both mouse and human tumors exhibit increased expression of epigenetic reprogramming factors such as Ezh2 and Sox2. Clinically relevant Ezh2 inhibitors restore androgen receptor expression and sensitivity to antiandrogen therapy. These findings uncover genetic mutations that enable prostate cancer progression; identify mouse models for studying prostate cancer lineage plasticity; and suggest an epigenetic approach for extending clinical responses to antiandrogen therapy.

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SOX2 promotes lineage plasticity and antiandrogen resistance in TP53 - and RB1 -deficient prostate cancer

Zhang

Benelli

et al. 2017

Science

857

916

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Genetic dissection of the miR-17∼92 cluster of microRNAs in Myc-induced B-cell lymphomas

Mu¹,

Han²,

Betel³

et al. 2009

Genes Dev.

439

433

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The miR-17~92 cluster is frequently amplified or overexpressed in human cancers and has emerged as the prototypical oncogenic polycistron microRNA (miRNA). miR-17~92 is a direct transcriptional target of c-Myc, and experiments in a mouse model of B-cell lymphomas have shown cooperation between these two oncogenes. However, both the molecular mechanism underlying this cooperation and the individual miRNAs that are responsible for it are unknown. By using a conditional knockout allele of miR-17~92, we show here that sustained expression of endogenous miR-17~92 is required to suppress apoptosis in Myc-driven B-cell lymphomas. Furthermore, we show that among the six miRNAs that are encoded by miR-17~92, miR-19a and miR-19b are absolutely required and largely sufficient to recapitulate the oncogenic properties of the entire cluster. Finally, by combining computational target prediction, gene expression profiling, and an in vitro screening strategy, we identify a subset of miR-19 targets that mediate its prosurvival activity.Supplemental material is available at http://www.genesdev.org. The experiments presented in this study were designed to examine the role of the endogenous miR-17;92 allele in Myc-driven lymphomas, and to determine the relative contribution of each of the six constituent miRNAs to the overall oncogenic potential of the cluster.Our results show that, in the context of Myc-driven B-cell lymphomas, genetic ablation of the endogenous miR-17;92 locus leads to a dramatic reduction of tumor cell growth in vitro and suppresses tumorigenicity in vivo, two effects that are largely the consequence of increased cell death. We also demonstrate that, among the six miRNAs encoded by the miR-17;92 cluster, the members of the miR-19 family (miR-19a and miR-19b) are essential to mediate the oncogenic activity of the entire cluster, and that they do so at least in part by modulating the expression of the tumor suppressor gene Pten (phosphatase and tensin homologous). Results and DiscussionGeneration of miR-17;92 flox/flox ;Em-Myc miceTo investigate the role of miR-17;92 in Myc-induced cancers, we employed the Em-Myc mouse model of B-cell lymphomas (Adams et al. 1985). Em-Myc mice express a c-Myc transgene under the control of the B-cell-specific Em enhancer and develop B-cell lymphomas within 4-6 mo of age (Adams et al. 1985). Em-Myc mice were crossed to mice carrying a conditional miR-17;92 knockout allele (miR-17;92 fl ) ( Fig. 1B; Ventura et al. 2008). To temporally control the deletion of the floxed miR-17;92 allele, these mice were further crossed to mice carrying a 4-hydroxytamoxifen (4-OHT)-inducible Cre-recombinase estrogen receptor-T2 (Cre-ER T2 ) knock-in allele targeted to the ubiquitously expressed ROSA26 locus (R26-Cre-ER T2 mice, hereafter referred to as Cre-ER) (Ventura et al. 2007).As expected, Em-Myc; miR-17;92 fl/fl ; Cre-ER mice developed B-cell lymphomas with similar latency and phenotype as the parental Em-Myc strain (data not shown). From these mice, we derived two independent lymphoma lines (...

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In Vivo Cocaine Experience Generates Silent Synapses

Huang

Lin

et al. 2009

Neuron

246

369

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Summary Studies over the past decade have enunciated silent synapses as prominent cellular substrates for synaptic plasticity in the developing brain. However, little is known about whether silent synapses can be generated post-developmentally. Here, we demonstrate that highly salient in vivo experience, such as exposure to cocaine, generates silent synapses in the nucleus accumbens (NAc) shell, a key brain region mediating addiction-related learning and memory. Furthermore, this cocaine-induced generation of silent synapses is mediated by membrane insertions of new, NR2B–containing N-methyl-D-aspartic acid receptors (NMDARs). These results provide evidence that silent synapses can be generated de novo by in vivo experience and thus may act as highly efficient neural substrates for the subsequent experience-dependent synaptic plasticity underlying extremely long-lasting memory.

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Widespread regulatory activity of vertebrate microRNA* species

Yang

Phillips

Betel

et al. 2010

RNA

315

242

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An obligate intermediate during microRNA (miRNA) biogenesis is an~22-nucleotide RNA duplex, from which the mature miRNA is preferentially incorporated into a silencing complex. Its partner miRNA* species is generally regarded as a passenger RNA, whose regulatory capacity has not been systematically examined in vertebrates. Our bioinformatic analyses demonstrate that a substantial fraction of miRNA* species are stringently conserved over vertebrate evolution, collectively exhibit greatest conservation in their seed regions, and define complementary motifs whose conservation across vertebrate 39-UTR evolution is statistically significant. Functional tests of 22 miRNA expression constructs revealed that a majority could repress both miRNA and miRNA* perfect match reporters, and the ratio of miRNA:miRNA* sensor repression was correlated with the endogenous ratio of miRNA:miRNA* reads. Analysis of microarray data provided transcriptome-wide evidence for the regulation of seedmatched targets for both mature and star strand species of several miRNAs relevant to oncogenesis, including mir-17, mir-34a, and mir-19. Finally, 39-UTR sensor assays and mutagenesis tests confirmed direct repression of five miR-19* targets via star seed sites. Overall, our data demonstrate that miRNA* species have demonstrable impact on vertebrate regulatory networks and should be taken into account in studies of miRNA functions and their contribution to disease states.

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Ping Mu

Rb1 and Trp53 cooperate to suppress prostate cancer lineage plasticity, metastasis, and antiandrogen resistance

SOX2 promotes lineage plasticity and antiandrogen resistance in TP53 - and RB1 -deficient prostate cancer

Genetic dissection of the miR-17∼92 cluster of microRNAs in Myc-induced B-cell lymphomas

In Vivo Cocaine Experience Generates Silent Synapses

Widespread regulatory activity of vertebrate microRNA* species

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