Evelyn Yao scite author profile

Epidermal growth factor receptor (EGFR) and HER3 each form heterodimers with HER2 and have independently been implicated as key coreceptors that drive HER2-amplified breast cancer. Some studies suggest a dominant role for EGFR, a notion of renewed interest given the development of dual HER2/EGFR small-molecule inhibitors. Other studies point to HER3 as the primary coreceptor. To clarify the relative contributions of EGFR and HER3 to HER2 signaling, we studied receptor knockdown via small interfering RNA technology across a panel of six HER2-overexpressing cell lines. Interestingly, HER3 was as critical as HER2 for maintaining cell proliferation in most cell lines, whereas EGFR was dispensable. Induction of HER3 knockdown in the HER2-overexpressing BT474M1 cell line was found to inhibit growth in three-dimensional culture and induce rapid tumor regression of in vivo xenografts. Furthermore, preferential phosphorylation of HER3, but not EGFR, was observed in HER2-amplified breast cancer tissues. Given these data suggesting HER3 as an important therapeutic target, we examined the activity of pertuzumab, a HER2 antibody that inhibits HER3 signaling by blocking ligand-induced HER2/HER3 heterodimerization. Pertuzumab inhibited ligand-dependent morphogenesis in three-dimensional culture and induced tumor regression in the heregulin-dependent MDA-MB-175 xenograft model. Importantly, these activities of pertuzumab were distinct from those of trastuzumab, a monoclonal antibody currently used for treatment of HER2-amplified breast cancer patients. Our data suggest that inhibition of HER3 may be more clinically relevant than inhibition of EGFR in HER2-amplified breast cancer and also suggest that adding pertuzumab to trastuzumab may augment therapeutic benefit by blocking HER2/ HER3 signaling.

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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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Germline deletion of the miR-17∼92 cluster causes skeletal and growth defects in humans

et al. 2011

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The MAPKERK-1,2 pathway integrates distinct and antagonistic signals from TGFα and FGF7 in morphogenesis of mouse mammary epithelium

Fata

Mori

Ewald

et al. 2007

Developmental Biology

172

205

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Transforming growth factor-alpha (TGFalpha) and fibroblast growth factor-7 (FGF7) exhibit distinct expression patterns in the mammary gland. Both factors signal through mitogen-activated kinase/extracellular regulated kinase-1,2 (MAPK(ERK1,2)); however, their unique and/or combined contributions to mammary morphogenesis have not been examined. In ex vivo mammary explants, we show that a sustained activation of MAPK(ERK1,2) for 1 h, induced by TGFalpha, was necessary and sufficient to initiate branching morphogenesis, whereas a transient activation (15 min) of MAPK(ERK1,2), induced by FGF7, led to growth without branching. Unlike TGFalpha, FGF7 promoted sustained proliferation as well as ectopic localization of, and increase in, keratin-6 expressing cells. The response of the explants to FGF10 was similar to that to FGF7. Simultaneous stimulation by FGF7 and TGFalpha indicated that the FGF7-induced MAPK(ERK1,2) signaling and associated phenotypes were dominant: FGF7 may prevent branching by suppression of two necessary TGFalpha-induced morphogenetic effectors, matrix metalloproteinase-3 (MMP-3/stromelysin-1), and fibronectin. Our findings indicate that expression of morphogenetic effectors, proliferation, and cell-type decisions during mammary organoid morphogenesis are intimately dependent on the duration of activation of MAPK(ERK1,2) activation.

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Intact p53-Dependent Responses in miR-34–Deficient Mice

et al. 2012

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MicroRNAs belonging to the miR-34 family have been proposed as critical modulators of the p53 pathway and potential tumor suppressors in human cancers. To formally test these hypotheses, we have generated mice carrying targeted deletion of all three members of this microRNA family. We show that complete inactivation of miR-34 function is compatible with normal development in mice. Surprisingly, p53 function appears to be intact in miR-34–deficient cells and tissues. Although loss of miR-34 expression leads to a slight increase in cellular proliferation in vitro, it does not impair p53-induced cell cycle arrest or apoptosis. Furthermore, in contrast to p53-deficient mice, miR-34–deficient animals do not display increased susceptibility to spontaneous, irradiation-induced, or c-Myc–initiated tumorigenesis. We also show that expression of members of the miR-34 family is particularly high in the testes, lungs, and brains of mice and that it is largely p53-independent in these tissues. These findings indicate that miR-34 plays a redundant function in the p53 pathway and suggest additional p53-independent functions for this family of miRNAs.

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Evelyn Yao

A Central Role for HER3 in HER2-Amplified Breast Cancer: Implications for Targeted Therapy

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

Germline deletion of the miR-17∼92 cluster causes skeletal and growth defects in humans

The MAPKERK-1,2 pathway integrates distinct and antagonistic signals from TGFα and FGF7 in morphogenesis of mouse mammary epithelium

Intact p53-Dependent Responses in miR-34–Deficient Mice

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