Identification of
            <i>CDK4</i>
            as a target of c-MYC

Hermeking, Heiko; Rago, Carlo; Schuhmacher, Marino; Li, Qing; Barrett, John; Obaya, Álvaro J.; O’Connell, Brenda; Mateyak, Maria K.; Tam, Wanny; Kohlhuber, Franz; Dang, Chi V.; Sedivy, John M.; Eick, Dirk; Vogelstein, Bert; Kinzler, Kenneth W.

doi:10.1073/pnas.050586197

Cited by 430 publications

(352 citation statements)

References 35 publications

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“…Expression of WS5 is tightly correlated with Myc levels, the promoter region contains a cluster of Myc-binding sites that are occupied in vivo by Myc and Max, and transactivation analyses of the wild-type and mutant versions of the promoter directly proved functionality of these sites. Clustering of multiple E-boxes increases the chances of recruiting multiple Myc-Max complexes to a gene, leading to synergistic activation (Hermeking et al, 2000;Levens, 2003). This is directly supported by our data (see Figure 4).…”

Section: Ws5 a Direct Transcriptional Target Of Myc F Reiter Et Alsupporting

confidence: 87%

“…For validation of a direct target, binding of Myc in vivo and tight correlation of transcriptional alterations with Myc expression is required (Eisenman, 2001). Several direct Myc targets have been well defined (Dang, 1999;Grandori et al, 2000;Hermeking et al, 2000;Eisenman, 2001;Patel et al, 2004), most of them with biological functions in cell cycle control, metabolism or ribosome biogenesis, but only a few have so far been directly linked to the transforming function of Myc (Eisenman, 2001, Patel et al, 2004. These include the ornithine decarboxylase gene (ODC), the tumor-associated membrane glycoprotein gene Tmp, the metastasis-associated protein 1 (MTA1) gene, or the transferrin receptor 1 (TFRC1) gene, that were shown to have oncogenic potential (BenPorath et al, 1999;Eisenman, 2001;Zhang et al, 2005;O'Donnell et al, 2006).…”

Section: Ws5 a Direct Transcriptional Target Of Myc F Reiter Et Almentioning

confidence: 99%

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WS5, a direct target of oncogenic transcription factor Myc, is related to human melanoma glycoprotein genes and has oncogenic potential

et al. 2006

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We have isolated a gene (WS5) that is specifically expressed at the mRNA and protein level in avian fibroblasts transformed by the v-myc oncogene of avian acute leukemia virus MC29. In a conditional cell transformation system, WS5 gene expression was tightly correlated with v-myc activation. The WS5 gene contains 11 exons, encoding a 733-amino acid protein with a transmembrane region and a polycystic kidney disease (PKD) domain. Near the transcriptional start site, the WS5 promoter contains a cluster of four binding sites for the Myc-Max complex and a binding site for transcription factor C/EBPa. Electrophoretic mobility shift assays and chromatin immunoprecipitation showed that Myc, Max and C/EBPa bind specifically to these sites. Functional promoter analyses revealed that both the Myc-binding site cluster and the C/EBPa-binding site are essential for strong transcriptional activation, and that Myc and C/EBPa synergistically activate the WS5 promoter. Ectopic expression of WS5 led to cell transformation documented by anchorage-independent growth. The human melanoma antigen Pmel17, a type I transmembrane glycoprotein, is the mammalian protein with the highest amino acid sequence identity (38%) to WS5. The Pmel17 gene is regulated by the MITF protein, a bHLHZip transcription factor with DNA binding specificities similar to those of Myc/Max. WS5 is also related to human glycoprotein GPNMB expressed in metastatic melanoma cells and implicated in the progression of brain and liver tumors.

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Section: Ws5 a Direct Transcriptional Target Of Myc F Reiter Et Alsupporting

confidence: 87%

Section: Ws5 a Direct Transcriptional Target Of Myc F Reiter Et Almentioning

confidence: 99%

WS5, a direct target of oncogenic transcription factor Myc, is related to human melanoma glycoprotein genes and has oncogenic potential

et al. 2006

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“…To investigate potential links between Myc and p18 Ink4c , we initially used Affymetrix gene chip microarray analysis and compared the expression of Ink4c to that of other Ink4 family members, CKIs, Cdk4 and Cdk6 in B220 þ splenocytes isolated from wild-type and precancerous Em-Myc transgenic littermates ( Figure 1a). As expected, Cdk4 (a known Myc target (Hermeking et al, 2000)) was elevated in precancerous (4-to 6-week-old) splenic B cells from Em-Myc mice, whereas these cells expressed reduced levels of Cdkn1b (encoding p27 Kip1 ). By contrast, Ink4c (Cdkn2c) expression was induced in Em-Myc B cells (Po0.05), and there were no significant changes in the expression of Ink4a (Cdkn2a) or Ink4d (Cdkn2d).…”

Section: P18supporting

confidence: 75%

“…Myc overexpression accelerates cell cycle progression (Roussel et al, 1991), and this occurs through their induction of D-type cyclins (Bouchard et al, 1999) and their partner Cdk4 (Hermeking et al, 2000), as well as by repressing p21 Cip1 (Herold et al, 2002;Seoane et al, 2002;Wu et al, 2003), p27 Kip1 (Yang et al, 2001), p15 Ink4b Staller et al, 2001) and p18 Ink4c (Knoepfler et al, 2002). However, in normal cells this proliferative response is counterbalanced by Myc's ability to provoke apoptosis (Askew et al, 1991;Evan et al, 1992;Eischen et al, 1999;Pelengaris et al, 2002;Nilsson and Cleveland, 2003).…”

Section: Introductionmentioning

confidence: 99%

Ink4c is dispensable for tumor suppression in Myc-induced B-cell lymphomagenesis

et al. 2006

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p18 Ink4c functions as a dedicated inhibitor of cyclin-Ddependent kinases. Loss of Ink4c predisposes mice to tumor development and, in a dose-dependent manner, complements the tumor-promoting effects of various oncogenes. We have now addressed whether Ink4c loss impacts B-cell tumor development in the El-Myc transgenic mouse, a model of human Burkitt lymphoma. Loss of one or both alleles did not influence the onset of lymphoma in El-Myc transgenics, and did not appreciably affect Myc's proliferative or apoptotic responses in precancerous B cells. Nevertheless, Ink4c loss modulated the effects of Myc-induced transformation by decreasing the frequency of Arf loss, an ordinarily common event in El-Myc-induced lymphomas.

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“…The observation that potent cell cycle regulators, such as SV40 Tantigen and adenovirus E1A, did not rescue the slow growth phenotype of the c-myc null cells suggests that the cell cycle components that are deregulated by these viral proteins are not among the critical targets of cMyc. Recently, the cyclin-dependent kinase CDK4 was identi®ed as a critical target of c-Myc since it could partially alleviate the c-myc null growth defect (Hermeking et al, 2000). However, in our hands a cmyc null derivative that over-expressed the tumorderived CDK4/R24C mutant (Wolfel et al, 1995) did not even show a partial rescue of the growth defect (data not shown).…”

Section: Abstract: C-myc; Cell Proliferation; Cell Cyclementioning

confidence: 58%

A genetic screen to identify genes that rescue the slow growth phenotype of c-myc null fibroblasts

et al. 2000

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Identification of CDK4 as a target of c-MYC

Cited by 430 publications

References 35 publications

WS5, a direct target of oncogenic transcription factor Myc, is related to human melanoma glycoprotein genes and has oncogenic potential

WS5, a direct target of oncogenic transcription factor Myc, is related to human melanoma glycoprotein genes and has oncogenic potential

Ink4c is dispensable for tumor suppression in Myc-induced B-cell lymphomagenesis

A genetic screen to identify genes that rescue the slow growth phenotype of c-myc null fibroblasts

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