Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer.

Matthias Choschzick; Annette Lebeau; Andreas Marx; Lars Tharun; Luigi Terracciano; Uwe Heilenkötter; Fritz Jänicke; Carsten Bokemeyer; Ronald Simon; Guido Sauter; Jörg Schwarz

Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer.

Standard

Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer. / Choschzick, Matthias; Lebeau, Annette; Marx, Andreas; Tharun, Lars; Terracciano, Luigi; Heilenkötter, Uwe; Jänicke, Fritz; Bokemeyer, Carsten ; Simon, Ronald ; Sauter, Guido; Schwarz, Jörg.

In: HUM PATHOL, 2009.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Choschzick, M, Lebeau, A, Marx, A, Tharun, L, Terracciano, L, Heilenkötter, U, Jänicke, F, Bokemeyer, C , Simon, R , Sauter, G & Schwarz, J 2009, 'Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer.', HUM PATHOL. <http://www.ncbi.nlm.nih.gov/pubmed/19896697?dopt=Citation>

APA

Choschzick, M., Lebeau, A., Marx, A., Tharun, L., Terracciano, L., Heilenkötter, U., Jänicke, F., Bokemeyer, C., Simon, R., Sauter, G., & Schwarz, J. (2009). Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer. HUM PATHOL. http://www.ncbi.nlm.nih.gov/pubmed/19896697?dopt=Citation

Vancouver

Choschzick M, Lebeau A, Marx A, Tharun L, Terracciano L, Heilenkötter U et al. Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer. HUM PATHOL. 2009.

Bibtex

@article{b717a20b00554c3eadaec7864dc2193b,

title = "Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer.",

abstract = "Cell division cycle 7 is a widely expressed protein kinase implicated in cell division, cell cycle checkpoint mechanisms, and cancer progression. To determine the relationship of cell division cycle 7 protein expression with tumor phenotype, molecular features and prognosis, 2197 highly characterized breast carcinomas were analyzed on a tissue microarray. Detectable cell division cycle 7 expression was found in 1088 (57%) of breast cancer specimens and 228 (11.9%) exhibited a moderate or strong expression. High levels of cell division cycle 7 expression were significantly related to medullary histotype (P <.0001); high tumor grade (P <.0001); negative estrogen receptor status (P <.0001); high Ki67 expression level (P <.0001); p53 and p16 overexpression (P <.0001); and amplification of HER2 (P <.0001), c-myc (P <.0001), MDM2 (P = .043), CCND1 (P = .0084), and ESR1 (P = .0012) as well as with the number of amplified genes (P <.0001). There was also a tendency towards worse prognosis in cell division cycle 7 positive as compared to negative breast cancers. The relationship between cell division cycle 7 and number of amplifications was independent from tumor proliferation raising the possibility of a direct influence of cell division cycle 7 expression for amplification development. In conclusion, cell division cycle 7 is a replication associated protein with relationships to gene amplification and genomic instability in breast carcinomas. These data support the potential utility of newly developed small molecule cell division cycle 7 inhibitors as a therapeutic alternative in at least a subset of breast carcinomas.",

author = "Matthias Choschzick and Annette Lebeau and Andreas Marx and Lars Tharun and Luigi Terracciano and Uwe Heilenk{\"o}tter and Fritz J{\"a}nicke and Carsten Bokemeyer and Ronald Simon and Guido Sauter and J{\"o}rg Schwarz",

year = "2009",

language = "Deutsch",

journal = "HUM PATHOL",

issn = "0046-8177",

publisher = "W.B. Saunders Ltd",

}

RIS

TY - JOUR

T1 - Overexpression of cell division cycle 7 homolog is associated with gene amplification frequency in breast cancer.

AU - Choschzick, Matthias

AU - Lebeau, Annette

AU - Marx, Andreas

AU - Tharun, Lars

AU - Terracciano, Luigi

AU - Heilenkötter, Uwe

AU - Jänicke, Fritz

AU - Bokemeyer, Carsten

AU - Simon, Ronald

AU - Sauter, Guido

AU - Schwarz, Jörg

PY - 2009

Y1 - 2009

N2 - Cell division cycle 7 is a widely expressed protein kinase implicated in cell division, cell cycle checkpoint mechanisms, and cancer progression. To determine the relationship of cell division cycle 7 protein expression with tumor phenotype, molecular features and prognosis, 2197 highly characterized breast carcinomas were analyzed on a tissue microarray. Detectable cell division cycle 7 expression was found in 1088 (57%) of breast cancer specimens and 228 (11.9%) exhibited a moderate or strong expression. High levels of cell division cycle 7 expression were significantly related to medullary histotype (P <.0001); high tumor grade (P <.0001); negative estrogen receptor status (P <.0001); high Ki67 expression level (P <.0001); p53 and p16 overexpression (P <.0001); and amplification of HER2 (P <.0001), c-myc (P <.0001), MDM2 (P = .043), CCND1 (P = .0084), and ESR1 (P = .0012) as well as with the number of amplified genes (P <.0001). There was also a tendency towards worse prognosis in cell division cycle 7 positive as compared to negative breast cancers. The relationship between cell division cycle 7 and number of amplifications was independent from tumor proliferation raising the possibility of a direct influence of cell division cycle 7 expression for amplification development. In conclusion, cell division cycle 7 is a replication associated protein with relationships to gene amplification and genomic instability in breast carcinomas. These data support the potential utility of newly developed small molecule cell division cycle 7 inhibitors as a therapeutic alternative in at least a subset of breast carcinomas.

AB - Cell division cycle 7 is a widely expressed protein kinase implicated in cell division, cell cycle checkpoint mechanisms, and cancer progression. To determine the relationship of cell division cycle 7 protein expression with tumor phenotype, molecular features and prognosis, 2197 highly characterized breast carcinomas were analyzed on a tissue microarray. Detectable cell division cycle 7 expression was found in 1088 (57%) of breast cancer specimens and 228 (11.9%) exhibited a moderate or strong expression. High levels of cell division cycle 7 expression were significantly related to medullary histotype (P <.0001); high tumor grade (P <.0001); negative estrogen receptor status (P <.0001); high Ki67 expression level (P <.0001); p53 and p16 overexpression (P <.0001); and amplification of HER2 (P <.0001), c-myc (P <.0001), MDM2 (P = .043), CCND1 (P = .0084), and ESR1 (P = .0012) as well as with the number of amplified genes (P <.0001). There was also a tendency towards worse prognosis in cell division cycle 7 positive as compared to negative breast cancers. The relationship between cell division cycle 7 and number of amplifications was independent from tumor proliferation raising the possibility of a direct influence of cell division cycle 7 expression for amplification development. In conclusion, cell division cycle 7 is a replication associated protein with relationships to gene amplification and genomic instability in breast carcinomas. These data support the potential utility of newly developed small molecule cell division cycle 7 inhibitors as a therapeutic alternative in at least a subset of breast carcinomas.

M3 - SCORING: Zeitschriftenaufsatz

JO - HUM PATHOL

JF - HUM PATHOL

SN - 0046-8177

ER -