Consequence of the tumor‐associated conversion to cyclin D1b

Michael A Augello; Lisa D Berman‐Booty; Richard Carr 3rd; Akihiro Yoshida; Jeffry L Dean; Matthew J Schiewer; Felix Y Feng; Scott A Tomlins; Erhe Gao; Walter J Koch; Jeffrey L Benovic; John Alan Diehl; Karen E Knudsen

doi:10.15252/emmm.201404242

EMBO Molecular Medicine (May 2015)

Consequence of the tumor‐associated conversion to cyclin D1b

Michael A Augello,
Lisa D Berman‐Booty,
Richard Carr 3rd,
Akihiro Yoshida,
Jeffry L Dean,
Matthew J Schiewer,
Felix Y Feng,
Scott A Tomlins,
Erhe Gao,
Walter J Koch,
Jeffrey L Benovic,
John Alan Diehl,
Karen E Knudsen

Affiliations

Michael A Augello: Department of Cancer Biology Thomas Jefferson University Philadelphia PA USA
Lisa D Berman‐Booty: Department of Cancer Biology Thomas Jefferson University Philadelphia PA USA
Richard Carr 3rd: Kimmel Cancer Center Thomas Jefferson University Philadelphia PA USA
Akihiro Yoshida: Medical University of South Carolina Charleston SC USA
Jeffry L Dean: Department of Cancer Biology Thomas Jefferson University Philadelphia PA USA
Matthew J Schiewer: Department of Cancer Biology Thomas Jefferson University Philadelphia PA USA
Felix Y Feng: Michigan Center for Translational Pathology University of Michigan Medical Center Ann Arbor MI USA
Scott A Tomlins: Michigan Center for Translational Pathology University of Michigan Medical Center Ann Arbor MI USA
Erhe Gao: Pharmacology & Center for Translational Medicine Philadelphia PA USA
Walter J Koch: Pharmacology & Center for Translational Medicine Philadelphia PA USA
Jeffrey L Benovic: Kimmel Cancer Center Thomas Jefferson University Philadelphia PA USA
John Alan Diehl: Medical University of South Carolina Charleston SC USA
Karen E Knudsen: Department of Cancer Biology Thomas Jefferson University Philadelphia PA USA

DOI: https://doi.org/10.15252/emmm.201404242
Journal volume & issue: Vol. 7, no. 5
pp. 628 – 647

Abstract

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Abstract Clinical evidence suggests that cyclin D1b, a variant of cyclin D1, is associated with tumor progression and poor outcome. However, the underlying molecular basis was unknown. Here, novel models were created to generate a genetic switch from cyclin D1 to cyclin D1b. Extensive analyses uncovered overlapping but non‐redundant functions of cyclin D1b compared to cyclin D1 on developmental phenotypes, and illustrated the importance of the transcriptional regulatory functions of cyclin D1b in vivo. Data obtained identify cyclin D1b as an oncogene, wherein cyclin D1b expression under the endogenous promoter induced cellular transformation and further cooperated with known oncogenes to promote tumor growth in vivo. Further molecular interrogation uncovered unexpected links between cyclin D1b and the DNA damage/PARP1 regulatory networks, which could be exploited to suppress cyclin D1b‐driven tumors. Collectively, these data are the first to define the consequence of cyclin D1b expression on normal cellular function, present evidence for cyclin D1b as an oncogene, and provide pre‐clinical evidence of effective methods to thwart growth of cells dependent upon this oncogenic variant.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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