Literature DB >> 24598160

Plk2 regulates mitotic spindle orientation and mammary gland development.

Elizabeth Villegas1, Elena B Kabotyanski, Amy N Shore, Chad J Creighton, Thomas F Westbrook, Jeffrey M Rosen.   

Abstract

Disruptions in polarity and mitotic spindle orientation contribute to the progression and evolution of tumorigenesis. However, little is known about the molecular mechanisms regulating these processes in vivo. Here, we demonstrate that Polo-like kinase 2 (Plk2) regulates mitotic spindle orientation in the mammary gland and that this might account for its suggested role as a tumor suppressor. Plk2 is highly expressed in the mammary gland and is required for proper mammary gland development. Loss of Plk2 leads to increased mammary epithelial cell proliferation and ductal hyperbranching. Additionally, a novel role for Plk2 in regulating the orientation of the mitotic spindle and maintaining proper cell polarity in the ductal epithelium was discovered. In support of a tumor suppressor function for Plk2, loss of Plk2 increased the formation of lesions in multiparous glands. Collectively, these results demonstrate a novel role for Plk2 in regulating mammary gland development.

Entities:  

Keywords:  Mammary gland development; Plk2; Spindle orientation

Mesh:

Substances:

Year:  2014        PMID: 24598160      PMCID: PMC3957376          DOI: 10.1242/dev.108258

Source DB:  PubMed          Journal:  Development        ISSN: 0950-1991            Impact factor:   6.868


  45 in total

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Authors:  Jayanta Debnath; Kenna R Mills; Nicole L Collins; Mauricio J Reginato; Senthil K Muthuswamy; Joan S Brugge
Journal:  Cell       Date:  2002-10-04       Impact factor: 41.582

2.  Statistical significance for genomewide studies.

Authors:  John D Storey; Robert Tibshirani
Journal:  Proc Natl Acad Sci U S A       Date:  2003-07-25       Impact factor: 11.205

3.  Plk2 regulates centriole duplication through phosphorylation-mediated degradation of Fbxw7 (human Cdc4).

Authors:  Onur Cizmecioglu; Annekatrin Krause; Ramona Bahtz; Lena Ehret; Nisar Malek; Ingrid Hoffmann
Journal:  J Cell Sci       Date:  2012-03-07       Impact factor: 5.285

4.  Identification of the human homologue of the early-growth response gene Snk, encoding a serum-inducible kinase.

Authors:  K Liby; H Wu; B Ouyang; S Wu; J Chen; W Dai
Journal:  DNA Seq       Date:  2001

Review 5.  The loss of estrogen and progesterone receptor gene expression in human breast cancer.

Authors:  R G Lapidus; S J Nass; N E Davidson
Journal:  J Mammary Gland Biol Neoplasia       Date:  1998-01       Impact factor: 2.673

6.  Disruption of steroid and prolactin receptor patterning in the mammary gland correlates with a block in lobuloalveolar development.

Authors:  Sandra L Grimm; Tiffany N Seagroves; Elena B Kabotyanski; Russell C Hovey; Barbara K Vonderhaar; John P Lydon; Keiko Miyoshi; Lothar Hennighausen; Christopher J Ormandy; Adrian V Lee; Malinda A Stull; Teresa L Wood; Jeffrey M Rosen
Journal:  Mol Endocrinol       Date:  2002-12

7.  Role of Plk2 (Snk) in mouse development and cell proliferation.

Authors:  Sheng Ma; Jean Charron; Raymond L Erikson
Journal:  Mol Cell Biol       Date:  2003-10       Impact factor: 4.272

8.  The mineralocorticoid receptor may compensate for the loss of the glucocorticoid receptor at specific stages of mammary gland development.

Authors:  Michelle Kingsley-Kallesen; Sudit S Mukhopadhyay; Shannon L Wyszomierski; Susan Schanler; Günther Schütz; Jeffrey M Rosen
Journal:  Mol Endocrinol       Date:  2002-09

9.  ABL1 regulates spindle orientation in adherent cells and mammalian skin.

Authors:  Shigeru Matsumura; Mayumi Hamasaki; Takuya Yamamoto; Miki Ebisuya; Mizuho Sato; Eisuke Nishida; Fumiko Toyoshima
Journal:  Nat Commun       Date:  2012-01-17       Impact factor: 14.919

10.  Basal-like Breast cancer DNA copy number losses identify genes involved in genomic instability, response to therapy, and patient survival.

Authors:  Victor J Weigman; Hann-Hsiang Chao; Andrey A Shabalin; Xiaping He; Joel S Parker; Silje H Nordgard; Tatyana Grushko; Dezheng Huo; Chika Nwachukwu; Andrew Nobel; Vessela N Kristensen; Anne-Lise Børresen-Dale; Olufunmilayo I Olopade; Charles M Perou
Journal:  Breast Cancer Res Treat       Date:  2011-11-03       Impact factor: 4.872
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  16 in total

Review 1.  Polo-like kinases: structural variations lead to multiple functions.

Authors:  Sihem Zitouni; Catarina Nabais; Swadhin Chandra Jana; Adán Guerrero; Mónica Bettencourt-Dias
Journal:  Nat Rev Mol Cell Biol       Date:  2014-07       Impact factor: 94.444

Review 2.  Spindle positioning and its impact on vertebrate tissue architecture and cell fate.

Authors:  Terry Lechler; Marina Mapelli
Journal:  Nat Rev Mol Cell Biol       Date:  2021-06-22       Impact factor: 94.444

3.  The influence of retinoic acid-induced differentiation on the radiation response of male germline stem cells.

Authors:  Yi Zheng; Qijing Lei; Aldo Jongejan; Callista L Mulder; Saskia K M van Daalen; Sebastiaan Mastenbroek; Grace Hwang; Philip W Jordan; Sjoerd Repping; Geert Hamer
Journal:  DNA Repair (Amst)       Date:  2018-08-28

4.  The Transcriptome of Estrogen-Independent Mammary Growth in Female Mice Reveals That Not All Mammary Glands Are Created Equally.

Authors:  Grace E Berryhill; Danielle G Lemay; Josephine F Trott; Lucila Aimo; Adam L Lock; Russell C Hovey
Journal:  Endocrinology       Date:  2017-10-01       Impact factor: 4.736

5.  Connexin 43 maintains tissue polarity and regulates mitotic spindle orientation in the breast epithelium.

Authors:  D Bazzoun; H A Adissu; L Wang; A Urazaev; I Tenvooren; S F Fostok; S Chittiboyina; J Sturgis; K Hodges; G Chandramouly; P-A Vidi; R S Talhouk; S A Lelièvre
Journal:  J Cell Sci       Date:  2019-05-16       Impact factor: 5.285

6.  HAUS Augmin-Like Complex Subunit 1 Influences Tumour Microenvironment and Prognostic Outcomes in Glioma.

Authors:  Qi Yao; Xinqi Ge; Zhichao Lu; Jinlong Shi; Jianhong Shen; Jian Chen
Journal:  J Oncol       Date:  2022-07-12       Impact factor: 4.501

7.  Tumor suppressor PLK2 may serve as a biomarker in triple-negative breast cancer for improved response to PLK1 therapeutics.

Authors:  Yang Gao; Elena B Kabotyanski; Jonathan H Shepherd; Elizabeth Villegas; Deanna Acosta; Clark Hamor; Tingting Sun; Celina Montmeyor-Garcia; Xiaping He; Lacey E Dobrolecki; Thomas F Westbrook; Michael T Lewis; Susan G Hilsenbeck; Xiang H-F Zhang; Charles M Perou; Jeffrey M Rosen
Journal:  Cancer Res Commun       Date:  2021-12-27

8.  Identification of the PLK2-dependent phosphopeptidome by quantitative proteomics [corrected].

Authors:  Cinzia Franchin; Luca Cesaro; Lorenzo A Pinna; Giorgio Arrigoni; Mauro Salvi
Journal:  PLoS One       Date:  2014-10-22       Impact factor: 3.240

9.  A Geometrically-Constrained Mathematical Model of Mammary Gland Ductal Elongation Reveals Novel Cellular Dynamics within the Terminal End Bud.

Authors:  Ingrid Paine; Arnaud Chauviere; John Landua; Amulya Sreekumar; Vittorio Cristini; Jeffrey Rosen; Michael T Lewis
Journal:  PLoS Comput Biol       Date:  2016-04-26       Impact factor: 4.475

10.  Proteome Analysis in a Mammalian Cell line Reveals that PLK2 is Involved in Avian Metapneumovirus Type C (aMPV/C)-Induced Apoptosis.

Authors:  Rong Quan; Li Wei; Lei Hou; Jing Wang; Shanshan Zhu; Zixuan Li; Moran Lv; Jue Liu
Journal:  Viruses       Date:  2020-03-28       Impact factor: 5.048
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