Myogenic differentiation triggers PML nuclear body loss and DAXX relocalization to chromocentres

Jayme Salsman; Lindsy M. Rapkin; Nandini N. Margam; Roy Duncan; David P. Bazett-Jones; Graham Dellaire

doi:10.1038/cddis.2017.151

Myogenic differentiation triggers PML nuclear body loss and DAXX relocalization to chromocentres

Jayme Salsman, Lindsy M. Rapkin, Nandini N. Margam, Roy Duncan, David P. Bazett-Jones, Graham Dellaire

Medicine

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16 Citas (Scopus)

Resumen

The promyelocytic leukemia protein (PML) is expressed in most normal human tissues and forms nuclear bodies (NBs) that have roles in gene regulation and cellular processes such as DNA repair, cell cycle control, and cell fate decisions. Using murine C2C12 myoblasts, we demonstrate that activation of skeletal muscle differentiation results in loss of PML and PML NBs prior to myotube fusion. Myotube formation was associated with marked chromatin reorganization and the relocalization of DAXX from PML NBs to chromocentres. MyoD expression was sufficient to cause PML NB loss, and silencing of PML induced DAXX relocalization. Fusion of C2C12 cells using the reptilian reovirus p14 fusogenic protein failed to disrupt PML NBs yet still promoted DAXX redistribution and loss; whereas ectopic expression of PML in differentiated cells only partially restored PML NB formation and DAXX localization at NBs. Finally, we determined that the C-terminal SUMO-interacting motif of DAXX is required for its colocalization with ATRX in heterochromatin domains during myotube formation. These data support a model in which activation of myogenic differentiation results in PML NB loss, chromatin reorganization and DAXX relocalization, and provides a paradigm for understanding the consequence of PML loss in other cellular contexts, such as during cancer development and progression.

Idioma original	English
Número de artículo	e2724
Publicación	Cell Death and Disease
Volumen	8
N.º	3
DOI	https://doi.org/10.1038/cddis.2017.151
Estado	Published - 2017

Nota bibliográfica

Funding Information:
Acknowledgements. This research was funded by operating grants from the Canadian Institutes of Health Research (CIHR) to GD (MOP-84260), and DPB-J (FRN111153). GD is a Senior Scientist of the Beatrice Hunter Cancer Research Institute (BHCRI) and DPB-J is the recipient of the Canada Research Chair in Molecular and Cellular Imaging. JS was a recipient of a BHCRI postdoctoral fellowship made possible by the Harvey Graham Cancer Research Fund as part of the Terry Fox Foundation Strategic Health Research Training Program in Cancer Research at CIHR.

Publisher Copyright:
© The Author(s) 2017.

ASJC Scopus Subject Areas

Immunology
Cellular and Molecular Neuroscience
Cell Biology
Cancer Research

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title = "Myogenic differentiation triggers PML nuclear body loss and DAXX relocalization to chromocentres",

abstract = "The promyelocytic leukemia protein (PML) is expressed in most normal human tissues and forms nuclear bodies (NBs) that have roles in gene regulation and cellular processes such as DNA repair, cell cycle control, and cell fate decisions. Using murine C2C12 myoblasts, we demonstrate that activation of skeletal muscle differentiation results in loss of PML and PML NBs prior to myotube fusion. Myotube formation was associated with marked chromatin reorganization and the relocalization of DAXX from PML NBs to chromocentres. MyoD expression was sufficient to cause PML NB loss, and silencing of PML induced DAXX relocalization. Fusion of C2C12 cells using the reptilian reovirus p14 fusogenic protein failed to disrupt PML NBs yet still promoted DAXX redistribution and loss; whereas ectopic expression of PML in differentiated cells only partially restored PML NB formation and DAXX localization at NBs. Finally, we determined that the C-terminal SUMO-interacting motif of DAXX is required for its colocalization with ATRX in heterochromatin domains during myotube formation. These data support a model in which activation of myogenic differentiation results in PML NB loss, chromatin reorganization and DAXX relocalization, and provides a paradigm for understanding the consequence of PML loss in other cellular contexts, such as during cancer development and progression.",

author = "Jayme Salsman and Rapkin, {Lindsy M.} and Margam, {Nandini N.} and Roy Duncan and Bazett-Jones, {David P.} and Graham Dellaire",

note = "Funding Information: Acknowledgements. This research was funded by operating grants from the Canadian Institutes of Health Research (CIHR) to GD (MOP-84260), and DPB-J (FRN111153). GD is a Senior Scientist of the Beatrice Hunter Cancer Research Institute (BHCRI) and DPB-J is the recipient of the Canada Research Chair in Molecular and Cellular Imaging. JS was a recipient of a BHCRI postdoctoral fellowship made possible by the Harvey Graham Cancer Research Fund as part of the Terry Fox Foundation Strategic Health Research Training Program in Cancer Research at CIHR. Publisher Copyright: {\textcopyright} The Author(s) 2017.",

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AU - Duncan, Roy

AU - Bazett-Jones, David P.

AU - Dellaire, Graham

N1 - Funding Information: Acknowledgements. This research was funded by operating grants from the Canadian Institutes of Health Research (CIHR) to GD (MOP-84260), and DPB-J (FRN111153). GD is a Senior Scientist of the Beatrice Hunter Cancer Research Institute (BHCRI) and DPB-J is the recipient of the Canada Research Chair in Molecular and Cellular Imaging. JS was a recipient of a BHCRI postdoctoral fellowship made possible by the Harvey Graham Cancer Research Fund as part of the Terry Fox Foundation Strategic Health Research Training Program in Cancer Research at CIHR. Publisher Copyright: © The Author(s) 2017.

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Myogenic differentiation triggers PML nuclear body loss and DAXX relocalization to chromocentres

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