Molecular competition in G1 controls when cells simultaneously commit to terminally differentiate and exit the cell-cycle
Michael L Zhao,Atefeh Rabiee,Kyle M. Kovary,Zahra Bahrami-Nejad,Brooks Taylor,Mary N. Teruel +5 more
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A rapid switch mechanism engages exclusively in G1 to trigger a simultaneous commitment to differentiate and permanently exit from the cell cycle and the differentiation control system is able to couple mitogen and differentiation stimuli to sustain a long-term balance between terminally differentiating cells and maintaining the progenitor cell pool.Abstract:
Terminal differentiation is essential for the development and maintenance of tissues in all multi-cellular organisms and is associated with a permanent exit from the cell cycle. Failure to permanently exit the cell cycle can result in cancer and disease. However, the molecular mechanisms and timing that coordinates differentiation commitment and cell cycle exit are not yet understood. Here using adipogenesis as a model system to track differentiation commitment in live cells, we show that a rapid switch mechanism engages exclusively in G1 to trigger a simultaneous commitment to differentiate and permanently exit from the cell cycle. We identify a signal integration mechanism whereby the strengths of both mitogen and differentiation stimuli control a molecular competition between cyclin D1 and PPARG-induced expression of the CDK inhibitor p21 which in turn regulates if and when the differentiation switch is triggered and when the proliferative window closes. In this way, the differentiation control system is able to couple mitogen and differentiation stimuli to sustain a long-term balance between terminally differentiating cells and maintaining the progenitor cell pool, a parameter of critical importance for enabling proper development of tissue domains and organs.read more
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miRNAs as cornerstones in adipogenesis and obesity.
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Early enforcement of cell identity by a functional component of the terminally differentiated state
Zahra Bahrami-Nejad,Tiffany A Chen,Tiffany A Chen,Stefan Tholen,Zijian Zhang,Zijian Zhang,Atefeh Rabiee,Michael L Zhao,Fredric B. Kraemer,Mary N. Teruel,Mary N. Teruel +10 more
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Regulation of p21WAF1/CIP1 Stability by WISp39, a Hsp90 Binding TPR Protein
Thomas Jascur,Howard Brickner,Isabelle Salles-Passador,Valerie Barbier,Abdelhamid El Khissiin,Brian J. Smith,Rati Fotedar,Arun Fotedar +7 more
TL;DR: The results demonstrate the importance of posttranslational stabilization of p21 protein by WISp39 in regulating cellular p21 activity and suggest that WIS p39 recruits Hsp90 to regulate p21protein stability.
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Loss of cyclin-dependent kinase inhibitors produces adipocyte hyperplasia and obesity
Afia Naaz,Denise R. Holsberger,Gary A. Iwamoto,Amanda J. Nelson,Hiroaki Kiyokawa,Paul S. Cooke +5 more
TL;DR: In this paper, the role of cyclin-dependent kinase inhibitors (CDKIs) in obesity and how normal adipocyte number is established is unclear. But, the authors suggest that CDKIs may regulate establishment of adipocyte numbers in vivo.
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Cell cycle regulation of proliferation versus differentiation in the central nervous system
TL;DR: The modes of proliferation in neural progenitor cells are introduced and evidence linking cell cycle length and neuronal differentiation is summarised, describing the manner in which components of the cell cycle machinery can have additional and, sometimes, cell-cycle-independent roles in directly regulating neurogenesis.
Journal ArticleDOI
Up-regulation of p21 Gene Expression by Peroxisome Proliferator-Activated Receptor γ in Human Lung Carcinoma Cells
TL;DR: PPARγ ligands inhibit human lung carcinoma cell growth and induce apoptosis by stimulating the cyclin-dependent kinase inhibitor p21 and by reducing cyclin D1 gene expression, revealing a mechanism for p21 gene regulation in lung carcinomas that represents a potential target for therapy.
Journal ArticleDOI
Neurogenin3 inhibits proliferation in endocrine progenitors by inducing Cdkn1a
TL;DR: A crucial role for Neurog3 is revealed in regulating the cell cycle during the differentiation of islet cells and it is demonstrated that the subsequent down-regulation of neurog3 allows the mature islet cell population to expand.