Nestin as a regulator of Cdk5 in differentiating myoblasts.
Hanna-Mari Pallari,Julia Lindqvist,Elin Torvaldson,Saima E. Ferraris,Tao He,Cecilia Sahlgren,John E. Eriksson +6 more
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The results show that the intermediate filament protein nestin regulates the early stages of myogenesis by a bidirectional interrelationship between nestin and Cdk5.Abstract:
Many types of progenitor cells are distinguished by the expression of the intermediate filament protein nestin, a frequently used stem cell marker, the physiological roles of which are still unknown. Whereas myogenesis is characterized by dynamically regulated nestin levels, we studied how altering nestin levels affects myoblast differentiation. Nestin determined both the onset and pace of differentiation. Whereas depletion of nestin by RNAi strikingly accelerated the process, overexpression of nestin completely inhibited differentiation. Nestin down-regulation augmented the early stages of differentiation, at the level of cell-cycle withdrawal and expression of myogenic markers, but did not affect proliferation of undifferentiated dividing myoblasts. Nestin regulated the cleavage of the Cdk5 activator protein p35 to its degradation-resistant form, p25. In this way, nestin has the capacity to halt myoblast differentiation by inhibiting sustained activation of Cdk5 by p25, which is critical for the progress of differentiation. Our results imply that nestin regulates the early stages of myogenesis rather than maintains the undifferentiated state of progenitor cells. In the bidirectional interrelationship between nestin and Cdk5, Cdk5 regulates the organization and stability of its own nestin scaffold, which in turn controls the effects of Cdk5. This nestin-Cdk5 cross-talk sets the pace of muscle differentiation.read more
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Nestin-expressing progenitor cells: function, identity and therapeutic implications.
Aurora Bernal,Lorena Arranz +1 more
TL;DR: The current knowledge on the role of Nestin in essential stem cell functions, including self-renewal/proliferation, differentiation and migration, in the context of the cytoskeleton is presented.
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The myogenic kinome: protein kinases critical to mammalian skeletal myogenesis
TL;DR: A scheme of protein kinase activity, similar to that which exists for the myogenic transcription factors, is presented to better clarify the complex signalling that underlies muscle development.
Journal ArticleDOI
Cdk5: multitasking between physiological and pathological conditions.
João P. Lopes,Paula Agostinho +1 more
TL;DR: The role of Cdk5 in neurons is focused on, namely in the regulation of cytoskeletal dynamics, synaptic function and cell survival, both in physiological and in pathological conditions, highlighting the relevance in the main mechanisms of neurodegeneration in Alzheimer's disease and other brain pathologies.
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Nestin: A novel angiogenesis marker and possible target for tumor angiogenesis
TL;DR: Using nestin to more accurately evaluate microvessel density in cancer specimens may be a novel prognostic indicator and nestin-targeted therapy may suppress tumor proliferation via inhibition of angiogenesis in numerous malignancies, including pancreatic cancer.
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Intermediate Filaments as Effectors of Cancer Development and Metastasis: A Focus on Keratins, Vimentin, and Nestin.
TL;DR: This review draws from recent studies focused on three IF proteins most associated with cancer to highlight how several “hallmarks of cancer” described by Hanahan and Weinberg are impacted by IF proteins.
References
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CNS stem cells express a new class of intermediate filament protein.
TL;DR: The predicted amino acid sequence of the nestin gene product shows that nestin defines a distinct sixth class of intermediate filament protein, extending a model in which transitions in intermediate filament gene expression reflect major steps in the pathway of neural differentiation.
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Targeted disruption of the cyclin-dependent kinase 5 gene results in abnormal corticogenesis, neuronal pathology and perinatal death.
Toshio Ohshima,Jerrold M. Ward,Chang Goo Huh,Glenn Longenecker,Veeranna,Harish C. Pant,Roscoe O. Brady,Lee J. Martin,Ashok B. Kulkarni +8 more
TL;DR: Cdk5(-/-) mice exhibit unique lesions in the central nervous system associated with perinatal mortality and also suggest that Cdk5 may play critical roles in neuronal cytoskeleton structure and organization.
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The formation of skeletal muscle: from somite to limb.
Margaret Buckingham,Lola Bajard,Ted Hung-Tse Chang,Philippe Daubas,Juliette Hadchouel,Sigolène M. Meilhac,Didier Montarras,Didier Rocancourt,Frédéric Relaix +8 more
TL;DR: The oligoclonal origin of postnatal muscles points to a small number of founder cells, whether or not these have additional origins to the progenitor cells of the somite which form the first skeletal muscles, as discussed here for the embryonic limb.
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Mice lacking vimentin develop and reproduce without an obvious phenotype
Emma Colucci-Guyon,Marie-Madeleine Portier,Irene Dunia,Denise Paulin,Sandrine Pournin,Charles Babinet +5 more
TL;DR: The introduction of a null mutation of the vimentin gene into the germ line of mice shows that a conspicuous developmental and cell-specific structure that is an integral part of the cytoskeleton can be eliminated without apparent effect on mouse reproduction and development.
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Muscle stem cells in development, regeneration, and disease
Xiaozhong Shi,Daniel J. Garry +1 more
TL;DR: In the present review, studies will be examined that focus on the origin, gene expression, and coordinated regulation of stem cell populations to highlight the regenerative capacity of skeletal muscle and emphasize the challenges for this field.