Actin stress in cell reprogramming

Guo, J.; Wang, Yuexiu; Sachs, Frederick; Meng, Fanjie

doi:10.1073/pnas.1411683111

Cited by 87 publications

(111 citation statements)

References 42 publications

(71 reference statements)

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“…However, it was more recently shown that this might not be necessary insofar as cell lines growing in a matrix can result in high rates of reversion to stem-like cells and this could mean that pluripotency can be produced by modification of the ECM [151], a finding that remains to be replicated.…”

Section: In Vitro and In Vivo Evidencementioning

confidence: 99%

Somatic Mutation Theory - Why it's Wrong for Most Cancers

Brücher¹,

Jamall

2016

Cell Physiol Biochem

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Hysteron proteron reverses both temporal and logical order and this syllogism occurs in carcinogenesis and the somatic mutation theory (SMT): the first (somatic mutation) occurs only after the second (onset of cancer) and, therefore, observed somatic mutations in most cancers appear well after the early cues of carcinogenesis are in place. It is no accident that mutations are increasingly being questioned as the causal event in the origin of the vast majority of cancers as clinical data show little support for this theory when compared against the metrics of patient outcomes. Ever since the discovery of the double helical structure of DNA, virtually all chronic diseases came to be viewed as causally linked to one degree or another to mutations, even though we now know that genes are not simply blueprints, but rather an assemblage of alphabets that can, under non-genetic influences, be used to assemble a business letter or a work of Shakespearean literature. A minority of all cancers is indeed caused by mutations but the SMT has been applied to all cancers, and even to chemical carcinogenesis, in the absence of hard evidence of causality. Herein, we review the 100 year story of SMT and aspects that show why genes are not just blueprints, how radiation and mutation are associated in a more nuanced view, the proposed risk of cancer and bad luck, and the in vitro and in vivo evidence for a new cancer paradigm. This paradigm is scientifically applicable for the majority of non-heritable cancers and consists of a six-step sequence for the origin of cancer. This new cancer paradigm proclaims that somatic mutations are epiphenomena or later events occurring after carcinogenesis is already underway. This serves not just as a plausible alternative to SMT and explains the origin of the majority of cancers, but also provides opportunities for early interventions and prevention of the onset of cancer as a disease.

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Section: In Vitro and In Vivo Evidencementioning

confidence: 99%

Somatic Mutation Theory - Why it's Wrong for Most Cancers

Brücher¹,

Jamall

2016

Cell Physiol Biochem

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“…An angular-dependent probe termed Bcircularly permuted stretch-sensitive Förster resonance energy transfer( cpstFRET) was created by tandem linkage of circularly permutated yellow fluorescent protein (YFP)/Venus and circularly permutated cyan fluorescent protein (CFP)/Cerulean according to our previous reports [27]. The cpstFRET gene was inserted into the pEGFP-C1 vector (Clontech Laboratories, Mountain View, CA, USA) without the enhanced green fluorescent protein (EGFP) gene.…”

Section: Cdna Cloning and Plasmid Constructionmentioning

confidence: 99%

“…Genetically encoded optical-force probes have enabled measurement of intracellular tension in real time. Here, a probe named actin-cpstFRETactin (AcpA) was adopted according to our previous reports [27,30]. This probe is a dipole orientation-based FRET probe composed of a pair of CFP/YFP (cpCerulean/cpVenus), and can be inserted into microfilament skeletons naturally when microfilaments are under assembly in cells.…”

Section: Intracellular Structural Mechanics In Axon Growth Can Be Regmentioning

confidence: 99%

“…Traditional methods such as atomic force microscopy cannot be utilized to measure intracellular or intramolecular forces in real time at the subcellular level [26][27][28]. Therefore, we created Förster resonance energy transfer (FRET)-based tension probes that could be integrated into cytoskeletal proteins and turn changes in structural forces into optical signals to estimate intracellular forces [29][30][31].…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, we created Förster resonance energy transfer (FRET)-based tension probes that could be integrated into cytoskeletal proteins and turn changes in structural forces into optical signals to estimate intracellular forces [29][30][31]. Hence, we could monitor structural forces and analyze the underlying mechanism during growth and regeneration of axons [27,31].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Regulation of Intracellular Structural Tension by Talin in the Axon Growth and Regeneration

et al. 2015

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Intracellular tension is the most important characteristic of neuron polarization as well as the growth and regeneration of axons, which can be generated by motor proteins and conducted along the cytoskeleton. To better understand this process, we created Förster resonance energy transfer (FRET)-based tension probes that can be incorporated into microfilaments to provide a real-time measurement of forces in neuron cytoskeletons. We found that our probe could be used to assess the structural tension of neuron polarity. Nerve growth factor (NGF) upregulated structural forces, whereas the glial-scar inhibitors chondroitin sulfate proteoglycan (CSPG) and aggrecan weakened such forces. Notably, the tension across axons was distributed uniformly and remarkably stronger than that in the cell body in NGF-stimulated neurons. The mechanosensors talin/vinculin could antagonize the effect of glial-scar inhibitors via structural forces. However, E-cadherin was closely associated with glial-scar inhibitor-induced downregulation of structural forces. Talin/vinculin was involved in the negative regulation of E-cadherin transcription through the nuclear factor-kappa B pathway. Collectively, this study clarified the mechanism underlying intracellular tension in the growth and regeneration of axons which, conversely, can be regulated by talin and E-cadherin.

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Cells in the Non‐Uniform Magnetic World: How Cells Respond to High‐Gradient Magnetic Fields

2018

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Imagine cells that live in a high-gradient magnetic field (HGMF). Through what mechanisms do the cells sense a non-uniform magnetic field and how such a field changes the cell fate? We show that magnetic forces generated by HGMFs can be comparable to intracellular forces and therefore may be capable of altering the functionality of an individual cell and tissues in unprecedented ways. We identify the cellular effectors of such fields and propose novel routes in cell biology predicting new biological effects such as magnetic control of cell-to-cell communication and vesicle transport, magnetic control of intracellular ROS levels, magnetically induced differentiation of stem cells, magnetically assisted cell division, or prevention of cells from dividing. On the basis of experimental facts and theoretical modeling we reveal timescales of cellular responses to high-gradient magnetic fields and suggest an explicit dependence of the cell response time on the magnitude of the magnetic field gradient.

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Actin stress in cell reprogramming

Cited by 87 publications

References 42 publications

Somatic Mutation Theory - Why it's Wrong for Most Cancers

Somatic Mutation Theory - Why it's Wrong for Most Cancers

Regulation of Intracellular Structural Tension by Talin in the Axon Growth and Regeneration

Cells in the Non‐Uniform Magnetic World: How Cells Respond to High‐Gradient Magnetic Fields

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