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neuron reprogramming

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https://www.readbyqxmd.com/read/28634230/similarity-in-gene-regulatory-networks-suggests-that-cancer-cells-share-characteristics-of-embryonic-neural-cells
#1
Zan Zhang, Anhua Lei, Liyang Xu, Lu Chen, Yonglong Chen, Xuena Zhang, Yan Gao, Xiaoli Yang, Min Zhang, Ying Cao
Cancer cells are immature cells resulting from cellular reprogramming by gene misregulation, and re-differentiation is expected to reduce malignancy. It is unclear, however, whether cancer cells can undergo terminal differentiation. Here, we show that, inhibition of the epigenetic modification enzymes enhancer of zeste homolog 2 (EZH2), histone deacetylases (HDACs) 1 and 3, lysine demethylase 1A (LSD1), or DNA methyltransferase 1 (DNMT1), which all promote cancer development and progression, leads to postmitotic neuron-like differentiation with loss of malignant features in distinct solid cancer cell lines...
June 20, 2017: Journal of Biological Chemistry
https://www.readbyqxmd.com/read/28627365/mitochondria-metabolic-reprogramming-in-the-formation-of-neurons-from-peripheral-cells-cause-or-consequence-and-the-implications-to-their-utility
#2
REVIEW
Gary E Gibson, Ankita Thakkar
The induction of pluripotent stem cells (iPSC) from differentiated cells such as fibroblasts and their subsequent conversion to neural progenitor cells (NPC) and finally to neurons is intriguing scientifically, and its potential to medicine nearly infinite, but unrealized. A better understanding of the changes at each step of the transformation will enable investigators to use them better to model neurological disease. Each step of conversion from a differentiated cell to an iPSC to a NPC to neurons requires large changes in glycolysis including aerobic glycolysis, the pentose shunt, the tricarboxylic acid cycle, the electron transport chain and in the production of reactive oxygen species (ROS)...
June 13, 2017: Neurochemistry International
https://www.readbyqxmd.com/read/28614042/bnip3l-nix-dependent-mitophagy-regulates-cell-differentiation-via-metabolic-reprogramming
#3
Lorena Esteban-Martínez, Patricia Boya
Macroautophagy/autophagy is the process by which cellular components are degraded and recycled within the lysosome. These components include mitochondria, the selective degradation of which is known as mitophagy. Mitochondria are dynamic organelles that constantly adapt their morphology, function, and number to accommodate the metabolic needs of the cell. Extensive metabolic reconfiguration occurs during cell differentiation, when mitochondrial activity increases in most cell types. However, our data demonstrate that during physiological retinal ganglion cell (RGC) development, mitophagy-dependent metabolic reprogramming towards glycolysis regulates numbers of RGCs, which are the first neurons to differentiate in the retina and whose axons form the optic nerve...
June 14, 2017: Autophagy
https://www.readbyqxmd.com/read/28602612/lineage-reprogramming-of-astroglial-cells-from-different-origins-into-distinct-neuronal-subtypes
#4
Malek Chouchane, Ana Raquel Melo de Farias, Daniela Maria de Sousa Moura, Markus Michael Hilscher, Timm Schroeder, Richardson Naves Leão, Marcos Romualdo Costa
Astroglial cells isolated from the rodent postnatal cerebral cortex are particularly susceptible to lineage reprogramming into neurons. However, it remains unknown whether other astroglial populations retain the same potential. Likewise, little is known about the fate of induced neurons (iNs) in vivo. In this study we addressed these questions using two different astroglial populations isolated from the postnatal brain reprogrammed either with Neurogenin-2 (Neurog2) or Achaete scute homolog-1 (Ascl1). We show that cerebellum (CerebAstro) and cerebral cortex astroglia (CtxAstro) generates iNs with distinctive neurochemical and morphological properties...
June 5, 2017: Stem Cell Reports
https://www.readbyqxmd.com/read/28597071/the-novel-tool-of-cell-reprogramming-for-applications-in-molecular-medicine
#5
REVIEW
Moritz Mall, Marius Wernig
Recent discoveries in the field of stem cell biology have enabled scientists to "reprogram" cells from one type to another. For example, it is now possible to place adult skin or blood cells in a dish and convert them into neurons, liver, or heart cells. It is also possible to literally "rejuvenate" adult cells by reprogramming them into embryonic-like stem cells, which in turn can be differentiated into every tissue and cell type of the human body. Our ability to reprogram cell types has four main implications for medicine: (1) scientists can now take skin or blood cells from patients and convert them to other cells to study disease processes...
June 8, 2017: Journal of Molecular Medicine: Official Organ of the "Gesellschaft Deutscher Naturforscher und Ärzte"
https://www.readbyqxmd.com/read/28593578/induced-pluripotent-stem-cell-based-modeling-of-neurodegenerative-diseases-a-focus-on-autophagy
#6
REVIEW
Johannes Jungverdorben, Andreas Till, Oliver Brüstle
The advent of cell reprogramming has enabled the generation of induced pluripotent stem cells (iPSCs) from patient skin fibroblasts or blood cells and their subsequent differentiation into tissue-specific cells, including neurons and glia. This approach can be used to recapitulate disease-specific phenotypes in classical cell culture paradigms and thus represents an invaluable asset for disease modeling and drug validation in the framework of personalized medicine. The autophagy pathway is a ubiquitous eukaryotic degradation and recycling system, which relies on lysosomal degradation of unwanted and potentially cytotoxic components...
June 7, 2017: Journal of Molecular Medicine: Official Organ of the "Gesellschaft Deutscher Naturforscher und Ärzte"
https://www.readbyqxmd.com/read/28592657/induced-pluripotent-stem-cell-models-of-lysosomal-storage-disorders
#7
REVIEW
Daniel K Borger, Benjamin McMahon, Tamanna Roshan Lal, Jenny Serra-Vinardell, Elma Aflaki, Ellen Sidransky
Induced pluripotent stem cells (iPSCs) have provided new opportunities to explore the cell biology and pathophysiology of human diseases, and the lysosomal storage disorder research community has been quick to adopt this technology. Patient-derived iPSC models have been generated for a number of lysosomal storage disorders, including Gaucher disease, Pompe disease, Fabry disease, metachromatic leukodystrophy, the neuronal ceroid lipofuscinoses, Niemann-Pick types A and C1, and several of the mucopolysaccharidoses...
June 1, 2017: Disease Models & Mechanisms
https://www.readbyqxmd.com/read/28585386/understanding-neurodevelopmental-disorders-using-human-pluripotent-stem-cell-derived-neurons
#8
Claudia Tamburini, Meng Li
Research into psychiatric disorders has long been hindered by the lack of appropriate models. Induced pluripotent stem cells (iPSCs) offer an unlimited source of patient-specific cells, which in principle can be differentiated into all disease-relevant somatic cell types to create in vitro models of the disorder of interest. Here, neuronal differentiation protocols available for this purpose and the current progress on iPSCs-based models of schizophrenia, autism spectrum disorders and bipolar disorder were reviewed...
July 2017: Brain Pathology
https://www.readbyqxmd.com/read/28585381/modeling-parkinson-s-disease-with-induced-pluripotent-stem-cells-harboring-%C3%AE-synuclein-mutations
#9
Karamjit Singh Dolt, Fella Hammachi, Tilo Kunath
Parkinson's disease (PD) is a common neurodegenerative condition affecting more than 8 million people worldwide. Although, the majority of PD cases are sporadic in nature, there are a growing number of monogenic mutations identified to cause PD in a highly penetrant manner. Many of these familial mutations give rise to a condition that is clinically and neuropathologically similar, if not identical, to sporadic PD. Mutations in genes such as SNCA cause PD in an autosomal dominant manner and patients have motor and non-motor symptoms that are typical for sporadic PD...
July 2017: Brain Pathology
https://www.readbyqxmd.com/read/28580186/mash1-dependent-notch-signaling-pathway-regulates-gabaergic-neuron-like-differentiation-from-bone-marrow-derived-mesenchymal-stem-cells
#10
Qianfa Long, Qiang Luo, Kai Wang, Adrian Bates, Ashok K Shetty
GABAergic neuronal cell grafting has promise for treating a multitude of neurological disorders including epilepsy, age-related memory dysfunction, Alzheimer's disease and schizophrenia. However, identification of an unlimited source of GABAergic cells is critical for advancing such therapies. Our previous study implied that reprogramming of bone marrow-derived mesenchymal stem cells (BMSCs) through overexpression of the Achaete-scute homolog 1 (Ascl1, also called Mash1) could generate GABAergic neuron-like cells...
May 2017: Aging and Disease
https://www.readbyqxmd.com/read/28580167/sequential-emt-met-induces-neuronal-conversion-through-sox2
#11
Songwei He, Jinlong Chen, Yixin Zhang, Mengdan Zhang, Xiao Yang, Yuan Li, Hao Sun, Lilong Lin, Ke Fan, Lining Liang, Chengqian Feng, Fuhui Wang, Xiao Zhang, Yiping Guo, Duanqing Pei, Hui Zheng
Direct neuronal conversion can be achieved with combinations of small-molecule compounds and growth factors. Here, by studying the first or induction phase of the neuronal conversion induced by defined 5C medium, we show that the Sox2-mediated switch from early epithelial-mesenchymal transition (EMT) to late mesenchymal-epithelial transition (MET) within a high proliferation context is essential and sufficient for the conversion from mouse embryonic fibroblasts (MEFs) to TuJ(+) cells. At the early stage, insulin and basic fibroblast growth factor (bFGF)-induced cell proliferation, early EMT, the up-regulation of Stat3 and Sox2, and the subsequent activation of neuron projection...
2017: Cell Discovery
https://www.readbyqxmd.com/read/28577895/sox2-regulates-m%C3%A3-ller-glia-reprogramming-and-proliferation-in-the-regenerating-zebrafish-retina-via-lin28-and-ascl1a
#12
Ryne A Gorsuch, Manuela Lahne, Clare E Yarka, Michael E Petravick, Jingling Li, David R Hyde
Sox2 is a well-established neuronal stem cell-associated transcription factor that regulates neural development and adult neurogenesis in vertebrates, and is one of the critical genes used to reprogram differentiated cells into induced pluripotent stem cells. We examined if Sox2 was involved in the early reprogramming-like events that Müller glia undergo as they upregulate many pluripotency- and neural stem cell-associated genes required for proliferation in light-damaged adult zebrafish retinas. In the undamaged adult zebrafish retina, Sox2 is expressed in Müller glia and a subset of amacrine cells, similar to other vertebrates...
May 31, 2017: Experimental Eye Research
https://www.readbyqxmd.com/read/28554399/transplantation-of-reprogrammed-neurons-for-improved-recovery-after-stroke
#13
Zaal Kokaia, Daniel Tornero, Olle Lindvall
Somatic cells such as fibroblasts, reprogrammed to induced pluripotent stem cells, can be used to generate neural stem/progenitor cells or neuroblasts for transplantation. In this review, we summarize recent studies demonstrating that when grafted intracerebrally in animal models of stroke, reprogrammed neurons improve function, probably by several different mechanisms, e.g., trophic actions, modulation of inflammation, promotion of angiogenesis, cellular and synaptic plasticity, and neuroprotection. In our own work, we have shown that human skin-derived reprogrammed neurons, fated to cortical progeny, integrate in stroke-injured neuronal network and form functional afferent synapses with host neurons, responding to peripheral sensory stimulation...
2017: Progress in Brain Research
https://www.readbyqxmd.com/read/28552396/the-effect-of-histone-acetyl-transferase-inhibitor-trichostatin-a-on-porcine-mesenchymal-stem-cell-transcriptome
#14
Artur Gurgul, Jolanta Opiela, Klaudia Pawlina, Tomasz Szmatoła, Michał Bochenek, Monika Bugno-Poniewierska
The use of histone acetyl-transferase inhibitors such as trichostatin A (TSA) for epigenetic transformation of mesenchymal stem cells (MSCs), whose nuclei will be transferred into enucleated oocytes, is a novel approach in research involving somatic cell cloning of pigs and other mammalian species. Although the effectiveness of TSA in cloning applications was confirmed, processes and mechanisms underlying achieved effects are not yet fully understood, especially for pig MSCs. To contribute to this knowledge, in this study we performed a comprehensive transcriptome analysis using high-throughput sequencing of pig bone-marrow derived MSCs, both treated and untreated with TSA, and evaluated the effect of TSA administration on their transcription profile after 24 h of in vitro culture...
May 25, 2017: Biochimie
https://www.readbyqxmd.com/read/28552236/brain-repair-from-intrinsic-cell-sources-turning-reactive-glia-into-neurons
#15
Olof Torper, Magdalena Götz
The replacement of lost neurons in the brain due to injury or disease holds great promise for the treatment of neurological disorders. However, logistical and ethical hurdles in obtaining and maintaining viable cells for transplantation have proven difficult to overcome. In vivo reprogramming offers an alternative, to bypass many of the restrictions associated with an exogenous cell source as it relies on a source of cells already present in the brain. Recent studies have demonstrated the possibility to target and reprogram glial cells into functional neurons with high efficiency in the murine brain, using virally delivered transcription factors...
2017: Progress in Brain Research
https://www.readbyqxmd.com/read/28552235/reprogramming-of-somatic-cells-ips-and-in-cells
#16
Vania Broccoli
Limited access to human neurons has posed a significant barrier to progress in biological and preclinical studies of the human nervous system. The advent of cell reprogramming technologies has widely disclosed unprecedented opportunities to generate renewable sources of human neural cells for disease modeling, drug discovery, and cell therapeutics. Both somatic reprogramming into induced pluripotent stem cells (iPSCs) and directly induced Neurons (iNeurons) rely on transcription factor-based cellular conversion processes...
2017: Progress in Brain Research
https://www.readbyqxmd.com/read/28551750/modelling-autistic-neurons-with-induced-pluripotent-stem-cells
#17
Annie Kathuria, Carlo Sala, Chiara Verpelli, Jack Price
Autism spectrum disorder (ASD) is a neurodevelopmental condition that affects more than 1% of children per current estimates. It has been characterised by the following two core behavioural phenotypes: (1) deficits in social interaction and communication and (2) repetitive behaviours, restricted interests and activities. Due to the complex nature of ASD, there are currently no effective treatments. The reason behind this is the clinical and genetic heterogeneity between affected individuals on the one hand and the lack of understanding of the underpinning pathophysiological mechanisms on the other hand...
2017: Advances in Anatomy, Embryology, and Cell Biology
https://www.readbyqxmd.com/read/28536395/cellular-and-molecular-preconditions-for-retinal-pigment-epithelium-rpe-natural-reprogramming-during-retinal-regeneration-in-urodela
#18
REVIEW
Eleonora N Grigoryan, Yuliya V Markitantova
Many regeneration processes in animals are based on the phenomenon of cell reprogramming followed by proliferation and differentiation in a different specialization direction. An insight into what makes natural (in vivo) cell reprogramming possible can help to solve a number of biomedical problems. In particular, the first problem is to reveal the intrinsic properties of the cells that are necessary and sufficient for reprogramming; the second, to evaluate these properties and, on this basis, to reveal potential endogenous sources for cell substitution in damaged tissues; and the third, to use the acquired data for developing approaches to in vitro cell reprogramming in order to obtain a cell reserve for damaged tissue repair...
December 1, 2016: Biomedicines
https://www.readbyqxmd.com/read/28515690/brain-renin-angiotensin-system-and-microglial-polarization-implications-for-aging-and-neurodegeneration
#19
REVIEW
Jose L Labandeira-Garcia, Ana I Rodríguez-Perez, Pablo Garrido-Gil, Jannette Rodriguez-Pallares, Jose L Lanciego, Maria J Guerra
Microglia can transform into proinflammatory/classically activated (M1) or anti-inflammatory/alternatively activated (M2) phenotypes following environmental signals related to physiological conditions or brain lesions. An adequate transition from the M1 (proinflammatory) to M2 (immunoregulatory) phenotype is necessary to counteract brain damage. Several factors involved in microglial polarization have already been identified. However, the effects of the brain renin-angiotensin system (RAS) on microglial polarization are less known...
2017: Frontiers in Aging Neuroscience
https://www.readbyqxmd.com/read/28507260/reprogramming-cells-from-gulf-war-veterans-into-neurons-to-study-gulf-war-illness
#20
Liang Qiang, Anand N Rao, Gustavo Mostoslavsky, Marianne F James, Nicole Comfort, Kimberly Sullivan, Peter W Baas
Gulf War illness (GWI), which afflicts at least 25% of veterans who served in the 1990-1991 war in the Persian Gulf, is thought to be caused by deployment exposures to various neurotoxicants, including pesticides, anti-nerve gas pills, and low-level nerve agents including sarin/cyclosarin. GWI is a multisymptom disorder characterized by fatigue, joint pain, cognitive problems, and gastrointestinal complaints. The most prominent symptoms of GWI (memory problems, poor attention/concentration, chronic headaches, mood alterations, and impaired sleep) suggest that the disease primarily affects the CNS...
May 16, 2017: Neurology
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