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Muscular Regeneration

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https://www.readbyqxmd.com/read/28089792/pharmacological-inhibition-of-pkc%C3%AE-counteracts-muscle-disease-in-a-mouse-model-of-duchenne-muscular-dystrophy
#1
V Marrocco, P Fiore, A Benedetti, S Pisu, E Rizzuto, A Musarò, L Madaro, B Lozanoska-Ochser, M Bouché
: Inflammation plays a considerable role in the progression of Duchenne Muscular Dystrophy (DMD), a severe muscle disease caused by a mutation in the dystrophin gene. We previously showed that genetic ablation of Protein Kinase C θ (PKCθ) in mdx, the mouse model of DMD, improves muscle healing and regeneration, preventing massive inflammation. To establish whether pharmacological targeting of PKCθ in DMD can be proposed as a therapeutic option, in this study we treated young mdx mice with the PKCθ inhibitor Compound 20 (C20)...
January 7, 2017: EBioMedicine
https://www.readbyqxmd.com/read/28078802/evaluation-of-pva-biodegradable-electric-conductive-membranes-for-nerve-regeneration-in-axonotmesis-injuries-the-rat-sciatic-nerve-animal-model
#2
J Ribeiro, A R Caseiro, T Pereira, Pas Armada-da-Silva, I Pires, J Prada, I Amorim, I Leal Reis, S Amado, J D Santos, S Bompasso, S Raimondo, Asp Varejão, S Geuna, A L Luís, A C Maurício
The therapeutic effect of three polyvinyl alcohol (PVA) membranes loaded with electrically conductive materials - carbon nanotubes (PVA-CNTs) and polypyrrole (PVA-PPy) - were tested in vivo for neuro-muscular regeneration after an axonotmesis injury in the rat sciatic nerve. The membranes electrical conductivity measured was 1.5±0.5x10(-6) S/m, 579±0.6x10(-6) S/m, and 1837.5±0.7 x10(-6) S/m, respectively. At week-12, a residual motor and nociceptive deficit were present in all treated groups, but at week-12, a better recovery to normal gait pattern of the PVA-CNTs and PVA-PPy treated groups was observed...
January 12, 2017: Journal of Biomedical Materials Research. Part A
https://www.readbyqxmd.com/read/28076889/polyurethane-conjugating-tgf-%C3%AE-on-surface-impacts-local-inflammation-and-endoplasmic-reticulum-stress-in-skeletal-muscle
#3
Dandan Shi, Jiangwei Xiao, Ruicai Gu, Gang Wu, Hua Liao
The synthesized short peptide-polymers would provide key functions for tissue regeneration and repair, through enriching bioactive molecules on polymers or releasing these molecules pre-conjugated on the materials. We have developed a degradable PU bearing HSNGLPL peptide, which has affinity binding ability to TGF-β. For deeply understanding spatial release of TGF-β from the PU polymers and its localized bioactivity, QCM and Elisa test were used to verify TGF-β binding capacities in vitro and in vivo. The PU polymers, with or without pre-conjugating of TGF-β, were implanted into gastronomies muscle (GN) of C57BL/6 mice, for addressing TGF-β release from the polymers and its bio-regulating function in vivo...
January 11, 2017: Journal of Biomedical Materials Research. Part A
https://www.readbyqxmd.com/read/28075349/transthyretin-a-transporter-protein-essential-for-proliferation-of-myoblast-in-the-myogenic-program
#4
Eun Ju Lee, Smritee Pokharel, Arif Tasleem Jan, Soyeon Huh, Richelle Galope, Jeong Ho Lim, Dong-Mok Lee, Sung Wook Choi, Sang-Soep Nahm, Yong-Woon Kim, So-Young Park, Inho Choi
Irregularities in the cellular uptake of thyroid hormones significantly affect muscle development and regeneration. Herein, we report indispensable role of transthyretin (TTR) in maintaining cellular thyroxine level. TTR was found to enhance recruitment of muscle satellite cells to the site of injury, thereby regulating muscle regeneration. Fluorescence-activated cell sorting (FACS) and immunofluorescence analysis of TTRwt (TTR wild type) and TTRkd (TTR knock-down) cells revealed that TTR controlled cell cycle progression by affecting the expression of Cyclin A2...
January 8, 2017: International Journal of Molecular Sciences
https://www.readbyqxmd.com/read/28074489/a-novel-nf-%C3%AE%C2%BAb-inhibitor-edasalonexent-cat-1004-in-development-as-a-disease-modifying-treatment-for-patients-with-duchenne-muscular-dystrophy-phase-1-safety-pharmacokinetics-and-pharmacodynamics-in-adult-subjects
#5
Joanne M Donovan, Michael Zimmer, Elliot Offman, Toni Grant, Michael Jirousek
In Duchenne muscular dystrophy (DMD), NF-κB is activated in skeletal muscle from infancy regardless of the underlying dystrophin mutation and drives inflammation and muscle degeneration while inhibiting muscle regeneration. Edasalonexent (CAT-1004) is a bifunctional orally administered small molecule that covalently links 2 compounds known to inhibit NF-κB, salicylic acid and docosahexaenoic acid (DHA). Edasalonexent is designed to inhibit activated NF-κB upon intracellular cleavage to these bioactive components...
January 11, 2017: Journal of Clinical Pharmacology
https://www.readbyqxmd.com/read/28074124/involvement-of-blood-mononuclear-cells-in-the-infertility-age-associated-diseases-and-cancer-treatment
#6
REVIEW
Antonin Bukovsky
Blood mononuclear cells consist of T cells and monocyte derived cells. Beside immunity, the blood mononuclear cells belong to the complex tissue control system (TCS), where they exhibit morphostatic function by stimulating proliferation of tissue stem cells followed by cellular differentiation, that is stopped after attaining the proper functional stage, which differs among various tissue types. Therefore, the term immune and morphostatic system (IMS) should be implied. The TCS-mediated morphostasis also consists of vascular pericytes controlled by autonomic innervation, which is regulating the quantity of distinct tissues in vivo...
December 26, 2016: World Journal of Stem Cells
https://www.readbyqxmd.com/read/28058671/possible-muscle-repair-in-the-human-cardiovascular-system
#7
REVIEW
Linda Sommese, Alberto Zullo, Concetta Schiano, Francesco P Mancini, Claudio Napoli
The regenerative potential of tissues and organs could promote survival, extended lifespan and healthy life in multicellular organisms. Niches of adult stemness are widely distributed and lead to the anatomical and functional regeneration of the damaged organ. Conversely, muscular regeneration in mammals, and humans in particular, is very limited and not a single piece of muscle can fully regrow after a severe injury. Therefore, muscle repair after myocardial infarction is still a chimera. Recently, it has been recognized that epigenetics could play a role in tissue regrowth since it guarantees the maintenance of cellular identity in differentiated cells and, therefore, the stability of organs and tissues...
January 5, 2017: Stem Cell Reviews
https://www.readbyqxmd.com/read/28043812/muscle-weakness-and-fibrosis-due-to-cell-autonomous-and-non-cell-autonomous-events-in-collagen-vi-deficient-congenital-muscular-dystrophy
#8
Satoru Noguchi, Megumu Ogawa, May Christine Malicdan, Ikuya Nonaka, Ichizo Nishino
Congenital muscular dystrophies with collagen VI deficiency are inherited muscle disorders with a broad spectrum of clinical presentation and are caused by mutations in one of COL6A1-3 genes. Muscle pathology is characterized by fiber size variation and increased interstitial fibrosis and adipogenesis. In this study, we define critical events that contribute to muscle weakness and fibrosis in a mouse model with collagen VI deficiency. The Col6a1(GT/GT) mice develop non-progressive weakness from younger age, accompanied by stunted muscle growth due to reduced IGF-1 signaling activity...
February 2017: EBioMedicine
https://www.readbyqxmd.com/read/28027662/redox-control-of-skeletal-muscle-regeneration
#9
Emmeran Le Moal, Vincent Pialoux, Gaëtan Juban, Carole Groussard, Hassan Zouhal, Bénédicte Chazaud, Rémi Mounier
Skeletal muscle shows high plasticity in response to external demand. Moreover, adult skeletal muscle is capable of complete regeneration after injury, due to the properties of Muscle Stem Cells (MuSCs), the satellite cells, which follow a tightly regulated myogenic program to generate both new myofibers and new MuSCs for further needs. Whereas reactive oxygen species (ROS) and reactive nitrogen species (RNS) have long been associated with skeletal muscle physiology, their implication in the cell and molecular processes at work during muscle regeneration is more recent...
December 27, 2016: Antioxidants & Redox Signaling
https://www.readbyqxmd.com/read/28011285/outside-in-the-matrix-as-a-modifier-of-muscular-dystrophy
#10
REVIEW
Mattia Quattrocelli, Melissa J Spencer, Elizabeth M McNally
Muscular dystrophies are genetic conditions leading to muscle degeneration and often, impaired regeneration. Duchenne Muscular Dystrophy is a prototypical form of muscular dystrophy, and like other forms of genetically inherited muscle diseases, pathological progression is variable. Variability in muscular dystrophy can arise from differences in the manner in which the primary mutation impacts the affected protein's function; however, clinical heterogeneity also derives from secondary mutations in other genes that can enhance or reduce pathogenic features of disease...
December 21, 2016: Biochimica et Biophysica Acta
https://www.readbyqxmd.com/read/28003225/muscles-specific-microrna-206-targets-multiple-components-in-dystrophic-skeletal-muscle-representing-beneficial-adaptations
#11
Adel Amirouche, Vanessa E Jahnke, John A Lunde, Nathalie Koulmann, Damien G Freyssenet, Bernard J Jasmin
Over the last several years, converging lines of evidence have indicated that miR-206 plays a pivotal role in promoting muscle differentiation and regeneration, thereby potentially impacting positively on the progression of neuromuscular disorders including Duchenne muscular dystrophy (DMD). Despite several studies showing the regulatory function of miR-206 on target mRNAs in skeletal muscle cells, the effects of overexpression of miR-206 in dystrophic muscles remain to be established. Here, we found that miR-206 overexpression in mdx mouse muscles simultaneously targets multiple mRNAs and proteins implicated in satellite cell differentiation, muscle regeneration, and at the neuromuscular junction...
December 21, 2016: American Journal of Physiology. Cell Physiology
https://www.readbyqxmd.com/read/28001757/photobiomodulation-triple-treatment-in-peripheral-nerve-injury-nerve-and-muscle-response
#12
Mira M Mandelbaum-Livnat, Mara Almog, Moshe Nissan, Emmanuel Loeb, Yuval Shapira, Shimon Rochkind
BACKGROUND: Muscle preservation or decrease in muscle degeneration and progressive atrophy are major challenges in patients with severe peripheral nerve injury (PNI). Considerable interest exists in the potential therapeutic value of laser phototherapy (photobiomodulation) for restoring denervated muscle atrophy and for enhancing regeneration of severely injured peripheral nerves. As previously published, the laser phototherapy has a protective and immediate effect in PNI. Laser phototherapy in the early stages of muscle atrophy may preserve the denervated muscle by maintaining creatinine kinase (CK) activity and the amount of acetylcholine receptor (AChR)...
December 2016: Photomedicine and Laser Surgery
https://www.readbyqxmd.com/read/27956144/self-aggregating-1-8kda-polyethylenimines-with-dissolution-switch-at-endosomal-acidic-ph-are-delivery-carriers-for-plasmid-dna-mrna-sirna-and-exon-skipping-oligonucleotides
#13
Manuela Chiper, Nassera Tounsi, Ryszard Kole, Antoine Kichler, Guy Zuber
Efficiency of polyethylenimine (PEI) for nucleic acid delivery is affected by the size of the carrier and length of the nucleic acids. For instance, PEIs with molecular weights between 10-30kDa provide optimal DNA delivery activity whereas PEIs with molecular weights below 1.8kDa are ineffective. The activity of PEI is also severely diminished by substitution of DNA for shorter nucleic acids such as mRNA or siRNA. Here, through chemical modification of the primary amines to aromatic domains we achieved nucleic acid delivery by the 1...
December 9, 2016: Journal of Controlled Release: Official Journal of the Controlled Release Society
https://www.readbyqxmd.com/read/27924830/impaired-regenerative-capacity-and-lower-revertant-fibre-expansion-in-dystrophin-deficient-mdx-muscles-on-dba-2-background
#14
Merryl Rodrigues, Yusuke Echigoya, Rika Maruyama, Kenji Rowel Q Lim, So-Ichiro Fukada, Toshifumi Yokota
Duchenne muscular dystrophy, one of the most common lethal genetic disorders, is caused by mutations in the DMD gene and a lack of dystrophin protein. In most DMD patients and animal models, sporadic dystrophin-positive muscle fibres, called revertant fibres (RFs), are observed in otherwise dystrophin-negative backgrounds. RFs are thought to arise from skeletal muscle precursor cells and clonally expand with age due to the frequent regeneration of necrotic fibres. Here we examined the effects of genetic background on muscle regeneration and RF expansion by comparing dystrophin-deficient mdx mice on the C57BL/6 background (mdx-B6) with those on the DBA/2 background (mdx-DBA), which have a more severe phenotype...
December 7, 2016: Scientific Reports
https://www.readbyqxmd.com/read/27923325/a-gingiva-derived-mesenchymal-stem-cell-laden-porcine-small-intestinal-submucosa-extracellular-matrix-construct-promotes-myomucosal-regeneration-of-the-tongue
#15
Qilin Xu, Rabie M Shanti, Qunzhou Zhang, Steven B Cannady, Bert W O'Malley, Anh D Le
In the oral cavity, the tongue is the anatomic subsite most commonly involved by invasive squamous cell carcinoma. Current treatment protocols often require significant tissue resection to achieve adequate negative margins and optimal local tumor control. Reconstruction of the tongue while preserving and/or restoring its critical vocal, chewing, and swallowing functions remains one of the major challenges in head and neck oncologic surgery. We investigated the in vitro feasibility of fabricating a novel combinatorial construct using porcine small intestinal submucosa extracellular matrix (SIS-ECM) and human gingiva-derived mesenchymal stem cells (GMSCs) as a GMSC/SIS-ECM tissue graft for the tongue reconstruction...
January 4, 2017: Tissue Engineering. Part A
https://www.readbyqxmd.com/read/27921261/attempting-to-compensate-for-reduced-neuronal-nitric-oxide-synthase-protein-with-nitrate-supplementation-cannot-overcome-metabolic-dysfunction-but-rather-has-detrimental-effects-in-dystrophin-deficient-mdx-muscle
#16
Cara A Timpani, Adam J Trewin, Vanesa Stojanovska, Ainsley Robinson, Craig A Goodman, Kulmira Nurgali, Andrew C Betik, Nigel Stepto, Alan Hayes, Glenn K McConell, Emma Rybalka
Duchenne muscular dystrophy arises from the loss of dystrophin and is characterized by calcium dysregulation, muscular atrophy, and metabolic dysfunction. The secondary reduction of neuronal nitric oxide synthase (nNOS) from the sarcolemma reduces NO production and bioavailability. As NO modulates glucose uptake, metabolism, and mitochondrial bioenergetics, we investigated whether an 8-week nitrate supplementation regimen could overcome metabolic dysfunction in the mdx mouse. Dystrophin-positive control (C57BL/10) and dystrophin-deficient mdx mice were supplemented with sodium nitrate (85 mg/l) in drinking water...
December 5, 2016: Neurotherapeutics: the Journal of the American Society for Experimental NeuroTherapeutics
https://www.readbyqxmd.com/read/27908613/sparc-interacts-with-actin-in-skeletal-muscle-in%C3%A2-vitro-and-in%C3%A2-vivo
#17
Louise H Jørgensen, Pia Lørup Jepsen, Anders Boysen, Line B Dalgaard, Lars G Hvid, Niels Ørtenblad, Dea Ravn, Jeeva Sellathurai, Jakob Møller-Jensen, Hanns Lochmüller, Henrik D Schrøder
The cytoskeleton is an integral part of skeletal muscle structure, and reorganization of the cytoskeleton occurs during various modes of remodeling. We previously found that the extracellular matrix protein secreted protein acidic and rich in cysteine (SPARC) is up-regulated and expressed intracellularly in developing muscle, during regeneration and in myopathies, which together suggests that SPARC might serve a specific role within muscle cells. Using co-immunoprecipitation combined with mass spectrometry and verified by staining for direct protein-protein interaction, we find that SPARC binds to actin...
November 28, 2016: American Journal of Pathology
https://www.readbyqxmd.com/read/27906106/loss-of-niche-satellite-cell-interactions-in-syndecan-3-null-mice-alters-muscle-progenitor-cell-homeostasis-improving-muscle-regeneration
#18
Addolorata Pisconti, Glen B Banks, Farshad Babaeijandaghi, Nicole Dalla Betta, Fabio M V Rossi, Jeffrey S Chamberlain, Bradley B Olwin
BACKGROUND: The skeletal muscle stem cell niche provides an environment that maintains quiescent satellite cells, required for skeletal muscle homeostasis and regeneration. Syndecan-3, a transmembrane proteoglycan expressed in satellite cells, supports communication with the niche, providing cell interactions and signals to maintain quiescent satellite cells. RESULTS: Syndecan-3 ablation unexpectedly improves regeneration in repeatedly injured muscle and in dystrophic mice, accompanied by the persistence of sublaminar and interstitial, proliferating myoblasts...
October 4, 2016: Skeletal Muscle
https://www.readbyqxmd.com/read/27906065/dystrophin-deficient-dogs-with-reduced-myostatin-have-unequal-muscle-growth-and-greater-joint-contractures
#19
Joe N Kornegay, Daniel J Bogan, Janet R Bogan, Jennifer L Dow, Jiahui Wang, Zheng Fan, Naili Liu, Leigh C Warsing, Robert W Grange, Mihye Ahn, Cynthia J Balog-Alvarez, Steven W Cotten, Monte S Willis, Candice Brinkmeyer-Langford, Hongtu Zhu, Joe Palandra, Carl A Morris, Martin A Styner, Kathryn R Wagner
BACKGROUND: Myostatin (Mstn) is a negative regulator of muscle growth whose inhibition promotes muscle growth and regeneration. Dystrophin-deficient mdx mice in which myostatin is knocked out or inhibited postnatally have a less severe phenotype with greater total mass and strength and less fibrosis and fatty replacement of muscles than mdx mice with wild-type myostatin expression. Dogs with golden retriever muscular dystrophy (GRMD) have previously been noted to have increased muscle mass and reduced fibrosis after systemic postnatal myostatin inhibition...
April 4, 2016: Skeletal Muscle
https://www.readbyqxmd.com/read/27906064/treatment-with-rgdf11-does-not-improve-the-dystrophic-muscle-pathology-of-mdx-mice
#20
Fabrizio Rinaldi, Yu Zhang, Ricardo Mondragon-Gonzalez, Jeffrey Harvey, Rita C R Perlingeiro
BACKGROUND: Duchenne muscular dystrophy (DMD) is an inherited lethal muscle wasting disease characterized by cycles of degeneration and regeneration, with no effective therapy. Growth differentiation factor 11 (GDF11), a member of the TGF-β superfamily and myostatin homologous, has been reported to have the capacity to reverse age-related skeletal muscle loss. These initial findings led us to investigate the ability of GDF11 to promote regeneration in the context of muscular dystrophy and determine whether it could be a candidate to slow down or reverse the disease progression in DMD...
June 14, 2016: Skeletal Muscle
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