Effects of Graphene Oxide Nanofilm and Chicken Embryo Muscle Extract on Muscle Progenitor Cell Differentiation and Contraction

Autor: Piotr Koczoń, Ewa Sawosz, Jarosław Szczepaniak, Malwina Sosnowska, Karolina Daniluk, André Chwalibog, Marlena Zielinska, Mateusz Wierzbicki, Dominik Cysewski, Jaśmina Bałaban
Rok vydání: 2020
Předmět:
Muscle tissue
Gene Expression
Pharmaceutical Science
Chick Embryo
02 engineering and technology
Microscopy
Atomic Force
Cell morphology
Article
tissue extract
Analytical Chemistry
Myoblasts
lcsh:QD241-441
muscle contraction
03 medical and health sciences
Limb bud
lcsh:Organic chemistry
In vitro
Drug Discovery
medicine
Animals
Myocyte
Physical and Theoretical Chemistry
Progenitor cell
Graphene oxide
030304 developmental biology
Biological Products
0303 health sciences
Cell growth
Chemistry
Organic Chemistry
Tissue extract
Cell Differentiation
in vitro
Embryo
021001 nanoscience & nanotechnology
Myotube formation
Nanostructures
Cell biology
myotube formation
medicine.anatomical_structure
Chemistry (miscellaneous)
Muscle contraction
graphene oxide
Molecular Medicine
Graphite
medicine.symptom
0210 nano-technology
Zdroj: Bałaban, J, Wierzbicki, M, Zielińska, M, Szczepaniak, J, Sosnowska, M, Daniluk, K, Cysewski, D, Koczoń, P, Chwalibog, A & Sawosz, E 2020, ' Effects of graphene oxide nanofilm and chicken embryo muscle extract on muscle progenitor cell differentiation and contraction ', Molecules, vol. 25, no. 8, 1991 . https://doi.org/10.3390/molecules25081991
Molecules, Vol 25, Iss 1991, p 1991 (2020)
Molecules
Volume 25
Issue 8
ISSN: 1420-3049
DOI: 10.3390/molecules25081991
Popis: Finding an effective muscle regeneration technique is a priority for regenerative medicine. It is known that the key factors determining tissue formation include cells, capable of proliferating and/or differentiating, a niche (surface) allowing their colonization and growth factors. The interaction between these factors, especially between the surface of the artificial niche and growth factors, is not entirely clear. Moreover, it seems that the use of a complex of complementary growth factors instead of a few strictly defined ones could increase the effectiveness of tissue maturation, including muscle tissue. In this study, we evaluated whether graphene oxide (GO) nanofilm, chicken embryo muscle extract (CEME), and GO combined with CEME would affect the differentiation and functional maturation of muscle precursor cells, as well as the ability to spontaneously contract a pseudo-tissue muscle. CEME was extracted on day 18 of embryogenesis. Muscle cells obtained from an 8-day-old chicken embryo limb bud were treated with GO and CEME. Cell morphology and differentiation were observed using different microscopy methods. Cytotoxicity and viability of cells were measured by lactate dehydrogenase and Vybrant Cell Proliferation assays. Gene expression of myogenic regulatory genes was measured by Real-Time PCR. Our results demonstrate that CEME, independent of the culture surface, was the main factor influencing the intense differentiation of muscle progenitor cells. The present results, for the first time, clearly demonstrated that the cultured tissue-like structure was capable of inducing contractions without externally applied impulses. It has been indicated that a small amount of CEME in media (about 1%) allows the culture of pseudo-tissue muscle capable of spontaneous contraction. The study showed that the graphene oxide may be used as a niche for differentiating muscle cells, but the decisive influence on the maturation of muscle tissue, especially muscle contractions, depends on the complexity of the applied growth factors.
Databáze: OpenAIRE
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