Abstract
Understanding how the substrate topography acts on human bone marrow-derived mesenchymal stromal cells (MSCs) can help the rational design of scaffolds for improving bone regeneration protocols. MSCs are highly sensitive to the extracellular physical properties and can be successfully manipulated by simple contact interaction with supporting substrates. To this end, some polymeric materials were introduced, but polyethylene terephthalate (PET), a thermoplastic polymer approved by the US Food and Drug Administration for clinical use and very attractive in terms of biocompatibility and mechanical properties, has not been tested yet in terms of cell mechanotransduction. Here, we propose PET nanogratings (alternating lines of submicron ridges and grooves) as scaffolds for stimulating mechanotransduction mechanisms. Low-temperature hot embossing is exploited as fabrication method, and standard oxygen plasma activation as functionalization to improve cell adhesion and spreading. We show that the substrate directionality stimulus is optimally delivered to the MSCs, which in turn elongate and align to the nanograting lines. Finally, we verify that this polarization occurs also at level of cytoskeleton fibers and, though to a lesser extent, of nuclei.
Keywords: Cytoskeleton, mechanotransduction, mesenchymal stromal cells, micrograting, nanograting, polyethylene terephthalate.
Graphical Abstract
Call for Papers in Thematic Issues
Role of nanomaterials in fabrication of coatings, Machining and Joining
The application of nanoscience has brought about a revolution in the field of mechanical engineering by providing novel materials, boosting manufacturing processes, and generating cutting-edge products. The purpose of this special issue is to investigate the enormous impact that nanoscience has had on mechanical engineering, with a particular emphasis on ...read more
Advanced Inorganic Nanocomposites and Their Emerging Applications
This special issue collection will highlight developments on the recent trends about the synthesis of metal oxides, nanoclusters, biomaterials, 2D nanomaterials, nanocrystals, nanocomposites, etc. and their applications in electrochemical systems, tissue regeneration, energy storage and harvesting, sensors, etc. The novelty of the methods in the chemical synthesis and their characterizations, ...read more
Applicability of Nanotechnology for Performance Enhancement of Clean Energy Technologies
Population growth, industrialization, and improvement in living quality would lead to further increase in energy demand in near future. Regarding the disadvantages of fossil fuels such as fluctuations in their price, high emissions of greenhouse gases and restriction of their sources, it is crucial to use and exploit alternative energy ...read more
Graphene and 2D Materials for Energy Storage and Conversion
This thematic issue will discuss the recent advances in graphene-based nanomaterials for different energy technologies. Graphene possesses a high surface area, and stable structure and exhibits many interesting electronic, optical, and mechanical properties due to its 2D crystal structure. Graphene is of both fundamental interest and suitable for a wide ...read more
Related Books
Nanoscale Field Effect Transistors: Emerging Applications
Nanoelectronics Devices: Design, Materials, and Applications Part II
Nanoelectronics Devices: Design, Materials, and Applications (Part I)
Role of Nanotechnology in Cancer Therapy
Synthesis and Applications of Semiconductor Nanostructures
Pathways to Green Nanomaterials: Plants as Raw Materials, Reducing Agents and Hosts
Applications of Nanomaterials in Medical Procedures and Treatments
Synthesis of Nanomaterials
Nanobiotechnology: Principles and Applications
Bio-Inspired Nanotechnology
26