AI Article Synopsis
- The importance of accurate cell culture methods in biotechnology is highlighted, particularly through the use of 3D cell cultivation that simulates in vivo tissue structures and functions.
- A new random positioning incubator (RPI) has been developed to facilitate 3D cell culture under simulated microgravity conditions and varying gravitational loads, allowing researchers to study how cells respond to different mechanical forces.
- Experiments using mouse skeletal myoblasts and human lymphocytes aim to advance mechanobiological research, which could enhance human life in space and inform treatments for diseases related to mechanical signaling on Earth.
Article Abstract
Important in biotechnology is the establishment of cell culture methods that reflect the in vivo situation accurately. One approach for reaching this goal is through 3D cell cultivation that mimics tissue or organ structures and functions. We present here a newly designed and constructed random positioning incubator (RPI) that enables 3D cell culture in simulated microgravity (0 g). In addition to growing cells in a weightlessness-like environment, our RPI enables long-duration cell cultivation under various gravitational loads, ranging from close to 0 g to almost 1 g. This allows the study of the mechanotransductional process of cells involved in the conversion of physical forces to an appropriate biochemical response. Gravity is a type of physical force with profound developmental implications in cellular systems as it modulates the resulting signaling cascades as a consequence of mechanical loading. The experiments presented here were conducted on mouse skeletal myoblasts and human lymphocytes, two types of cells that have been shown in the past to be particularly sensitive to changes in gravity. Our novel RPI will expand the horizon at which mechanobiological experiments are conducted. The scientific data gathered may not only improve the sustainment of human life in space, but also lead to the design of alternative countermeasures against diseases related to impaired mechanosensation and downstream signaling processes on earth.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4223831 | PMC |
| http://dx.doi.org/10.1002/bit.25179 | DOI Listing |
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