TYH, YFC, and CTL drafted the paper All authors read and approve

TYH, YFC, and CTL drafted the paper. All authors read and approved the final manuscript.”
“Background Adipose-derived stem cells (ADSCs) are multipotent cells that can differentiate into cells of multiple tissue lineages, such as osteocytes, chondrocytes, adipocytes, or neuronal cells. Recent research has indicated that ADSCs can differentiate into chondrocytes BLZ945 datasheet in vitro, but chondroid cells ultimately

lose their phenotype, or dedifferentiate, in long-term PARP inhibitor review culture through a poorly understood mechanism [1, 2]. Over the past several years, in order to maintain or reinstate differentiation of chondrocytes, cultures were supplemented with exogenous cytokines, such as PTHrP [3], exogenous bone morphogenetic protein (BMP)-2 [4], triiodothyronine (T3) [5], fibroblast growth factor 18 [6], and electroporation-mediated transfer of SOX trio genes (SOX-5, SOX-6, and SOX9) to mesenchymal cells [7]. Additional methods to prevent dedifferentiation include changing culture systems to those similar to microcarriers [8], high-density micromass culture [9], three-dimensional (3D) cultures in hydrogels [10], in pellet culture using centrifuge tubes [11], and 3D dynamic www.selleckchem.com/products/Imatinib-Mesylate.html culture using 3D-stirred suspension bioreactor (spinner-flask) culture system [12]. The cell membrane plays

an important role in cell physiology and in regulating processes such as material transport, energy conversion, signal transduction, cell survival, apoptosis, and differentiation [13–15]; so alteration of the cell surface ultrastructure can directly influence cellular function [16]. Despite its importance, there are still many unanswered questions about the role of the cell membrane in differentiation: whether there are changes or defects on cellular membrane later in differentiation, whether these defects during late stage differentiation cause dedifferentiation by disturbing cellular homeostasis, and

whether the biophysical properties in plasma membrane could be manipulated to maintain differentiation or redifferentiate the cell. Atomic force microscopy (AFM) has recently emerged as an implement to image the cell membrane and detect mechanical properties at nanometer scale [17]. We are the first to use AFM to observe the change in morphological and biomechanical properties between chondroid cells and normal chondrocytes, leading to the selleck screening library detection of plasma membrane proteins at the molecular scale. We also used flow cytometry and laser confocal scanning microscopy (LCSM) to analyze integrin β1 expression during chondrogenic differentiation of ADSCs. We used these techniques to probe the intrinsic mechanism of chondroid cell dedifferentiation in order to provide a feasible solution for this in cell culture. Methods ADSCs isolation, culture, and identification Subcutaneous adipose tissue was resected from seven patients (mean age, 26 years; range, 12 ~ 32 years) undergoing inguinal herniorrhaphy. Research ethics board approval for this study was obtained from Jinan University.

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