Abstract
Introduction and Objective
Osteoarthritis (OA) represents one of the leading cause of disability all over the world. Cell therapies, mainly based on mesenchymal stem cells (MSCs), have shown to modulate the pathogenesis of OA in basic, preclinical and clinical studies. Adipose tissue (AT) have emerged as a rich and promising source of MSCs called adipose derived stem cells (ASCs). Different systems are available for processing lipoaspirate to purify the samples from oily and haemorrhagic fractions, minimizing the risk of complications and maximizing the biological yield for subsequent grafting. However, few studies compared the efficacy of the different processing devices already used in clinical practice. This study aims to characterize the products obtained by the use of two different systems such as micro-fragmentation or nano-fragmentation comparing them with the starting material (AT) and the collagenase isolated ASCs.
Materials and Methods
AT from 12 donors arrived without selection to the laboratories: 4 lipoaspirated (LA), 4 micro-fragmented (mF) and 4 nano-fragmented (nF). The samples were divided into three aliquots for paraffin embedding, RNA extraction and digestion with collagenase for ASCs isolation. Paraffin embedded tissue sections were stained with hematoxylin-eosin to analyze morphology. RNA was extracted, retro-transcribed and analyzed with real-time PCR to analyze the expression of pluripotency genes (SOX2, NANOG and POU5F1) and inflammatory genes (IL-1beta and iNOS). Data were analyzed using Graphpad Prism 8.0 and expressed as mean ± SD. One-way ANOVA followed by Tukey test was used to compare the different groups.
Results
The LA comprised small lobules, with intact cell membranes and structurally integer adipocytes. mF samples showed the presence of integer adipocytes, small lobules and higher amount of cell clusters. nF samples showed the almost completely absence of adipocytes, a high amount of cells without lipid content and a high amount of stromal matrix. Real-time PCR results showed the lowest expression levels of pluripotency genes in LA samples that were assumed equal to 1.0 and used to calculate the expression levels of the other samples. mF showed expression levels of pluripotency genes similar to AT. nF showed expression levels of pluripotency genes higher than AT and mF, but without statistically significant differences. ASCs showed statistically significant higher expression levels of these genes compared to LA and mF (p ≤ 0.001). Likewise, the expression of inflammatory genes resulted to be lowest in LA samples (assumed equal to 1.0), higher in mF samples and in nF samples without statistical significance. As expected, the highest values were found in ASCs isolated cells compared to all the other samples (p ≤ 0.0001).
Conclusions
These results confirmed that micro-fragmentation (mF) and nano-fragmentation (nF) permitted to separate a cell mixture enriched in ASCs from a lipoaspirate sample without activating the inflammatory pathways. Both processing methods gave a minimally manipulated product suitable for OA cell therapy application. Further studies are needed to elucidate possible different activities of the ASCs enriched AT-derivatives.
