RESUMEN
BACKGROUND: Construction of seedless tissue-engineered adipose tissue from acellular adipose tissue is a hot research topic in soft tissue filling. OBJECTIVE: To investigate the effects of preparation methods of acellular adipose tissue on the induction of adipose regeneration after transplantation in recent years, and to look forward to its clinical application prospects. METHODS: A computer-based online search of PubMed and Elsevier databases was performed to retrieve papers regarding acellular adipose tissue preparation and transplantation published between January 1971 and December 2018 with the search terms “adipose tissue engineering; adipose tissue extracellular matrix; soft tissue repair; angiogenesis; adipogenic induction”. The retrieved papers were summarized from the perspectives of improvement in preparation methods of acellular adipose tissue, cross-linking cytokines and biomaterials. RESULTS AND CONCLUSION: Retrieved studies have shown that extracellular matrix of adipose tissue can act as an ideal scaffold material for soft tissue filling. Subcutaneous implantation of extracellular matrix of adipose tissue can recruit host stem cells and induce their proliferation and adipogenesis. However, existing acellular schemes can lead to the loss of extracellular matrix proteins and structures. This greatly affects the fat regeneration ability of acellular adipose tissue implanted in vivo. However, supercritical carbon dioxide deoiling, mechanical pretreatment, cross-linking cytokines or biomaterials can reduce the loss of extracellular matrix proteins and supplement the proteins that promote tissue regeneration during the preparation of acellular adipose tissue. This can ultimately enhance the angiogenesis and adipogenesis of acellular adipose tissue after transplantation. Acellular adipose tissue has strong application prospects in adipose tissue engineering because of its natural adipogenic induction ability. If the loss of extracellular matrix protein can be overcome during preparation of acellular adipose tissue or under the premise of safety and controllability, acellular adipose tissue is expected to become a suitable soft tissue filler that allows allogeneic injection and in situ adipogenesis.
RESUMEN
Objective@#This study investigated the effects of interleukin-1β (IL-1β) on human synovial fluid-derived mesenchymal stem cells (hSFMSCs) in the temporomandibular joint.@*Methods @#hSFMSCs from synovial fluid samples of temporomandibular disorder (TMD) patients were cultured in vitro. hSFMSCs were divided into three groups with different concentrations of rhIL-1β in complete medium (α-MEM cell culture medium + 10% FBS + 1× GlutaMAX): 0 ng/mL IL-1β group, 1 ng/mL IL-1β group and 10 ng/mL IL-1β group. Changes in the rate of colony formation, growth curve, cell cycle and apoptosis of hSFMSCs under IL-1β stimulation were evaluated. The osteogenic, adipogenic and chondrogenic potential of the cells were also determined using histochemical and real-time fluorescence quantitative PCR methods. @*Results @#No significant differences in growth or proliferation capacity were observed in any IL-1β-stimulated group in comparisons of the colony-formation rate (F = 0.665, P=0.548), growth curve (F=0.001, P=0.999), cell cycle (FG1=0.773, PG1=0.503; FS =0.636, PS =0.562) or apoptosis (F=0.196, P=0.827) of the cells. However, the multidifferentiation capacity of hSFMSCs was affected in the inflammatory environment. Mineralized nodule and lipid clusters decreased significantly, and the gene expression levels of runt-related transcription factor 2 (RUNX2), osteocalcin (OCN), peroxisomal proliferative receptor G2 (PPARG2) and lipoprotein lipase (LPL) were suppressed significantly in IL-1β-mediated induction medium (P < 0.05). In general, cartilage pellets formed in all the IL-1β-mediated chondrogenic differentiation groups. The gene levels of sex-determining region Y-related high-mobility group box-9 (SOX9) and collagen II were decreased (P < 0.05), while that of matrix metalloproteinase 13 (MMP13) was increased significantly in the presence of IL-1β (P < 0.05). @*Conclusion@# IL-1β directly affects the multidifferentiation potential of hSFMSCs but not their cell growth or proliferation ability.
RESUMEN
Objective To study the effect of cryopreservation on some biological properties of rabbit adipose -de-rived mesenchymal stem cells (rADMSCs).Methods rADMSCs culture was isolated by tissue explants adherent meth-od.Morphology of the primary cells was observed by inverted microscopy .Immunophenotypes of the rADMSCs were deter-mined using flow cytometry .The third passage cells were preserved in liquid nitrogen for 6 months, and then were thawed , and subcultured to passage 7.The growth curves of the cryopreserved cells were analyzed by MTT assay , and the cryopre-served cells were cultured in adipogenic and osteogenic medium , with non-cryopreserved rADMSCs as a control group .The adipogenic and osteogenic abilities of the rADMSCs were evaluated by oil red O staining , alizarin red staining and alkaline phosphatase activity assay , respectively.Results The rADMSCs cultured in vitro exhibited a spindle-shaped appearance and rapid growth expansion .Flow cytometry analysis revealed that the third passage rADMSCs were CD 44-and CD90-posi-tive, but negative for hematopoietic cells surface marker CD 45.The growth curves of cells in the experimental and control groups were “S” shaped, showing a non-significant difference between the two groups (P>0.05).The oil red O staining and alizarin red staining results were positive at 2 weeks after adipogenic and osteogenic induction .The ALP activities of the two groups were increased with osteogenic induction time , with a non-significant difference (P>0.05).Conclusions Cryopreservation does not affect the growth and differentiation pluripotency of rADMSCs significantly .
RESUMEN
Objective To study the isolation,culture, adipogenic and osteogenic induction Tupaia bone marrow mesenchymal stem cells(BM-MSCs).Method The BM-MSCs from tupaia were isolated and expended by combination of gradient centrifugation and adherence culture , then subcultured and observed for morphology under inverted phase contrast microscope.BM-MSCs were induced to adipocytes .and osteoblasts in vitro Result Cells were spindle or triangle-shaped, and clone proliferation .Cells were successfully induced into adipocytes .and osteoblasts Conclusions The method of isolation BM-MSCs from tupaia by combination of gradient centrifugation and adherence culture is simple and feasible , BM-MSCs have differentiation potential into adipocytes and osteoblasts .