Objective Dexamethasone is one of the basic agents which could induce osteogenic differentiation of mesenchymal stem cells. To investigate the optimal concentration of dexamethasone in osteogenic differentiation of adiposederivedstem cells (ADSCs) so as to provide the theoretical basis for further bone tissue engineering researches. Methods FiveNew Zealand rabbits (2-3 kg) of clean grade, aged 3 months and male or female, were obtained. ADSCs were isolated from the subcutaneous adipose tissue of inguinal region, and cultured with collagenase digestion, then were detected and identified by CD44, CD106 immunofluorescence staining and adi pogenic differentiation. ADSCs at passage 3 were used and the cell density was adjusted to 1 × 105 cells/mL, then the cells were treated with common cultural medium (group A) and osteogenic induced medium containing 0 (group B), 1 × 10-9 (group C), 1 × 10-8 (group D), 1 × 10-7 (group E), 1 × 10-6 (group F), and 1 × 10-5 mol/ L (group G) dexamethasone, respectively. The cell prol iferation and the mRNA expressions of osteocalcin (OC) and core binding factor α1 (Cbfα1) were detected by MTT and RT-PCR, respectively. The activity of alkal ine phosphatase (ALP) was measured, and the percentage of mineral area was calculated. The mineral nodules were also detected by al izarin red staining. Results ADSCs mostly presented fusiform and polygon shape with positive expression of CD44 and negative expression of CD106. The result of oil red O staining was positive after ADSCs treated with adipogenic induced medium. The result of MTT revealed that the absorbance (A) value decl ined with the ascending of the concentration of dexamethasone, and there was significant difference in A value between groups D and E at 5 and 7 days after osteogenic induction (P lt; 0.05). The mRNA expressions of OC and Cbfα1 reached the peak in groups E and D at 7 days after osteogenic induction, respectively. The activity of ALP and the percentage of mineral area had the maximum value in group D at 14 days, then decl ined gradually. There was no significant difference in the mRNA expressions of OC and Cbfα1, the activity of ALP, and the percentage ofmineral area between groups D and E (P gt; 0.05), but significant differences were found between groups D and E and other groups (P lt; 0.05). After 14 days, the cells of group G died, and the result of al izarin red staining was positive in groups B, C, D, E, and F. Conclusion When the concentration of dexamethasone in osteogenic medium is 1 × 10-8 mol/L, it could not only reduce the inhibitive effect on cells prol iferation, but also induce osteogenic differentiation of ADSCs more efficiently.
Objective To observe and explore the effects of adipose-derived stem cells (ADSCs)-hyaluronic acid (HA) composite on heal ing of wound combined with radiation injury. Methods The ADSCs were harvested from the fat tissue in groin of 10 inbred Sprague Dawley (SD) rats and were isolated and cultured by enzyme digestion. The ADSCs-HA composite wasprepared with ADSCs (5 × 106 cells/mL) at passage 6 and HA (10 mg/mL). Thirty inbred SD rats, 15 males and 15 females, were randomly divided into groups A (n=10), B (n=10), and C (n=10). A 2 cm × 2 cm full-thickness skin defect was made on the rat back before 20 Gy 60Co radiation exposure. One week after debridement, wounds were treated by petrolatum gauze in group A as the control group, by HA (0.4 mL) and petrolatum gauze in group B, and by ADSCs-HA composite (0.4 mL) and petrolatum gauze in group C. The microvessel density (MVD) and the distribution of CD90 positive cells were observed at 1st, 2nd, 3rd, and 4th weeks. Results The wound heal ing was slower, and wound did not heal at 4th week and still filled with granulation tissue in group A; the wound heal ing of group B was faster than that of group A, and the wound did not heal completely with depression in the center at 4th week; the wound healed completely with epidermil izated surface and no obvious depression at 4th week in group C. The histological observation showed that MVD was significantly higher in group C than in groups A and B at the 1st, 2nd, and 3rd weeks (P lt; 0.05), and in group B than in group A at the 3rd week (P lt; 0.05); MVD was significantly higher in groups B and C than in group A (P lt; 0.05), but no significant difference was found between groups B and C (P gt; 0.05) at 4th week. No CD90 positive cell was found in groups A and B; CD 90 positive cells were observed in group C and gradually decreased with time. Conclusion ADSCs-HA composite can accelerate heal ing of wound combined with radiation injury by promoting and controll ing wound angiogenesis.
Objective Human acellular amniotic membrane (HAAM) contains collagens, glucoproteins, proteinpolysaccharide,integrin, and lamellar, which can supply rich nutrition to cell prol iferation and differentiation. To explore the possibil ity of HAAM with adi pose-derived stem cells (ADSCs) as a good engineered skin substitute for repairing skin defect. Methods Primary ADSCs were obtained from inguinal fat of 30 healthy 4-month-old SD rats, male or female, weighing 250-300 g, and cultured in vitro and purified. The 3rd passage ADSCs were used to detect CD44, CD49d and CD34 by immunocytochemistry staining. After physical and trypsin preparation, the HAAM was observed by HE staining and scanning electron microscope(SEM) respectively. ADSCs were seeded on epithel ial side of HAAM at the density of 2 × 105/cm2, cocultured, and observed by SEM at different time. MTT test was used to detect viabil ity of cells that seeded on HAAM, the group without HAAM was used as control. Thirty SD rats were made models of full-thickness skin wound and randomly divided into three groups (A, B, and C). Wound was repaired with HAAM/ADSCs composites in group A, with HAAM in group B, and with gauze as control in group C. The rats underwent postoperative assessment of wound heal ing rate and histological observation at the 1st, 2nd, and 4th weeks. Results HE staining showed that the 3rd passage ADSCs was spindle-shaped with an ovoid nucleus which located in the middle of cell; the immunocytochemistry staining showed positive result for CD44 and CD49d and negative result for CD34. There were no residues of cells in the HAAM by HE staining. SEM showed that there were different structures at the two sides of HAAM;one side had compact reticular structure and the other side had fibrous structure. After 3 days of co-culture, ADSCs showed good growth on HAAM; the cells were closely packed onto the HAAM, attached firmly and prol iferated to confluence on the stromal surface of HAAM. MTT test showed that the cells on the HAAM grew well and had b prol iferation vital ity. There was no significant difference between ADSCs cultured in the HAAM and control group (P gt; 0.05). One, 2, 4 weeks after graft, there were significant differences in wound heal ing rate between group A and groups B, C (P lt; 0.05), between group B and group C (P lt; 0.05). HE staining showed that wound healed faster in group A than in groups B, C. Cytokeratin 19 (CK19) immunohistochemical statining showed that there were more CK19 positive cells in group A than in groups B, C. Conclusion The graft of HAAM with ADSCs plays an effective role in promoting the repair of full-thickness skin wound
Objective To investigate the feasibil ity and effect of inducing adi pose-derived stem cells (ADSCs) treated with growth differentiation factor 5 (GDF-5) to undergo chondrogenic differentiation in vitro. Methods Six healthy Japanese rabbits aged 3 months (2-3 kg) of clean grade were chosen, irrespective of sex. ADSCs were isolated and cultured with collagenase digestion, then were detected and identified by vimentin immunohistochemistry and CD44, CD49d, CD106immunofluorescence staining. ADSCs at passage 3 were used and the cell density was adjusted to 1 × 106/mL, then the ADSCs were treated with 0, 10, 100 ng/mL GDF-5 and common cultural medium, respectively. The morphology changes of the induced ADSCs were observed by inverted contrast phase microscope and their growth state were detected by MTT. The mRNA quantities of Col II and proteoglycan expressed by the induced ADSCs were detected with RT-PCR. The Col II proteoglycan synthesized by the induced ADSCs were detected with alcian blue staining, toluidine blue staining, immunohistochemistry staining, and Western blot method. Results ADSCs mostly presented small sphere, fusiform and polygon shape with positive expression of CD44 and CD49d and negative expression of CD106 and vimentin. The ADSCs treated with 100 ng/mL GDF-5 presented sphere or sphere-l ike change and vigorous prol iferation. The mRNA quantities of Col II and proteoglycan synthesized by the induced ADSCs treated with 0, 10, 100 ng/mL GDF-5 and common cultural medium increased in a dose-dependent manner at 7 days. There were significant differences among all the groups (P lt; 0.05), except that no significant difference was evident between the 0 ng/mL group and the 10 ng/mL group (P gt; 0.05). When ADSCs were treated with 100 ng/mL GDF-5 for 14 days, the Col II and the mRNA and protein quantities of ptoteoglycan reached the peak, and the results of alcian blue, toluidine blue and Col IIimmunohistochemistry staining were positive. Conclusion ADSCs treated with certain concentration of GDF-5 have higher expression of Col II and proteoglycan and possess partial biological function of chondrocyte.