Objective To observe the main biological characteristics and chondrogenesis potency of bone marrow -derived stromal cells(MSCs) after cytokinesinduction or gene modification in vitro. Methods MSCs from an adult New Zealand white rabbit were isolated and cultivated, and then MSCs were divided into the common medium group(Group A, 15%FBS in DMEM), the induced group by cytokines (Group B), the transfected group(Group C)with adenovirus-hepatocyte growth factor transgene (adHGF). The medium of group B consisted of transforming growth factor-β1(TGF-β1,10 ng/ml), basic fibroblast growth factor(bFGF,25 ng/ml) addexamethasone (DEX,10-7mol/L) with 15%FBS in DMEM. Cartilage slices wereobtained from femoral condyles and patellar grove in the same rabbit. The minced cartilage was digested in Ⅱ collagenase (3 mg/ml) to obtain chondrocytes(Group D). The change of cell appearance, proliferation capacity, glycosaminoglycans(GAG), immunohistochemical staining for type Ⅰ, Ⅱ collagen were observed during the 5th passage MSCs and MSCs after induction or gene modification. Expression of mRNA for type Ⅰ and Ⅱ collagen was detected by RT-PCR. Results Primary MSCs proliferated as shortspindle shape, while the 5th MSCs showed longspindle shape. Positive stain of type Ⅰ collagen could be found in groups A, B and C, while positivestain of type Ⅱ collagen was shown in groups B and D. The content of GAG in group B was higher than that in group A, but there was no significant difference between them(Pgt;0.05), and there was significant difference between groups A and D(Plt;0.05). No significant difference was noted in groups A,B and C on proliferation by MTT(Pgt;0.05),except that of at the fourth day after transfection between groups A and C(Plt;0.05). RT-PCR demonstrated that MSCs always had higher levelsof mRNA type Ⅰ collagen in groups A, B and C. The expression of mRNA type Ⅱ collagen was identified in groups B and D, and only low levels of mRNA type Ⅱ collagen in group C. Conclusion The above results indicate MSCs have a natural tendency of osteogenic differentiation in vitro culture, and also demonstrate the chondrogenic potency with the technique of cytokines induction or gene modification after passage. MSCs can be transfected efficiently being seed cells in tissue engineered bone or cartilage to accept target genes such as adHGF, and have a higher levels of expression in vitro, which lasted 4 weeks at least.
OBJECTIVE This paper was to study the biological characteristics of the transformed human embryonic tendon cells, the relation between cell growth and culture conditions, and to compare these features with that of human embryonic tendon cells. METHODS The pts A58H plasmid had successfully used to transform a tendon cell line from human embryo in our past work. The human embryonic tendon cells and the transformed human embryonic tendon cells were cultured in vitro. In different culture conditions, the growth curve were drawn respectively. Population dependence and proliferation capability of the cells were investigated through plate cloning test and soft agar culture. The collagen secreted by cells was identified by immunohistochemical method. RESULTS In routine culture condition, the growth properties of the human embryonic tendon cell and transformed cells were almost identical. The growth properties of the transformed cells were not changed when the cells were frozen storage. There were changes of growth characteristics of the transformed cells when the culture temperature was changed. The transformed cells could subcultured continually and permanently. The proliferation capability of the transformed cells were ber than that of the human embryonic tendon cells. Moreover, the growth of the transformed cells was serum-dependent, and the phenomenon of contact inhibition was observed. The transformed cells were not able to grow on soft agar culture. They had the capacity of secreting collagen type I. CONCLUSION The transformed human embryonic tendon cells could be subcultured continually and permanently, and their growth could be controlled by changing their culture conditions and they had no malignant tendency in biological characteristics. They could be taken as an ideal experimental material for tendon engineering.
ObjectiveTo review the current progresses in purification strategies, biological characters, and functions of endothelial progenitor cells (EPCs) derived extracellular vesicles (EVs) (EPC-EVs). MethodsRecent relevant publications on the EPC-EVs were extensively reviewed, analyzed, and summarized. ResultsEPC-EVs are usually isolated by differential centrifugation and exhibit a homogenous pattern of spheroid particles with a diameter ranging from 60 to 160 nm under transmission electron microscopy. EPC-EVs are positive for cell-surface markers of EPCs (CD31, CD34, and CD133), and negative for markers of platelets (P-selectin and CD42b) and monocytes (CD14). Recent studies have shown the effectiveness of EPC-EVs in ischemic injuries, anti-Thy1 glomerulonephritis, and cardiomyocyte hypertrophy, and also shown their predictive role in cardio-cerebral-vascular diseases. ConclusionAn alluring prospect exists on the EPC-EVs-related research. Further studies are required to decipher the composition of EPC-EVs and their precise role in pathophysiological processes, and to investigate the molecular mechanisms for their targeting and function.
ObjectiveTo summarize the research status and biological characteristics of stromal fibroblast in breast cancer. MethodsRelevant literatures about the breast cancer stromal fibroblasts published recently were collected and reviewed. ResultsIn addition to cancer cells, breast cancer included stromal cells. The fibroblasts were the major components of breast cancer stromal, which had significantly different biological characteristics from normal fibroblasts. The fibroblasts were characterized by α-SMA positive, p53 gene mutation, secretion of various cytokines or chemokines in addition to the production of collagen substances, involving in breast cancer growth, migration, invasion and metastasis through a variety of signaling pathways. ConclusionThe biological characteristics of stromal fibroblasts in breast cancer may reflect lesion properties, be of great importance to diagnosis and differential diagnosis and prognosis prediction of breast cancer. More attentions will be paid to the target therapy for stromal fibroblasts in breast cancer.
Objective To explore a method to isolate, culture and multiplicate the placentaderived mesenchymal stem cells (PMSCs) and the bone marrow-derived mesenchymal stem cells (BMSCs) of rabbit,and to compare their biological characteristics. Methods PMSCs were isolated from placenta of 1fetation rabbitby Percoll density gradient centrifuge and cultured in vitro. BMSCs were isolated from hindlimb bone marrow blood of 1 new born rabbit by direct plates culturemethod. The 3rd passage PMSCs and BMSCs were observed by inverted phase contrast microscope. The stem cell marker (CD44, CD105, CD34 and CD40L) were examined by immunohistochemistry. The 2nd passage PMSCs and BMSCs were co-cultured with biomaterials,(1.0-1.5)×106 cells in one biomaterial, and then observed by aematoxylinstaining after 5 days,and by SEM after 3 days and 8 days. Results PMSCs and BMSCs were both uniformly spondle-shaped in appearance and showed active proliferative capacity. The proliferative ability of PMSCs were quite b and declined with passages. After cultured 10 passages in vitro, its growthslowed. Both PMSCs and BMSCs expressed CD44 and CD105,but did not express CD34 and CD40L immunoreactivity. PMSCs and BMSCs poliferated and adhered to the surface of biomaterials, and cell formed clumps and network; the cells proliferation and the matrix were seen in the pore after 5 days of culture. The observation ofSEM showed that many cells adhered to the biomaterials with spindle-shape and polygon after 3 days; and that PMSCs and BMSCs grew,arranged in layers andsecreted many matrices; the reticular collagen formed arround cells after 8 days. Conclusion PMSCs and BMSCs have similar biological characteristics and PMSCs can be served as excellent seedingcells for tissue engineering.
Objective To summarize the research progress of biological characteristics and advantages of Wharton’s jelly-mesenchymal stem cells (WJ-MSCs). Methods The related l iterature on the biological characteristics of WJ-MSCs,umbil ical cord blood MSCs (UBMSCs) and bone marrow MSCs (BMSCs) was extensively reviewed and analyzed. Results A large number of MSCs which are able to self-repl icate, self-renew and have high prol iferation and multipotent differentiation can be isolated from the Wharton’s jelly of umbil ical cord. WJ-MSCs have many advantages in isolation time, isolation efficience, expansion time, passage capacity, expansion capacity when compared with UBMSCs and BMSCs. Conclusion WJ- MSCs have numerous advantages of convenient and abundant sources, relatively pure, non-ethical issues, and so on, which can be used for cell transplant therapy, gene therapy, and the ideal seed cells of building tissue engineered organ, so they provide new ideas for tissue regeneration repair and reconstruction.
ObjectiveTo summary the relationship between CD147 and the occurrence and development of hepatocellular carcinoma, and its roles in clinical diagnosis and treatment. MethodReferring to the related literatures in recent years at home and abroad, the concept of CD147, and its relationship with the occurrence, development, invasion, and metastasis of hepatocellular carcinoma were reviewed. ResultsCD147 plays a key role in the development, progress, invasion, and metastasis of hepatocellular carcinoma. CD147 can be used as a long-term outcome predictor for hepatocellular carcinoma patients and also began to show its in hepatocellular carcinoma target therapy. ConclusionThere are numerous studies about the relationship between CD147 and hepatocellular carcinoma, but still exists some problems to be further studied.
ObjectiveTo review the current progresses in purification strategies, biological characters, and the uses in tissue engineering of urine-derived stem cells (USCs). MethodsRecent relevant publications on the USCs were extensively reviewed, analyzed, and summarized. ResultsUSCs, usually isolated by adherence screening method, are a population of mesenchymal stem cells (MSCs)-like somatic stem cells possessing robust self-renew and multi-potential differentiation ability. Combined with using appropriate biomaterials and biological molecules, USCs can be used as a good cell source for tissue engineering. ConclusionAn alluring prospect exists on the USCs-related research. Further studies are required to investigate the origin, individual differences, and the therapeutic values of USCs.
Objective To explore an effective method to culture and purify canine bladder transitional epithelial cells.Methods Bladder tissue was obtained from healthy puppy under sterile conditions. Bladder mucosa was removed from the remaining tissue with fine scissor and minced into small pieces, and then were dissociated into single cell suspensions with 0.125% trypsin. The bladder epithelial cells were cultured in defined keratinocyte serum free medium. The cells were passaged and purified by 0.05% trypsin and 0.02% EDTA. Morphological characterization were studied under inverted phase contrast microscope and transmission electron microscope. Expression of cell specific marker protein was assessed by immunohistochemistry. Results Canine bladder transitional epithelial cells could be efficiently cultivated and expanded in serum-free medium without fibroblast contamination. The cells could be passaged 4-6 times without a distinguished decrease in cell proliferation. The cells were characterized by well-developed micro filament and desmosome junction under transmission electron microscope. Immunohistochemical staining with broadly reacting anticytokeratin antibodies (AE1/AE3) confirmed the epithelial phenotype of the cells.Different generations of cells showed diploid cells. Conclusion A large number of bladder transitional epithelial cells can be obtained from small bladder tissue with our digestion method. The cultured bladder epithelial cells can be proliferated to sufficient quantities for further reconstructive purposes.
Following the peritendon was removed by means of microsurgical technique, the tenocyte was isolated from the human embryonic tendons by digesting it with trypsin and collagenase. These cells were all stored in frozen condition until they were cultured by F12 culture fluid added with 20% FBS to the 15th generation.These cells were able to grow adhering to the wall and stop growing with contact inhibition. The time of cellsgroup duplication was 4 days, which was similar to the peak time of its mitosis. The number of its chromosome group 2n=46 was 87.5-91.0%. The optimal conditions for tendon cell culture in vitro were investigated, and it was found that after they were reaminated and subcultured the frozen storage didn’t influence their growth, morphology, genetic characteristics. In our research we detected the content generation cells and found the cultured human embryonic tenocyte had same ability never changed with the cells subcultured. We also disscussed the future of tenocyte-a biomaterial in the field of artificial implant.