To investigate the effect of hepatocyte growth factor (HGF) on prol iferation of cultured human eccrine sweat gland epithel ial cells (hESGc) and the involvement of phosphorylation of ERK1/2. Methods hESGc were cultured in keratinocyte serum free medium (KSFM) and the first generation of hESGc was harvested. The expression of C-met was detected by immunocytochemistry. MTT assay was used to detect the effect of HGF on the prol iferation of hESGc. The cells were divided into blank group, control group and experimental group. The culture density was 2 × 103 cells/hole in control group and experimental group. Two hundred μL KSFM with HGF in different levels was added to every hole. hESGcwere cultured in KSFM with HGF at different levels (2, 20, 40 and 80 ng/mL) in experimental group, in KSFM without HGF incontrol group, and in KSFM without HGF and no hESGc in blank group. The cell prol iferation was observed in xperimental group 2 and 4 days later. Western blot was used to detect the expression of phosphorylated ERK1/2 at 40 ng/mL HGF after 0, 5, 30, 90 and 120 minutes. Results The results were positive for anti-C-met staining in the cytoplasm. HGF (40 ng/mL and 80 ng/mL) significantly improved the prol iferation of hESGc (P lt; 0.05). When cultured in the KSFM with 40 ng/mL HGF, the cell prol iferation rate and the absorbance were 74.2%, 0.239 3 ± 0.070 9 at 2 days and 74.8%, 0.287 8 ± 0.074 3 at 4 days; showing significant differences when compared with control group (P lt; 0.05). When cultured in KSFM with 80 ng/mL HGF, the cell prol iferation rate and the absorbance were 54.5%, 0.212 3 ± 0.059 2 at 2 days and 40.3%, 0.231 0 ± 0.056 7 at 4 days; showing significant differences when compared with control group (P lt; 0.05). The expression of p-ERK1/2 reached to the maximum after stimulation of 40 ng/mL HGF for 5 minutes, and relative integral absorbance (RIA) was 0.593 2 ± 0.192 2, increased 8.1 times compared with instant stimulation (P lt; 0.01). Conclusion HGF could induce the prol iferation of hESGc and activate the phosphorylation of ERK1/2 protein.
The heart valve prosthesis must have excellent hydrodynamic performance which is usually tested in vitro, not in vivo. This paper comprehensively introduced the principles and methods of hydrodynamic performance in vitro testing, helping clinicians to understand valve performance parameters, evaluate valve applicability, and reduce clinical risk of the valve prosthesis. In vitro testing not only serves as the "gold standard" for valve prosthesis assessment, but also provides detailed data for design and optimization of the prosthesis. ISO 5840 defines the items and methods for valve in vitro testing, which consists of three parts: (1) pulsatile flow testing, which reproduces the pulsating flow of the valve prosthesis after implantation in the human body; (2) steady flow testing, which assesses valve forward flow resistance; (3) durability testing, which evaluates the durability of the valve prosthesis and determines the expected failure mode. In addition, the paper presented the differences between atrioventricular and aortic valve testing, the method of mitral valve testing, the differences between transcatheter and surgical valve testing, and the method of valve flow visualization.
Objective To investigate the effect of hepatocyte-l ike cells induced by CD34+ cells in vitro on the repair of the injured hepatic tissues of mice in vivo. Methods Mononuclear cells were isolated from umbil ical blood by density gradient centrifugation and enriched CD34+ cells were obtained. The cells were (1 × 105 cells/mL) cultured in serumfreemedium containing stem cell factor (SCF), hepatocyte growth factor (HGF), EGF, oncostatin M (OSM), bFGF (the concentration were 50, 20, 20, 10, 10 ng/mL respectively) in vitro for 10 days. Forty-eight 6-week-old female ICR mice werechosen to prepare l iver injury model by injecting carbon tetrachloride and 2-acetylamionoflu-orene. The mice were randomly divided into two groups (n=24 per group): the experimental group, the cultured cells were injected into the mice through the tail vein; the control group, the equivalent serum-free medium was injected. Six mice from each group were killed at 7, 14, 21, and 28 days after operation to receive HE staining, PCR gel electrophoresis, immunohistochemistry staining, and hepatic function detection. Results HE staining: the morphology of injured hepatic tissues in the control group recovered to normal 28 days after operation, while in the experimental group, it recovered to normal 14 days after operation. PCR gel electrophoresis and immunohistochemistry staining: the cells expressing human serum albumin were detected in the hepatic tissue of the experimental group at each time point after operation; while in the control group, no such cells were detected within 28 days after operation. Hepatic function detection: the activity of alanine aminitransperase in the control group recovered to normal 14 days after operation; the mean activity of aspartate aminotransferase of two groups failed to recover within 28 days. Conclusion The hepatocyte-l ike cells induced by CD34+ cells in vitro can promote the morphological and functional recovery of the injured hepatic tissue in mice. Moreover, it can be transformed into human-derived hepatic cells in l iver-injured mice.
In order to investigate the compatibility and growth between the tendon cell or fibroblast of rabbit and artificial materials, the combined-culture of the two cells with the carbon fiber, terylene and chitin was observed respectively. Results showed as following: in vitro, the compatibility of carbon fiber with these two cells was well, cell-adhesion ability was good as well. Few cells grew on terylene. Chitin inhibited the growth of either cells. No matter the tendon cell or the fibroblast, the amount of cells adhering on the carbon fiber was far more than that on terylene or chitin. When the three materials were interlaced together, the collagen fibers produced by the cells were arranged in direction parallel to the carbon fibers. As the time elapsed, the cells on the carbon fiber distributed evenly and enveloped the material in network-like fashion, this suggested that carbon fiber was a good material for producing living artificial tendon and ligament.
The purpose of this study was to find some solutions to the problem of tendon cell proliferation control. Under the condition of in vitro culture, several materials including IGF-1 receptor antibody and mRNA antisense oligonucleotide were added to the culture medium to block the IGF-1-Receptor system. The effect of the material on the tendon cell proliferation was judged by cell count after incubation of 48 hours. The results showed that both IGF-1 Receptor antibody (IGF-1R alpha) and IGF-1 Receptor mRNA antisense oligonucleotide had negative effect on tendon cell proliferation (P lt; 0.01 and P lt; 0.05). These findings lead us to think that the above two materials could be used in the experiment of tendon adhesion preventing and living ready-made tendon producing.
【Abstract】 Objective To investigate the role of myosin l ight chain (Myl) in myogenesis in vitro. Methods The extraocular muscle, diaphragm and gastrocnemius muscle myoblasts (eMb, dMb and gMb) were isolated and purified from 12 3-week-old C57BL/6 mice by using the enzyme digestion and Preplate technique, and then were subcultivated. The Myl expression in Mb was detected by RT-PCR and Western blot analysis; the Mb prol iferation activity was tested by methylene blue assay, and the myotube formation was observed. After anti-Myl antibody (1, 2, 3, 8, 16 ng/mL) was induced in the Mb culture (experimental group), the abil ity of prol iferation of myoblasts and the myotube formation were identified. Meanwhile, the Mb which was cultured without anti-Myl antibody was indentified as the control group. Results The results of RT-PCR and Western blot analysis showed that Myl1 and Myl4 mRNA and Myl protein were expressed in eMb, dMb and gMb at 24 hours after seeding, and their expression level were lower in eMb than in dMb and gMb (P lt; 0.01), and the latter two did not show any significant difference (P gt; 0.05). Myl2 and Myl3 mRNA was not detected in these three myoblasts. The prol iferation assay showed that the eMb prol iferated faster as compared with dMb and gMb (P lt; 0.01). eMb began to yield myotubes at 40 hours after seeding and dMb and gMb at 16 hours after seeding. At 6 days, the number of myotubes derived from eMb was (137.2 ± 24.5)/ field, which was significantly larger than that of myotubes from dMb [(47.6 ± 15.5) / field ] and gMb [(39.8 ± 5.1) field ] (P lt; 0.01). There was not statistically significant difference between the latter two groups (P gt; 0.05). After the antibody treatment, the absorbency values of the eMb, dMb and gMb in the experimental groups at each antibody concentration point were significantly higher than those in the corresponding control groups (P lt; 0.05), and the dose-dependent way was performed.The numbers of myotubes from dMb at 16 hours were (48.2 ± 7.1)/ well in the experimental group and (23.4 ± 4.9)/ well in the control group, and at 6 days were (40.6 ± 10.2)/ field in the experimental group and (63.1 ± 6.1)/ field in the control group.There was statistically significant difference between the experimental and control groups (P lt; 0.01). Conclusion Myl may play a role in myogenesis through the negative effect on the myoblast prol iferation.
OBJECTIVE: To study the technique and method of urethral epithelium culture in vitro, so as to lay the groundwork for reconstructing a tissue engineering urethra and to provide an experimental model of urethral mucosa in physiological, pathological, toxicological and microbiological study. METHODS: The urethral mucosa from a young male New Zealand hare that had just been out of milk, was digested into single cell liquid with Dispase II and mixed enzyme, and the fibroblast were removed. After being seeded, the cells were cultured by using L929 cells as trophoderm. The medium was changed regularly and the cells were subcultured when they grew to mix together 80% to 90%. The cultured cells were analyzed with histochemistry, immunohistochemistry dyeing and flow cytometry examination. We observed the ultrastructure of cells with scanning electron microscope and transmission electron microscope. RESULTS: The primary cultured cells fused when they had been cultured for about ten days. They were the same in size like road rocks. The cultured cells were all epithelial cells without fibroblasts and were diploid cells. The cells could be subcultured 11-13 generations, and could survive 50-60 days. CONCLUSION: The urethral epithelium of young New Zealand hare can be cultured in vitro and maintain the ability to proliferate within a certain time. The study result not only sets a role in reconstructing a tissue engineering urethral mucosa, but also provides an experimental model for the research of urethral mucosa in vitro.
Objective To understand the effect of estradiol in different concentrations on proliferation of diverse mammary primary cells in vitro. Methods The primary cells of cancer tissue, the adjacent tissue to tumors and normal mammary tissue from patiens with breast cancer were obtained using collagenase digesting method. All the tissue samples were cultivated in vitro, and were given estradiol in different concentrations. The effect of estradiol on the proliferation of those primary cells was measured by MTT. Results Estradiol remarkedly promoted the proliferation of primary cells of cancer tissue and peritumor tissue in vitro, whose ER expression were positive. Whereas, the promotion effect of estradiol on the proliferation of normal mammary primary cells was relatively weak, and there was no correlation between the promotion effect with the expression of ER in cancer tissue. Conclusion The risks of occurrence and relapse of breast cancer would increase significantly when the concentration of estradiol is no less than 103 pmol/L in vivo.
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.
Objective To study degradation of the antigen-extracted meniscus in PBS solution with no enzyme or with different enzymes. Methods Four types of enzymes (collagenase, hyaluronidase, trypsin, papain) were used to enzymolyze the antigen-extracted meniscus and the fresh meniscus for 3, 7, 15 and 30 days (37℃). The antigenextracted meniscus and the fresh meniscus were immersed in PBS solution (37℃) for 30 days. Weight loss measurement, UV spectrophotometry, and scanning electron microscopy (SEM) were used to characterize the degraded materials. Results The two types of the materials were remarkably digested under the enzymes, especially under trypsin. The degradation curves showed that the antigen-extracted meniscus was enzymolyzed less than the fresh meniscus. The degradation products were grouped as amino, peptide, and polyose by the analysis. Both of the materials could hardly behydrolyzed in PBS solution without the enzymes. The four different enzymes had different surface morphologies under the examination of SEM. Conclusion The antigen-extracted meniscus is enzymolyzed more slowly than the fresh meniscus in vitro, and the result can be used as a guideline to the further research.