Detection of heterogeneous type II collagen transplantation mediated cytotoxic response in vitro / 生物医学工程学杂志

To detect the cellular immunity state of New Zealand white rabbit immunized by pig type II collagen. The New Zealand white rabbit was immunized by type II collagen for sixty days. The plasma was collected at a regular interval and the anti-type II collagen antibodies were examined. At the sixtieth day, the peripheral circular lymphocytes and the lymphocytes separated from spleen cells of rabbit and lymph nodes were collected and were stimulated by type II collagen in vivo again. The regulation of reactive cellular proliferation caused by the stimulation was detected. The experiment samples were divided into two groups. The first group was the positive control group by adding different concentrations of PHA and the non-specific immunity was assayed. The different concentrations of type II collagen were added to the second group and the specific immunity was assayed. The lymphocytes of normal rabbits showed proliferation by PHA stimulation but no proliferation by the first stimulation of type II collagen. Obvious proliferation due to the stimulation of both PHA and type II collagen in the immunized rabbit were observed. It shows that certain concentration of heterogeneous collagen may cause an increase of anti-type II collagen antibody in immunized rabbit and may cause a proliferation of lymphocytes in rabbit spleen and peripheral blood. The heterogeneous type II collagen causes cellular immunity in vivo.

Type Ⅱ collagen as the carrier for xenogeneic chondrocyte transplantation for joint cartilage defect repair / 中国组织工程研究

BACKGROUND: Type Ⅱ collagen has been used as the carrier for chondrocyte transplantation in animal models, but whether type Ⅱ collagen may cause arthritis or mediate cytotoxicity remains unknown.OBJECTIVE: To detect the cellular immune functions of the New Zealand rabbits immunized by porcine type Ⅱ collagen.DESIGN: An exploratory comparative study based on the observations.SETTING: An institute of trauma surgery of a municipal hospital.MATERIALS: The study was conducted in the Institute of Trauma Surgery,Guangzhou Red Cross Hospital from August 1999 to February 2000. Six New Zealand rabbits, whose body mass ranged from 2.0 kg to 3.0 kg, were chosen of either gender.METHODS: The rabbits were immunized by porcine type Ⅱ collagen for 60days, during which the plasma was regularly taken for detection of type Ⅱ collagen antibody. On the 60th day, the peripheral blood as well as the spleens and lymph nodes were taken to separate the lymphocytes, which were subjected to secondary stimulation with type Ⅱ collagen in vitro to observe the reactive cell proliferation. The lymphocytes were randomly divided into two groups, and the first group was treated with phytohemagglutinin(PHA) of different concentrations to serve as the positive control, in which non-specific immunity was examined; The second group was treated with type Ⅱ collagen of different concentrations for examining specific immunity.peripheral blood lymphocytes of normal and immunized rabbits.RESULTS: On the 21st day, the titer of the antibody presented the first peak, and 40 days after the re-injection of the antigen the second peak appeared, which maintained for 20 days and then gradually descended. The lymphocytes of the normal rabbits proliferated in response to PHA stimulation but not to the first stimulation with the type Ⅱ collagen. The lymphocytes of the immunized rabbits exhibited significant proliferation upon stimulations with both PHA and type Ⅱ collagen. At the concentration of 25 mg/L, type Ⅱ collagen stimulation was sufficient to induce lymphocyte proliferation, the peak of which occurred when the collagen concentration reached 50 mg/L.CONCLUSION: Xenogenic type Ⅱ collagen at an adequate concentration may induce the increase of the type Ⅱ collagen antibody in immunized rabbits and proliferation of lymphocytes of the spleens and peripheral blood to cause cellular immune reaction and even immunological arthritis in relation to the transplantation.

Effect of insulin, hydrocortisone and their combined application on the proliferation of chondrocytes / 中国组织工程研究

BACKGROUND: Intra-articular injection of hormone has been applied in the treatment of arthritis because it can alleviate arthralgia rapidly, which is accompanied commonly by progressive cartilage impairments. It is not clear if supplement of growth factor like insulin effect can play a protective role in articular chondrocytes.OBJECTIVE: To observe the effects of insulin or hydrocortisone alone and the combination on the proliferation of chondrocytes.DESIGN: Grouping comparative study, the effect of one medicine was analyzed by using one-factor analysis of variance, while the combined effect was analyzed with multi-factor analysis of variance.SETTING: Guangdong Institute of Trauma Sugery.MATERIALS: Articular cartilage from the knees of New Zealand white rabbits of 4 - 6 weeks old.METHODS: This study was carried out at Guangzhou Traumatic Research Institute from Feberary 2000 to May 2001. Chondrocytes were isolated from the knee joints of New Zealand white rabbits, digested with hyaluronidase,pancreatin and type Ⅱ collagenase and exposed to insulin, hydrocortisone or the combination of insulin and hydrocortisone of different dosage. They were divided into four groups:Control group ( without adding insulin and hydrocortisone), insulin group (0. 035,0. 35,3.5,35 mg/L subgroups), hydrocortisone group(1,5,10,50,100 mg/L subgroups) and insulin(0. 35 mg/L) combined with hydrocortisone(50 mg/L) group. Their influence on chondrocytes proliferation was observed with methyl thiazolyl tetrazolium(MTT) method.sulin.at the concentration of 0. 035 mg/L( P ＜ 0.01 ), reaching the maximum at could inhibit the proliferation of chondrocytes ( P ＜ 0.05 ), which became significant with increasing concentration and no viable chondrocytes could be exposed to 0 . 35 mg/L insulin combined with 50 mg/L hydrocortisone, the promoting effect of insulin was inhibited due to negative cooperation.CONCLUSION: Insulin at low concentration could enhance the proliferation of chondrocytes, but hydrocortisone displayed inhibiting effect on the growth of chondrocytes. The function of insulin was antagonized when combined with hydrocortisone.

Expression level of endogenetic nitric oxide on reproduction of human anterior cruciate ligament cells / 中华创伤骨科杂志

Objective To investigate the expression level of endogenetic nitric oxide(NO) in the reproduction process of human anterior cruciate ligament cells. Methods Anterior cruciate ligament cells were isolated and subcultured from the human anterior cruciate ligament. LPS was used to induce the anterior cruciate ligament cell to express the inducible nitric oxide synthase(iNOS ), and N-monomethyl -L-Arginine (L-NMMA) was used as the interdiction of nitric oxide. They were alone or together added in the culture medium of anterior cruciate ligament cells in different groups. The level of NO was indirectly measured in the medium of HACL. Results LPS promoted significantly anterior cruciate ligament cells to produce endogenetic nitric oxide, compared with the control group(P

Biologic characteristics of fibroblast cells cultured from the knee ligaments / 中华创伤杂志(英文版)

<p><b>OBJECTIVE</b>To culture fibroblast cells from the knee ligaments and to study the biological characteristics of these cells.</p><p><b>METHODS</b>Cells of the anterior cruciate ligament (ACL) and the medial collateral ligament (MCL) from New Zealand white rabbit were cultured in vitro. Cellular growth and expression of the collagen were analyzed. Moreover, an in vitro wound closure model was established and the healing of the ACL and the MCL cells was compared.</p><p><b>RESULTS</b>Maximal growth for all these cells were obtained with Dulbecco's modified Eagle's medium supplemented with 10% fetal bovine serum, but RPMI 1640 and Ham's F12 media were not suitable to maintain these cells. Morphology of both ACL and MCL cells from New Zealand white rabbit was alike in vitro, but the MCL cells grew faster than the ACL cells. Both cell types produced similar amount of collagen in culture, but the ratio of collage type I to type III produced by ACL cells was higher than that produced by MCL cells. Wound closure assay showed that at 36 hours after injury, cell-free zones created in the ACL cultures were occupied partially by the ACL cells; in contrast, the wounded zone in the MCL cultures was almost completely covered by the cells.</p><p><b>CONCLUSIONS</b>Although the ACL cells and the MCL cells from New Zealand white rabbit show similar appearance in morphology in culture, the cellular growth and the biochemical synthesis of collagen as well as the healing in vitro were significantly different. These differences in intrinsic properties of the two types of cells in vitro might contribute to the differential healing potentials of these ligaments in vivo.</p>