Objective To examine the influence of retinal pigment epithelium(RPE) cells on antigen-specific activatedlymphocytes in vitro,and to explore the role of RPE cells in the immune privilege of the eye. Methods Co-culture systems of RPE cells with antigen-specific T lymphocyte lines and resting T lymphocytes were established in vitro.Induction of apoptosis was detected by genomic DNA electrophoresis,DNA in situ end-labelling and flow cytometry. Results RPE cells induced apoptosis in antigen-specific activated T lymphocytes. 24 hours after culture,the signs of apoptosis appeared in lymphocytes co-incubated with RPE cells.As time of co-culture went on,the number of apoptosic cells increased.Quantitative analysis of apoptosic cells showed that apoptosic cells accounted for 5.95% after 24 hours, 9.38% after 48 hours,and 17.95% after 72 hours.In contrast,RPE cells induced few apoptosis in resting T lymphocytes. Conclusions These results suggest that RPE cells possess the ability to induce the apoptosis of invading lymphocytes. This phenomenon serves as a restrain mechanism of immune response and may be of vital importance in the maintenance of immune privilege in posterior segment of eye and in the protection of eye from the damage of immunogenic inflammation. (Chin J Ocul Fundus Dis, 1999, 15: 241-244)
Objective To explore the clinical significance of the platelet glycoproteins CD62p and CD63 in septic patients.Methods The expressions of CD62p and CD63 in peripheral platelet were measured in 40 septic patients within 24 hours after onset by flow cytometry.The expression levels of CD62p and CD63 in mild and severe sepsis and normal subjects were compared.Meanwhile the correlation of CD62p and CD63 with APACHE Ⅱ score was analyzed.Results Significant differences in the CD62p and CD63 levels were found in the septic patients when compared with the normal subjects [CD62p:(2.56±1.51)% vs (1.48±0.40)%;CD63:(2.15±0.50)% vs (1.29±0.35)%;all Plt;0.01].The expressions of CD62p and CD63 in the severe septic patients were significantly higher than those in the mild septic patients [CD62p:(3.31±1.94)% vs (2.05±0.87)%;CD63:(2.37±0.36)% vs (2.00±0.53)%;all Plt;0.05].The positive correlations of CD62p and CD63 with APACHE Ⅱ score were also found(CD62p:r=0.377,P=0.016;CD63:r=0.452,P=0.003).Conclusion Platelets were significantly activated in septic patients at early stage which was correlated with the severity of sepsis.
【Abstract】 Objective To investigate the effect of IGF-1 on the growth of primary human embryonicmyoblasts. Methods The method of incorporation of 3H-TdR was used to evaluate the abil ity of prol iferation of myoblasts.The count per minute (CPM) values of myoblasts at different concentrations(1, 2, 4, 8, 16 and 32 ng/mL) of IGF-1 were measured,and dose-effect curves were drawn to choose the optional concentration of IGF-1 to promote the prol iferation. Then theexperimental group of myoblasts received the addition of the optional concentration of IGF-1 in the growth medium, the controlgroup just received the growth medium. The flow cytometry was used to detect the cell cycle . The method of incorporation of3H-TdR was used to measure the peak-CPM. The myotube fusion rate was measured in myoblasts with different concentrations(0, 5,10, 15, 20, 25 and 30 ng/ mL) of IGF-1 in fusion medium, the dose-effect curves were also drawn, so as to decided the optional concentrationof IGF-1 in stimulating differentiation. Fusion medium with optional concentration of IGF-1 was used in experimentalgroup, and the control group just with fusion medium. The fusion rate of myotube and the synthesis of creatine kinase(CK) weredetected in both groups. Results The optional concentration of 5 ng/mL IGF-1 was chosen for stimulating prol iferation . It was shown that the time of cell cycle of control was 96 hours, but that of the experimental group was reduced to 60 hours. The results of flow cytometry showed that the time of G1 phase, S phase and G2M phase was 70.03, 25.01 and 0.96 hoursrespectively in control group, and were 22.66, 16.47 and 20.87 hours respectively in experimental group. The time-CPM value curves showed that the peak-CPM emerged at 96 hours in control group and 48 hours in experimental group, which was in agreementwith the results of the flow cytometry. The optional concentration stimulating prol iferation was 20 ng/mL IGF-1. Compared with control, the quantity of CK was increased by 2 000 mU/mL and the fusion rate was elevated by 30% in experimental group. Conclusion The concentrations of 20 ng/mL IGF-1 can elevat obviously the fusion rate and the quantity of CK. IGF-1 can enhance the prol iferation and differentiation of myoblasts via inducing the number of myoblasts at G1 phase and increasing the number of myoblasts at S and G2M phases.
Human SW480 colonic cancer cell line was evaluated for its growth response to Octa peptide somatostatin (SMS 201·995, SMS) in vitro by MTT assay and flow cytometry. The results showed that SMS possessed an inhibitive effect on SW480 cell at dose 1.563-200ng/ml, the maximal effective dose was 50ng/ml. Inhibitive effect of SMS did not steadily increase at a dose >50ng/ml. It suggests that effect of SMS is achieved via somatotatin receptor. SMS obviously inhibited the synthesis of DNA and protein, and prohibited the SW480 cell shifting from phase G0/G1 in phase S, G2M, which suggests that somatostatin (SS) possessed an inhibitive effect on large intestinal at cancer cell, it is achieved at receptor by inhibiting the synthesis of DNA and protein and prohibiting cell cycle of cancer.
PURPOSE:To evaluate the value of the apoptosis-suppressing oncogene bcl-2 protein expression in the development and progression of uveal and conjunctival melanomas. METHODS:Using flow cytometry and immunofluorescence methods to detect the bcl-2 protein expression in 40 cases of uveal malignant melanomas (UMM), 5 cases of conjunctival nevi (CN) and 7 cases of conjunctival malignant melanomas (CMM). RESULTS :The expression content of bcl-2 protein in CMM was significantly higher than that in CN (P<0.05);the bcl-2 protein positive expression percentages in CMM and UMM were 85.71% and 72.50% respectively. The expression content of bcl-2 protein in UMM was not related to pathological classfication, scleral invasion,ciliary body involvement,and tumor dimensions (P>0.05). CONCLUSIONS: The over-expression of bcl-2 protein and apoptosis suppressing might be related to the pathogenesis of CMM and UMM;bcl-2 protein expression might be helpful in discriminating CN from CMM, but unavailable in evaluating the patholgical malignancy of UMM. (Chin J Ocul Fundus Dis,1997,13: 73-74 )
Objective To investigate the value of a 4-color and 10-antibody flow cytometry immunophenotyping panel using 10 antibodies including CD45, CD38, CD19, CD56, CD20, CD5, CD10, human leukocyte antigen-DR (HLA-DR), κ antibody and λ antibody marked by four kinds of fluorescein including R-phycoerythrin (PE), fluorescein isothiocyanate (FITC), peridinin chlorophy Ⅱ protein (PerCP) and allophycocyanin (APC) in the diagnosis of multiple myeloma (MM). Methods A 4-color and 10-antibody flow cytometry immunophenotyping panel which used CD45dim/-/CD38high as gating strategy supplemented by CD19, CD56, CD20, CD10, CD5, HLA-DR, κ antibody and λ antibody was used to test the bone marrow (BM) specimens of 45 MM patients treated between December 2013 and March 2015. Then by morphological examination, we analyzed the quantitative results and characteristics of myeloma cells. Results In all the 45 MM patients, the myeloma cell detection rate was 100% by flow cytometry. The proportion range of myeloma cells in BM was between 1.17% and 72.31%, which showed a good consistency with the results of 7.5%-90.0% detected by morphological examination. The positive expression rates of antigen on myeloma cells were: 100.00% for CD38, 11.11% for CD45, 2.22% for CD19, 73.33% for CD56, 17.78% for CD20, 42.22% for HLA-DR, and 0% for CD10 and CD5. About 64.44% of the MM patients were restricted cytoplasmic λ light chain typing, and 35.56% were restricted cytoplasmic κ light chain typing. There was no obvious phenotype difference among the 3 Durie-Salmon stages of MM (P>0.05). The expression of CD56 was different among different immunoglobulin types of MM, and the types of immunoglobulin with an expression from high to low were non-secretory, IgA, IgG, and light chain (P<0.05). Conclusion The 4-color and 10-antibody flow cytometry immunophenotyping panel using 10 antibodies including CD45, CD38, CD19, CD56, CD20, CD5, CD10, HLA-DR, κ antibody and λ antibody marked by four kinds of fluorescein including PE, FITC, PerCP and APC has a good diagnostic value for MM.
Objective To investigate the detection of peritoneal free cancer cells and its clinical significance. Methods The peritoneal free cancer cells, the positive rates of CK20 protein and CK20 mRNA expressions of peritoneal lavage fluid were detected by peritoneal lavage cytology (PLC), flow cytometry (FCM) and real-time fluorescent quantitative RT-PCR in 50 cases of gastric cancer patients, respectively. The sensitivity of three kinds of detection method to peritoneal free cancer cells was compared. Results The positive rates of peritoneal free cancer cells, CK20 protein and mRNA expression of peritoneal lavage fluid were 20.0% (10/50), 36.0% (18/50) and 58.0% (29/50), respectively. The positive rate of CK20 mRNA expression detected by real-time fluorescencequantitative RT-PCR in peritoneal lavage fluid was significantly higher than those of the CK20 protein expression detected by FCM and peritoneal free cancer cells detected by PLC (Plt;0.05 or Plt;0.001). The difference of positive rate of CK20 protein expression and peritoneal free cancer cells was not significant (Pgt;0.05). The positive rate of CK20 mRNA expression of peritoneal lavage fluid was related to the tumor invasion depth, differentiation degree, TNM stage, and lymph node metastasis (Plt;0.05). Conclusion Real-time fluorescence quantitative RT-PCR is an effective method for the detection of peritoneal free cancer cells.
Objective To investigate the role of expression of T cell costimulatory molecule CD28 and variance of T cell subpopulations in the development and prognosis of gastric cancer and colorectal cancer. Methods The peripheral blood lymphocytes were tested for T cell subpopulations and T cell costimulatory molecule CD28 by flow cytometry in 38 patients with gastric cancer, 42 patient s with colorectal cancer , and 21 healthy peoples as control group . Results Expressions of T cell costimulatory molecule CD28 in patients with gastric cancer and colorectal cancer were (25. 80 ±10. 56) % and (28. 95 ±9. 29) % , and significantly higher than that of control group 〔(0. 82 ±0. 98) % , Plt; 0. 01〕. Expression percentage of total T cell (CD3 + ) in patient s with gastric cancer and colorectal cancer were significantly lower than that of control group 〔(53. 61 ±13. 84) % and (55. 96 ±10. 68) % vs (72. 07 ±7. 83) % , Plt; 0. 01〕. Expression percentage of CD4 + T cell (CD4 + CD3 + ) in patients with gastric cancer and colorectal cancer were significantly lower than that of control group 〔( 29. 84 ±9. 71) % and ( 33. 75 ±9. 04) % vs (38. 79 ±5. 08) %; Plt; 0. 01 , Plt; 0. 05〕; Expression percentage of CTL cell (CD8 + CD28 + CD3 + ) in patient s with gastric cancer and colorectal cancer were significantly higher than that of control group 〔( 1. 57 ±1. 99) % and (1. 93 ±2. 61) % vs (0. 02 ±0. 04) %; P lt; 0. 01〕; Expression percentage of CD8 + inhibitory T cell (CD8 + CD28 -CD 3 + ) and CD4 / CD8 ratio in patient s with gastric cancer were significantly lower than that of control group 〔(16. 06 ±6. 94) % vs (20. 56 ±6. 54) % , Plt; 0. 05 ; (1. 10 ±0. 51) % vs (1. 36 ±0. 31) % , P lt; 0. 05〕; Expression of regulatory T cell (CD4 + CD25 + CD3 + ) of patients with colorectal cancer was (19. 74 ±6. 89) % , which was significantly higher than that of control group 〔(13. 72 ±3. 08) % , Plt; 0. 01〕. No difference of expression was found in peripheral T cell subpopulations of postoperative patients with gastric cancer and colorectal cancer after one week ( Pgt; 0. 05) . Conclusion T cell number is fall ,T cell costimulatory molecule CD28 useless expression is increase in patient s with gastric cancer and colorectal cancer. CD4 + T cell subpopulation is significantly decreased in patient s with gast ric cancer. The regulatory T cell of patient s with colorectal cancer is significantly increased.
Objective The aim is to sort CD90+ subpopulation cells in human liver cancer cell lines and investigate efficiency of magnetic cell sorting (MACS) on sorting the liver cancer stem cells. Methods ①Expressions of CD90. Immunohistochemical method was used to determine the expressions of CD90 in normal liver tissues in 8 cases, liver cancer and adjacent liver cancer tissues in 58 cases. ②Screened the cell lines. Huh-7, MHCC97-H, Bel-7402, and SMMC-7721 cell lines were divided into blank control group and experimental group (5.5×105 cells per hole, 1 hole), cells of the experimental group were added with 5 μL CD90–PE while cells of the blank control group were treated with 5 μL CD90–PE non fluorescent antibody. Determined the proportion of CD90+ cells in the 2 groups by flow cytometry (FCM). ③MACS. Huh-7 and MHCC97-H cell lines were labeled with magnetic beads respectively and sorted by MACS, 1 mL cell suspensionsorted by magnetic sorting (MS) was collected as CD90– group, and 1 mL PBS after MS wash was collected as CD90+ group, as well as blank control group and experimental group. Determined the proportion of CD90+ cells in 4 groups by FCM. Two times of MACS were performed in Huh-7 cells. ④Serum free culture and serum culture. Huh-7 cells were divided into serum-free culture group and serum culture group (1 hole), and proportions of CD90+ cells were determined by FCM at 1 week after culture. Results ①The positive rate of CD90 was 0 (0/8), 65.5% (38/58), and 20.7% (12/58) in normal liver tissues, liver cancer tissues, and adjacent liver cancer tissues respectively, and the positive rate of CD90 was higher in liver cancer tissues than those of normal liver tissues (χ2=6.78, P<0.05) and adjacent liver cancer tissues (χ2=20.83, P<0.05). ②For Huh-7, MHCC97-H, SMMC-7721, and Bel7402 cell lines, the proportions of CD90+ cells in the experimental group was 0.851%, 1.090%, 2.710%, and 4.050% respectively, the proportions of CD90+ cells in the blank control group was 0.241%, 0.688%, 1.890%, and 2.080% respectively, so we chose Huh-7 and MHCC97-H cell lines to perform MACS. ③Results of MACS for Huh-7 cell line. For the first MACS, the proportions of CD90+ cells in the blank control group, experimental group, CD90– group, and CD90+ group was 0.241%, 0.851%, 0.574%, and 1.100% respectively. For the second MACS, the proportions of CD90+ cells in the blank control group, experimental group, CD90– group, and CD90+ group was 0.032%, 0.961%, 0.426%, and 9.700% respectively. Conclusions The normal liver tissues do not express the CD90, but the liver cancer tissues express CD90 highly. There is a few CD90+ cells in Huh-7 and MHCC97-H liver cancer cell lines. The MACS has a certain effect on improving the proportion of CD90+ cells in the cell lines. The serum-free suspension culture has no effect on enriching CD90+ cells.