Objective To prepare the immunonanospheres[SC3Ab-HSA(5-Fu)-NS] against human colorectal cancer and evaluate its immunoreactivity and effects on cancer. Methods SC3Ab-HSA(5-Fu)-NS was prepared by intermolecular cross-linking the monoclonal antibody SC3Ab with human serum albumin nanospheres containing 5-Fu [HAS(5-Fu)-NS] via new hetero-bifunctional crosslinker SPDP. Condensation test and immunoflurecence were used to evaluate the immunoreactivity, the specific binding of SC3Ab-HSA(5-Fu)-NS with colorectal cancer cell line SW1116 was observed by microscope and electron microscope. The specific cytotoxic effects on target cells were evaluated in vitro by MTT assay. SC3AbHSA(5-Fu)-NS, HSA(5-Fu)-NS and 5-Fu were injected into nude mice bearing human colorectal carcinoma, to study the inhibitory activity of SC3Ab-HSA(5-Fu)-NS in vivo. Results The immunoreactivity of SC3Ab-HSA(5-Fu)-NS was well preserved. SC3Ab-HSA(5-Fu)-NS can bind the SW1116 cells specifically. The IC50 value for SC3Ab-HSA(5-Fu)-NS on SW1116 cells was 24.6 μg/ml,which was lower than that of HSA(5-Fu)-NS(345.3 μg/ml) and 5-Fu(325.6 μg/ml). The inhibitory rate of SC3Ab-HSA(5-Fu)-NS on the growth of colorectal cancer xenografts was significantly higher than that of HSA(5-Fu)-NS or 5-Fu(P<0.001).Conclusion SC3Ab-HSA(5-Fu)-NS has immunoreactivity and specific active targeting to the colorectal cancer cells. The anticancer ability of SC3Ab-HSA(5-Fu)-NS is significantly higher than that of HSA(5-Fu)-NS and 5-Fu.
Acute hemorrhagic and necrotizing pancreatitis (AHNP) was induced by injection of sodium taurocholate into pancreatic and biliary duct of rats. TNFα MCAb was infused intravenously 15 minutes before pancreatitis was induced, and plasm TNFα level, serum lipase level and pancratic pathologic changes were tested.Results: the amount of ascites, serum lipase level and palsm TNFα level were significantly incresed and severe pancreatic pathologic changes was induced after AHNP, as compared with those in the control group .However, plasm TNFα level was not elevated after administration of TNFα MCAb, and the amount of ascites and pathologic damage to the pancreas were markely reduced. The animal fatality was reduced too. Conclusions: these suggest that TNFα play an important role in the pathogenesis of AHNP, and TNFα MCAb have a certain therapeutic effect on AHNP in rats.
To verify the role of mAbCD28 in allograft transplantation. The biological action of mAbCD28 had been tested in mixed-lymphocyte-reaction and parathyroid gland allotranplantation in rats. Results: mAbCD28 could significantly suppress the proliferation of T cells in vitro and prolong the survival time of allograft in vivo. The results showed that mAbCD28 could block the costimulatory signals transmitted by CD28 molecules, and played an immunosuppressive role in parathyroid gland transplantation in rats.
With immunohistochemical technique, epithelial membrane antigen monoclonal antibody (EMA) has been used to detect the micrometastatic focus in bone marrow of patients with primary gastric cancer since 1992. In the exmamination of 65 patients, the positive rate of bone metastasis was 58.46%. After comprehensive treatment to these patients, comparative observation showed that there were marked differences between pre-therapeutic (9.45) and post-therapeutic (2.19). The result demonstrates that this technique provides identification of blood micrometastases and has insttructive signnificance for clinical comprehensive treatment.
ObjectiveTo investigate the relationship between the expressions of B-cell-specific monoclonal leukemia virus insert site 1 (Bmi1) and human telomerase reverse transcriptase (hTERT) genes and the proliferative capacity of stem cells. MethodsCord blood CD34+ cells were cultured in IMDM medium containing fetal bovine serum, stem cell growth factor, thrombopoietin, and Fms-like tyrosine kinase 3 ligand during a 28-day ex vivo expansion process, while the expansion fold, specific growth rate, and the colony-forming efficiency were monitored. Then the Bmi1 and hTERT mRNA expressions in CD34+ cells were detected by fluorescence quantitative PCR, and the relations between the expressions and the cell proliferative capacity were analyzed. ResultsCD34+ cells expanded (20.1 ± 3.5) folds during the 28-day culture, while the proportion declined from 95.5% ± 2.6% before culture to 2.1% ± 0.4%. Both the specific growth rate and colony-forming efficiency of CD34+ cells declined significantly after 7 days, while the expression levels of Bmi1 and hTERT mRNA in CD34+ cells reached top at 7 days and declined gradually thereafter. ConclusionThe expressions of Bmi1 and hTERT genes may have a close relation to the proliferative capacity of CD34+ cells.
Six New Zealand white rabbits were under the pentobarbital anesthesia, the sciatic nerve trunk were exposed and divided. Afterwards, both the proximal and distal ends of the divided nerve trunk were incubated with Blue-SAb in the micropipe for 30 minutes at room temperature. The sensory fascieuli which were bly Blue-immunostained among unstained fasciculi and other tissues had been seen under the magnifying operating microscope (×4). The neural cells of the spinal cord and the ganglion were cultured on RPMI 1640 medium containing Bright- Blue.The growth and the metabolism of the neural cells were tested by MTT method. The t-test was used to determine the statistical difference blue staining of the neural cells was considered to be of no statistical significance (Pgt;0.05).
Diabetic macular edema (DME) is a common ocular complication of diabetes patients. It mainly involve macular which is closely related with visual function, thus DME is one of the major reasons causing visual impairment or blindness for diabetes patients. How to reduce the visual damage of DME is always a big challenge in the ophthalmic practice. In the past three decades, there are tremendous developments in DME treatments, from laser photocoagulation, antiinflammation drugs to antivascular endothelial growth factor therapy. However, the mechanism of DME development is not yet completely clear; every existing treatment has its own advantages and weaknesses. Therefore DME treatment still challenges us to explore further to reduce the DME damages.
Objective To observe the effects of dual targets intervention on the expression of vascular endothelial growth factor (VEGF) and connective tissue growth factor (CTGF) in diabetic rat retina. Methods Forty-eight Sprague -Dawley rats were randomly divided into control group (CON1 group) and diabetes mellitus group (DM group). The rats of DM group were induced with streptozotocin injection creating a diabetic model. Retinas were obtained at eight, 10, 12 weeks after DM induction from both groups. CTGF and VEGF mRNA levels were examined by realtime reverse transcriptionpolymerase chain reaction (RT-PCR). Based on the results of above experiments, 60 rats with same conditions were selected. Fifty rats were induced with streptozotocin injection creating a diabetic model, and 10 rats comprised the control group (CON2 group). Then the 50 diabetic rats were randomly divided into ranibizumab and CTGF shRNA dual targets intervention group, ranibizumab singletarget intervention group, CTGF shRNA singletarget intervention group and nonintervention group. Retinas were obtained at one week after intervention from all the groups. CTGF and VEGF mRNA levels were examined by RT-PCR. Results The levels of CTGF mRNA were significantly higher in DM group than that in CON1 group at the 8th weeks after DM induction, and this upregulation was maintained through the 12th week (t=-2.49, -2.67, -2.42;P<0.05). There was no difference on VEGF mRNA levels between DM group and CON1 group at the 8th weeks after DM induction(t=-0.443,P=0.669). VEGF mRNA levels of DM group started to be significantly elevated over those in the CON1 group at the 10th week, and remained to be higher at the 12th week (t=-2.35, -2.57;P<0.05). The VEGF mRNA of ranibizumab single-target intervention group was significantly lower than that in non-intervention group (t=-3.44,P=0.014), which was similar to CON2 group (t=-1.37,P>0.05); however, the CTGF mRNA level was significantly increased as compared to the nonintervention group (t=2.48,P<0.05). In the CTGF shRNA single-target intervention group, the levels of CTGF and VEGF mRNA were decreased as compared to the non-intervention group (t=0.23, -2.92;P<0.05). In the ranibizumab and CTGF shRNA dual targets intervention group, the levels of CTGF and VEGF mRNA were decreased as compared to the non-intervention group (t=-6.09, -5.11;P<0.001), which was similar to CON2 group (t=-1.16, 1.139; P>0.05). Conclusions Both CTGF and VEGF gene expression are up-regulated in early diabetic rat retina, and the level of CTGF increased earlier than VEGF. Ranibizumab combined with CTGF shRNA could simultaneously reduce the level of CTGF and VEGF mRNA in diabetic rat retina.