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find Keyword "Immune response" 7 results
  • Preparation of Bone Marrow Dendritic Cells with TNF-α and The Immune Response Against Malignant Pancreatic Cell by Dendritic Cell Vaccine

    Objective To study the method of obtaining a large number of dendritic cells (DC). To study the specific cytotoxicity T lymphocyte (CTL) effect against tumor cells initiated by DC pulsed with peptide of cancer cell. Methods Development of cells with cytologic features of DC in bone marrow cultures supplemented with granulocyte macrophage-colony stimulus factor (GM-CSF) and IL-4. Determining the DC phenotype and the specific structure by electronic microscopy. The CTL effect against pancreatic carcinoma leading by the DC pulsed with tumor cells lysate in vitro was observed. Results A large number of typical DC was proliferated by supplementing with GM-CSF and IL-4 cytokines. DC had specific cell appearance and structure, and highly expressed various cell surface molecules. TNF-α had the ability of stimulating DC mature, the mature DC had the enhancing abilities of antigen presenting and IL-12 self-secreting, as well as, expressed higher levels of CD54, MHC-Ⅱ and CD86 molecules than control group (P<0.05). T lymphoid cell stimulated by DC without tumor antigen could not recognize and kill the target cells, only if DC pulsed with peptide of cancer cell can lead a b immune response to special tumor cells. The inhibiting ratio of CTL was significantly higher than that in other groups (P<0.01). Conclusion Bone marrow DC has b ability of inducing special CTL against determined cancer cells after they are pulsed with tumor cell lysate. DC vaccine is probably a new immunotherapeutic method against tumor in the near future.

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  • Clinical Significance and Expression of T Helper Cell Secretory Cytokines in Esophageal Squamous Cell Carcinoma Tissues

    Objective To investigate the clinical significance and expression of T helper cell secretory cytokines in esophageal squamous cell carcinoma tissues, which provide theoretical basis of reasonable and effective therapy for patients with esophageal carcinoma. Methods Fifty-six specimens of patients who underwent esophageal carcinoma resection were divided into two groups. Group A (n=28) included grade Ⅰand Ⅱ specimens of esophageal squamous cell carcinoma, group B (n=28) included grade Ⅲ and Ⅳ specimens of esophageal squamous cell carcinoma. Control group included 6 specimens of esophagitis. The expression of tumor necrosis factor alpha (TNF-α), interleukin 10 (IL-10) and transforming growth factor beta (TGF-β) in all specimens were detected. Results The positive expression of TNF-α,TGF-β and IL-10 in group A and group B were significantly higher than those in control group(Plt;0.01); the positive expression of TNF-α in group A was higher than that in group B, while the positive expression of TGF-β and IL-10 were lower than those in group B (Plt; 0.01). There was negative correlation between the positive expression of TNF-α and IL-10, TGF-β(Plt;0.01), and positive correlation between TGF-β and IL-10 (Plt; 0.01). The positive expression of TNF-α in patients of survival period in 3 years was lower than that exceed 3 years(F=36.25 ,Plt;0.01),while the positive expression of IL-10 and TGF-β in the patients of survival period in 3 years were higher than those exceed 3 years(F=29.29,26.69;Plt;0.01). Conclusion By the way of changing the level of cytokines secretion from T helper cells, esophageal squamous cell carcinoma tissues destroyed the balanced condition of patient’s immune system, which made esophageal carcinoma tissues escape the attack from the patient’s immune system and promote the invasion into surrounding tissues.

    Release date:2016-08-30 06:25 Export PDF Favorites Scan
  • STUDY ON IMMUNE RESPONSE AFTER REPAIR OF NERVE DEFECT WITH ACELLULAR NERVE XENOGRAFT LADEN WITH ALLOGENIC ADIPOSE-DERIVED STEM CELLS IN RHESUS MONKEY

    Objective To observe the systemic and local immune response after repair of nerve defect with acellular nerve xenograft laden with allogenic adipose-derived stem cells (ADSCs) in rhesus monkey so as to evaluate the safety of the proposed material for nerve reconstruction. Methods Bilateral tibial nerves were taken from a healthy adult male landrace (weighing 48 kg) to prepare acellular nerve xenograft by chemical extraction. ADSCs were isolated from a healthy adult male rhesus monkey (weighing 4.5 kg), and were seeded into the acellular nerve grafts. The radial nerve defect models with 25 mm in length were established in 10 healthy adult female rhesus monkeys (weighing 3-5 kg), and they were divided into cell-laden group (n=5) and non-cell-laden group (n=5) randomly. Defect was repaired with acellular nerve xenograft laden with allogenic ADSCs in cell-laden group, with acellular nerve xenograft only in non-cell-laden group. The blood samples were taken from peripheral vein preoperatively and at 14, 60, and 90 days after operation for lymphocyte analysis; at 5 months after operation, the grafts were harvested to perform histological examination for local immune response and nerve regeneration. The nerve autograft in rhesus monkey was used as control. Results In cell-laden group and non-cell-laden group, no significant difference was found in the count of lymphocytes and T lymphocytes, the percentage of T lymphocytes, CD8+ T lymphocytes, as well as the ratio of CD4+ T lymphocytes to CD8+ T lymphocytes between pre- and post-operation (P gt; 0.05); in cell-laden group, the percentage of CD4+ T lymphocytes at 14 days was significantly lower than that at 60 and 90 days postoperatively (P lt; 0.05). The percentage of CD4+ T lymphocytes in cell-laden group was significantly lower than that in non-cell-laden group at 14 days (P lt; 0.05), but no significant difference was found in the other indexes at the other time between 2 groups (P gt; 0.05). At 5 months after operation, mild adhesion was found on the surface of nerve xenografts; the epineurium of nerve xenografts was thicker than that of nerve autografts; and neither necrosis nor fibrosis was found. CD3+, CD4+, CD8+, CD68+, and CD163+ T lymphocytes were scattered within the grafts, in which regenerative axons were revealed. CD3+, CD4+, CD8+, CD68+, and CD163+ T lymphocytes were comparable in cell-laden group, non-cell-laden group, and autograft group. Conclusion Repair of nerve defect with acellular nerve xenograft elicits neither systemic nor local immune response in rhesus monkeys. Implantation of allogenic ADSCs might result in transient depression of CD4+ T lymphocytes proliferation early after surgery, no immune response can be found.

    Release date:2016-08-31 04:24 Export PDF Favorites Scan
  • IMMUNOLOGICAL INVESTIGATION OF REPAIR OF ARTICULAR CARTILAGE DEFECTS WITH ALLOGENEIC CHONDROCYTES IN PORCINS

    Objective To evaluate the immunological reaction and the outcome of allogeneic chondrocyte transplantation in repairing articular cartilage defects in porcins. Methods Full articular cartilage from the knee of two Shanghai white porcins about one-month-old was removed and cut mechanically, digested by 0.25% trypsin and 0.2% type Ⅱ collagenase and cultured in 10% DMEM medium. Defects of 0.5 cm×0.5 cm involving the subchodral bone were created in both the left and right femur condyloid in 8 two-month-old Yunnai bama porcins. Allogeneic chondrocyte transplantation were implanted in defects at a density of (1.0-2.0)×106,0.2 ml. The lymphocytes from the receivers’ blood were collected before transplantation and after 3, 5, 7 and 12 weeks of transplantation, then mixed with allogeneic chondrocytes to determin the lymphocyte stimulation index(SI) in vitro. The histological observation in vivo was made after 5, 7 and 24 weeks of transplantation. Results Lymphocyte SI at 3, 5, 7 and 12 weeks(1.457±0.062,1.739±0.142,1.548±0.047,1.216±0.028) after transplantation was higher than that before transplantation(1.102±0.034,Plt;0.05). SI began to increase in the 3rd week and reached the peak value in the 5th week, then gradually declined at the 7th and 12th weeks, showing significant differences when compared with in the 5th week (Plt;0.05). Inflammation and lymphocytes infiltration could be seen in subchondral bone and the intergration area between repair tissue and normal cartilage in the 5th week, and then decreased and limited in subchondral bone in the 7th week. Defects were filled with cartilage tissue, which had good intergration with subchondral bone at 24 weeks after transplantation. Conclusion Immunological reactions can be found at early stage of allogeneic chondrocyte transplantation and then decreased with the time, the fullthickness articular cartilage defects could be repaired mainlywith hyaline cartilage by the allogeneic chondrocyte transplantation. This may provide a new method to repair articular cartilage defects clinically.

    Release date:2016-09-01 09:20 Export PDF Favorites Scan
  • THE INFLUENCE OF TISSUE ENGINEERED TENDON ON SUBGROUP OF T LYMPHOCYTES AND ITS RECEPTOR IN ROMAN CHICKENS

    OBJECTIVE: To investigate the influence of tissue engineered tendon on subgroup of T lymphocytes and its receptor in Roman chickens. METHODS: The flexor digitorum profundus of the third toes of right feet in 75 Roman chickens were resected and made 2.5 cm defects as experimental model. They were randomly divided into five groups according to five repair methods: no operation (group A), autograft (group B), fresh allograft (group C), polymer combined with allogenous tendon cells (group D), derived tendon materials combined with allogenous tendon cells (group E). The proliferation and transformation of lymphocytes and contribution of CD4+, CD8+, CD28 and T cell receptor (TCR) were detected to study the immune response. RESULTS: The CD4+, CD8+ and TCR of group D and E were increased slightly than that of group B after 7 days, while after 14 days, those data decreased gradually and no significant difference between tissue engineered tendon and autografts (P gt; 0.05), and there was significant difference between fresh allograft and tissue engineered tendon (P lt; 0.05). Lymphocytes transformation induced by conA also showed no significant difference between tissue engineered tendon and autografts (P gt; 0.05). CONCLUSION: Tendon cells are hypoantigen cells, there are less secretion of soluble antigen or antigen chips dropped out from cells. Tissue engineered tendon has excellent biocompatibility.

    Release date:2016-09-01 10:20 Export PDF Favorites Scan
  • Therapeutic Targets of Pancreatic Cancer

    ObjectiveTo summarize the therapeutic targets of pancreatic cancer (PC). MethodsThe related literatures about the therapeutic targets of PC were reviewed. ResultsPC was one of the most challenging tumor in worldwide, and was characterized as a highly aggressive disease with poor overall prognosis and a high mortality rate. The hallmark of PC was its poor response to radio-and chemo-therapy. Current chemotherapeutic regimens could not provide substantial survival benefit with a clear increase in overall survival. Recently, several new approaches which could significantly improve the clinical outcome of PC had been described, involving signal-transduction pathways, immune response, stroma reaction, and epigenetic changes. ConclusionsMany therapeutic targets are involved in the treatment of PC. As current therapies failed to significantly improve the progression and the survival of PC, new therapeutic approaches and clinical studies are strongly required.

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  • RESEARCH PROGRESS OF IMMUNO-INFLAMMATORY RESPONSE AND PATHOLOGICAL SCAR

    ObjectiveTo review the research progress of the roles of inflammation and immune response in the formation of pathological scar. MethodsThe recent literature concerning the formation mechanism of pathological scar was extensively consulted, inflammation and immune response involved in the formation of pathological scar was reviewed. ResultsThe formation of pathological scar is associated with inflammation and immune response, some inflammatory factors will promote the activation of immune cells, then induce immune cells releasing cytokines and aggravate inflammatory response. However, inflammation response also affects the level of immune response. So they work together to promote the formation of pathological scar by the immuno-inflammatory cells and media. ConclusionThe formation of pathological scar is not only related to inflammation response, but also involves in immune response. Moreover, immune response is the new progress in the study of pathological scar mechanism in recent years. Further research of immuno-inflammatory response will provide new ideas and corresponding basis for the prevention of pathological scar.

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