ObjectiveTo investigate the protective effect of SadenosylLmethionine on liver regeneration and liver function in cirrhotic rats after hepatectomy. MethodsCirrhosis was successfully induced by injection of 40% CCl4.Then,partial hepatectomy (about 30%) was performed in all rats. Cirrhotic rats were divided into 3 groups,namely,cirrhotic group (normal saline 5 ml/d,for 15 postoperative days,n=20),treatment group 1 〔S adenosylLmethionine 10 mg/(kg·d),for 15 postoperative days,n=16〕 and treatment group 2 〔SadenosylL methionine 20 mg/(kg·d),15 postoperative days,n=16〕,and normal control group was also established. Animals were sacrificed at the 15th postoperative day and 30th postoperative day to take samples for detection of liver function (Alb,ALT,TB,TBA) and serum TNFα.Liver tissues were also observed under light microscope and electron microscope. ResultsIn two treatment groups,at the time point (15 postoperative days or 30 postoperative days),concentrations of ALT,TB,TBA,Alb and TNFα were decreased significantly as compared with cirrhotic group (P <0.01),and concentration of Alb was increased significantly (P<0.01).In contrast, there were no obvious difference in the same time point of different dosetreatment groups (Pgt;0.05),but the decrease of ALT,TB,TBA,TNFα and the increase of Alb were more significant at the second time point (30th postoperative day) than the first time point (15th postoperative day) when treated with same dose (P<0.01).At the same time,concentration between TNF α and ALT,TB,TBA showed a positive correlation (P<0.01),and the concentration between TNFα and Alb showed a negative correlation (P<0.01).In addition, the histopathology showed SadenosylLmethionine had effects of protecting liver function and enhancing liver regeneration. ConclusionThe study suggests that SadenosylL methionine has the efficacy of enhancing liver regeneration and improving liver function.
;ObjectiveUsing human tumor necrosis factoralpha (TNFα) genetransduced human liver cancer cell BEL7404 as tumor vaccine, to study the effect of immune rejection to mice liver cancer implanted tumors. MethodsMice were divided into five groups, and were inoculated with TNFα genetransduced BEL7404 cells which irradiated with 60Co (BEL7404TNFCo group), TNFα genetransduced BEL7404 cells (BEL7404TNF group), BEL7404 cells (BEL7404 group), BEL7404 cell irradiated with 60Co (BEL7404Co group) respectively. Normal saline was injected in control group. Then mice liver cancer H22 cells were implanted to each group, the growth of mice liver cancer implanted tumors was observed. The apoptosis index of implanted tumors was detected by TUNEL method.ResultsCompared to BEL7404 group,BEL7404Co group and control group, the tumor vaccine which did not transduce with TNFα gene and the control group, the tumorigenesis rate of liver cancer implanted tumors was reduced, the growth of implanted tumors was inhibited and the apoptosis of implanted tumors was increased in BEL7404TNFCo group,P<0.01.There was no difference between BEL7404TNFCo group and BEL7404TNF group,Pgt;0.05. ConclusionHuman tumor necrosis factoralpha genetransduced human liver cancer cell can be used as tumor vaccine, it has quite b effect of immune rejection to mice liver cancer implanted tumors.
ObjectiveTo observe the effect of Crocin on structure and the expression of tumor necrosis factor-alpha; (TNF-alpha;) and interleukin-1beta; (IL-1beta;) in rat retina after injury by ischemia-reperfusion. Methods A total of 80 Sprague-Dawley male rats at the age of 8 -10 weeks were divided into control group, model group, low-dose Crocin group and high-dose Crocin group, with 20 rats in each group. The rats of control group were not treated. The rats in model, low-dose Crocin and high-dose Crocin group were induced with normal saline by anterior chamber perfusion creating a retinal ischemia-reperfusion (RIR) model. The rats of the low-dose Crocin and highdose Crocin group received intraperitoneal injection with different doses of Crocin solution (5 mg/kg, or 50 mg/kg) 30 minutes prior to ischemic injury and one time per day after successful RIR. Optical microscopy was used to observe the retinal structure. Enzymelinked immunosorbent assay (ELISA) was used to measure the expression of TNF-alpha; and IL-1beta; 6, 12, 24 and 48 hours after RIR. ResultsThe retinal structure of control group was normal. Pathological changes were found in the RIR model and low-dose Crocin group, such as retinal edema, disorganized structure and loosely packed cells. The degree of pathological changes in lowdose Crocin group was less than the RIR model group. The retinal structure of high-dose Crocin group was similar to the control group. The expression of TNF-alpha; was the highest at 24 hours after modeling, while the expression of IL-1beta; was the highest at 12 and 48 hours after RIR modeling. Six, 12, 24 and 48 hours after RIR modeling, compared with the control group, the TNF-alpha; expression of model (t=5.42, 7.94, 9.32, 9.18;P<0.05 ), low-dose Crocin (t=3.94, 4.12, 4.98, 3.84;P<0.05) and high-dose Crocin group (t=2.13, 2.34, 2.96, 2.78;P>0.05) were increased. Compared with the RIR model group, the TNF-alpha; expression of low-dose Crocin (t=3.95, 4.56, 4.01, 5.12) and high-dose Crocin group (t=5.23, 7.65, 7.74, 7.63) was decreased. Compared with the control group, the IL-1beta; expression of model (t=7.23, 7.87, 7.15, 15.60), low-dose Crocin (t=5.65, 5.10, 5.54, 6.87;P<0.05) and high-dose Crocin group (t=4.38, 5.21, 4.56, 4.75) was increased (P<0.05). Compared with the model group, the IL-1beta; expression of low.dose Crocin group was decreased significantly 48 hours after RIR modeling (t=7.56,P<0.05); but it decreased significantly at each time point in high-dose Crocin group (t=6.94, 5.36, 6.05, 10.50;P<0.05). Conclusion Crocin can improve the retinal pathologic changes, while down-regulating TNF-alpha; and IL-1beta; expression in RIR rats.
Objective To observe the histopathologic features and expression patterns of tumor necrosis factor-alpha; (TNF-alpha;), interleukin-1beta;(IL-1beta;) and Escherichia coli lipopolysaccharide (LPS) in the rat vitreous with LPS inducedendophthalmitis. Methods Wistar rats were randomly divided into saline control group (SC,136 rats),endophthalmitis group (EO, 168 rats)and blank control group (BC,12 rats).EO group received an intravitreal injection of 5 mu;l LPS; SC group received 5 mu;l sterile saline and no intervention for BC group.Six,12,24,48, and 72 hours,5 and 7 days after injection, intraocular inflammation were observed and the eyes and vitreous were collected for histopathological examination and measurement of TNF-alpha;, IL-1beta; and LPS expression. Results Severe inflammatory responses in the eyes were observed in EO group between six and 72 hours after LPS injection,ocular inflammation subsided seven days after LPS injection. In the vitreous, a peak neutrophil count was observed at 24 hours (1224.64plusmn;132.2) cells/eye that rapidly declined at 72 hours (342.25plusmn;47.7) cells/eye. The levels of TNF-alpha; and IL-1beta; in EO group were peaked at 24 hours with (996.18plusmn;89.45) and(5556plusmn;1440)pg/ L, respectively;Persisted at 48 hours and began to decline rapidly thereafter. Seven days after LPS injection, levels of TNF-alpha; and IL-1beta; returned to baseline with (22.16plusmn;5.84)and (73.7plusmn;18.7) pg/L, respectively. LPS concentration in EO group decrease rapidly at 72 hours with (11.03plusmn;3.41) ng and disappear on days 7 with (0.22plusmn;0.08) ng after LPS injection.Conclusions Massive neutrophils infiltration, high levels expression of TNF-alpha; and IL-1beta; and spontaneous elimination of bacterial elements in vitreous cavity were major pathologic characteristics in this experimental model. The expression patterns of TNF-alpha;,IL-1beta; were in accord with LPS clearance process.
Objective To observe the efficacy of the anti-tumor necrosis factor-alpha; monoclonal antibody (TNF-alpha; MCAb) in the treatment of experimental autoimmune uveoretinitis (EAU). Methods EAU animal models were induced by interphotoreceptor retinoid-binding protein (IRBP) R16 peptide with immunization. The rats were divided into 2 groups according to the injection times. TNF-alpha; MCAb was administered intravenously on day 6 or 4, 6 and 8 post-immunization respectively, and then to observe the clinical expression by slit-lamp microscope. Meanwhile, take the rats which did not accept TNF-alpha; MCAb as control group. Delayed type hypersensitivity (DTH) responses were measured on day 13 post-immunization of IRBP R16; the rats were killed on day 14 post-immunization of IRBP R16, and then enucleated the eyes for histopathological examination. To detect the cytokine level of IFN-gamma;, IL-4 in serum and IFN-gamma; in aqueous humor by enzyme-liked immunosorbent assay (ELISA) on day 14 post-injection. The hyperplasia responses of antigen specific lymphocyte of draining lymph node cells were detected. Results The TNF-alpha; MCAb group had mitigated ocular inflammation and decreased pathological grades compared with the control group; the IFN-gamma; concentrations in aqueous humor and serum were decreased, IL-4 was increased in serum; DTH responses were decreased; the hyperplasia responses of draining lymphocytes to IRBP R16 peptide were decreased, all the differences were statistically significant (P<0.01). The rats accepted TNF-alpha; MCAb thrice had much better curative effect than the rats injected once (P<0.05). Conclusions Injection of TNF-alpha; MCAb can inhibit ocular inflammation and specific immune cells of EAU remarkably and change the Th1/Th2 balance. Many times injections of TNF-alpha; MCAb were more effective than once.