1.Effect and mechanisms of adjuvant therapy for ulcerative colitis with Bifid Lriple Viable.
Guo-Hua LI ; Jiang CHEN ; Nong-Hua LV ; Al ET ;
Chinese Journal of Practical Internal Medicine 2006;0(22):-
Objective To research the effect of Bifid Lriple Viable on validity for adjuvant treating ulcerative colitis,colon mucosa IgA and sera immunity indexes in patients with ulcerative colitis.Methods The patients with ulcerative colitis in our hospital from November 2004 to June 2006 were randomized into experiment group and control group.The patients in experiment group were treated with Bifid Lriple Viable and routine treatment,however the patients in control group received only routine treatment.The clinical symptom score,colon mucosa inflammation score,colon mucosa IgA expression,sera T lymphocyte subgroup,sera immunoglobulins and complement C3 and C4 were compared between two groups before treatment and two months after treatment.Results The clinical symptom score and colon mucosa inflammation score and colon mucosa IgA expression,sera T lymphocyte subgroup,sera immunoglobulins and complement C3 and C4 had no significant difference between two groups before treatment.Two months after treatment,the clinical symptom score and colon mucosa inflammation score descended significantly(P0.01),but the ascending value of ratio of CD4+ to CD8+ T lymphocyte was more in experiment group than control group(P
2.Role of humoral immune response in the protection induced by H.pylori vaccine with chitosa as adjuvant
Yong XIE ; Yan-Feng GONG ; Nan-Jin ZHOU ; Jiang CHEN ; Xiao-Jiang ZHOU ; Nong-Hua LV ; Chong-Wen WANG
Chinese Journal of Pathophysiology 1986;0(03):-
AIM: To study the immunological protection of H. pylori vaccine with chitosa as adjuvant. METHODS: One-grade female BALB/c mice were randomly divided into nine groups and immunized by ①PBS alone; ②chitosan solution alone; ③chitosan particles alone; ④H. pylori antigen alone; ⑤H. pylori antigen plus chitosan solution; ⑥H. pylori antigen plus chitosan particles; ⑦H. pylori antigen plus CT; ⑧H. pylori antigen plus chitosan solution and CT; ⑨H. pylori antigen plus chitosan particles and CT. At 4 weeks after the last immunization, these mice were challenged by alive H. pylori(1?1012CFU/L) twice at two-day intervals. At 4 weeks after the last challenge, these mice were all killed and gastric mucosa were embedded in paraffin, sectioned and assayed with Giemsa staining. The other gastric mucosa were used to quantitatively culture with H. pylori. ELISA was used to detect H.pylori IgA in saliva and gastric mucosa and anti-H.pylori IgG, IgG1, IgG2a in serum, and immunohistochemical method was used to examine sIgA in gastric mucosa. RESULTS: ①In the groups with chitosan as adjuvant, 60% mice achieved immunological protection, which was according to that with CT as adjuvant (58.33%), and was significantly higher than H. pylori antigen alone and other groups without H. pylori antigen(P0.05)and were significantly higher than those in non-adjuvant groups, while those in the groups with chitosan plus CT were significantly higher than those in the group with CT as an adjuvant(P
3.Protection of heat shock preconditioning on acute gastric mucosal lesion in scalded rats and its mechanism.
Hong-yan ZHANG ; Nong-hua LV ; Yong XIE ; Guang-hua GUO ; Jian-hua ZHAN ; Jiang CHEN
Chinese Journal of Burns 2007;23(1):58-61
OBJECTIVETo observe the influence of heat shock preconditioning on the expressions of heat shock protein (HSP) 60 and HSP 70 and on the activities of cytochrome oxidase (CCO) and superoxide dismutase (SOD) in mitochondria in gastric mucosa of severely scalded rats, and to investigate its protective mechanism on acute gastric mucosal lesion in rats with severe scald.
METHODSOne hundred and forty-four Wistar rats were randomized into three groups, i. e. scald group ( n = 40, acute gastric mucosal lesion was made after scald, other 8 normal rats without scald were employed as blank control); HS group ( n =40, with heat shock preconditioning 20 h before scald), and other 8 rats preconditioned with heat shock but without scald were employed as experimental control I; actinomycin D group ( n = 40, with intraperitoneal injection of 0. 1 mg/kg actinomycin D 30 min before heat shock preconditioning and other treatment as HS group), and other 8 rats with merely actinomycin D injection were employed as experimental control II. Eight rats in each group were sacrificed and laparotomized at 3, 6, 12, 24 and 48 post-scald hours (PSH) , respectively to determine the index of gastric mucosal lesions (UI ) , the mRNA expressions of HSP70 and protein expression of HSP60 and HSP70, and the changes in the activities of SOD and CCO.
RESULTSUI of the scalded rats increased as the time elapses, reaching the peak (12. 8 +/- 1.9) at 24 PSH. In addition, UI in HS group was significantly lower than that in scald group at each time-point except that at 3 PSH ( P < 0. 05 or 0. 01). The extent of gastric mucosal lesion in rats in actinomycin D group was obviously aggravated compared with that in scald and HS groups ( P <0. 05). The HSP70 mRNA expression in both scald and HS groups was increased at each time-points except for 48PBH, while that in actinomycin D group was increased at 24 PBH and 48PBH. The expressions of HSP70 and HSP60 were greatly increased in HS group compared with those in scald group ( P < 0. 05 or 0. 01) , while those in actinomycin D group were significantly inhibited ( P < 0. 05). The activities of CCO and SOD were gradually decreased in gastric mucosa in scald group, but it was greatly improved by HS preconditioning at 6, 12, 24 PSH ( P < 0. 05 or 0. 01).
CONCLUSIONHeat shock preconditioning is beneficial for the protection of acute gastric mucosal lesion of rats after severe scald, due to increase of HPS60 and HSP70 expression, and increase of CCO and SOD activities in mitochondria.
Animals ; Burns ; metabolism ; pathology ; Chaperonin 60 ; metabolism ; Electron Transport Complex IV ; metabolism ; Female ; Gastric Mucosa ; metabolism ; pathology ; HSP70 Heat-Shock Proteins ; metabolism ; Heat-Shock Response ; Male ; Mitochondrial Proteins ; metabolism ; Random Allocation ; Rats ; Rats, Wistar ; Superoxide Dismutase ; metabolism