Objective To investigate the relationship between blood CD4 + CD25 + regulatory T cells ( Treg cells) and cell immunity in patients with sepsis and its prognostic value.Methods 27 patients with sepsis admitted during August 2007 and August 2008 in ICU were enrolled, while 40 healthy volunteers served as control. According to the clinical outcome after 28 days’ treatment, the sepsis patients were assigned to a death group( n=8) and a survival group ( n =19) . Blood Treg% and CD4 /CD8 were detected by flow cytometry and total AgNOR area/nucleus area per cell ( IS%) was measured by silver nitrate staining and image processing. Results The Treg% in the patients with sepsis was significant higher than that in the normal control [ ( 5. 61 ±1. 60) % vs. ( 0. 78 ±0. 23) % , P lt; 0. 01 ] , while the level of CD4 /CD8 and IS% were significant lower[ CD4 /CD8: ( 1. 09 ±0. 30) vs. ( 1. 71 ±0. 36) , IS% : ( 5. 19 ±1. 07) % vs. ( 6. 76 ±0. 92) % , both P lt; 0. 01] . Significant correlations were found between Treg% and CD4 /CD8( r= - 0. 484, P lt;0. 01) , and between Treg% and IS% ( r = - 0. 588, P lt;0. 01) . Compared with the survival group, Treg% was significant higher [ ( 7. 09 ±1. 17) % vs. ( 5. 00 ±1. 33) % , P lt; 0. 01] , and CD4 /CD8 and IS% were significant lower[ CD4 /CD8: ( 0. 87 ±0. 22) vs. ( 1. 18 ±0. 29) , IS% : ( 3. 97 ±0. 42) % vs. ( 5. 71 ±0. 81) % , both P lt; 0. 01] in the death group. Conlusion Blood Treg% level can reflect the cell immune state of patients with sepsis and is of clinical value to assess the prognosis.
【Abstract】ObjectiveTo investigate the effect of RNA editing enzyme ADAR1 on the function of lymphocyte immune by transferring mouse lymphocytes with plasmid of sense siRNA and by suppressing the expression of ADAR1. MethodsThe cell strains of human hepatic cellular carcinoma (HCC) were frozen and thawed repeatedly to prepare for tumor soluble antigen. The isolated mouse lymphocytes, which were transferred with antisense siRNA plasmid of ADAR1 and were sensitized with soluble tumor antigen were used as the study group; those which were not transferred but were sensitized were used as the control group. The 3HTdR adulteration experiment was used to test the sensitivity of lymphocytes. The effect of ADAR1 on lymphocyte immunity was detected by lymphocytotoxicity tests. ResultsThe observation of the isolated lymphocytes implied that the growth cycle of lymphocyte was 10-14 days. The 3HTdR adulteration experiment showed the result was optimal. The number of HCCs decreased significantly for both of the groups compared with those in the blank holes, but the amplitude was much larger in the control group. The expression of ADAR1 in lymphocytes of the study group was significantly lower than that of the control group, which demonstrated that the RNA plasmid of ADAR1 suppressed the expression of ADAR1 in sensitized lymphocytes and the suppressing rate of the control group (87.47±4.62)% was significantly higher than that of study group (53.19±3.95)%. The function of lymphocytes killing targetcells in the study group was significantly inferior to that of control group (P<0.05). ConclusionRNA editing enzyme ADAR1 may play an important role in mouse cellullar immunologic response and it is possible to attenuate the cellimmune response by depressing the expression of ADAR1.