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Objective@#To evaluate the immune persistence following intradermal(ID) vaccination with diphtheria-tetanusacellular component pertussis and Sabin-derived inactivated poliovirus vaccine(DTacP-sIPV).@*Methods@#40 wistar rats were randomly assigned into four groups.Two test groups were injected intradermally with fractional-doses(1/5 and 1/10dose) of DTacP-sIPV(1/5D ID and 1/10D ID group);The positive control group was intramuscularly injected with full dose of DTacP-sIPV(full-dose IM group);The negative control group was injected with PBS intradermally.Wistar rats were immunized 3 times at 0,1 and 2 months and the blood samples were collected via tail vein 12 months after the last immunization and the serum samples were isolated.The titer of neutralizing antibody against poliovirus was detected by micro-neutralization test,and the titers of IgG antibodies against diphtheria toxin(DT),tetanus toxin(TT),pertussis toxin(PT),filamentous hemagglutinin(FHA) and pertactin(PRN) in rat serum were detected by indirect ELISA.The geometric mean titer(GMT)and positive rate of antibody were calculated.The rats were challenged with aerosolized B.pertussis for 30 min 12 months after the last immunization and determined for the white blood cell(WBC) count and colony-forming unit(CFU) in lung,trachea and nose at day 2,5 and 14 after challenge.@*Results@#Compared with the full-dose IM group,there was no significant difference in the positive rates of poliovirus type Ⅰ,Ⅱ and Ⅲ neutralizing antibodies between 1/5D ID and 1/10D ID groups(each P> 0.05) and the positive rates of all types of antibodies in the control group were 0.The positive rates of IgG antibodies against DT,TT,PT,FHA and PRN in 1/5D ID,1/10D ID and full-dose IM groups were all 100%,and those in control group were all 0.Compared with 2 d after challenge,the WBC counts of rats in control group increased significantly 5 d after aerosol challenge with B.pertussis(F=3.48,P <0.05),and then began to decrease,while those in other groups remained stable with time(F=0.14~1.30,P> 0.05).After aerosol challenge,the CFU in lungs of rats in control group was significantly higher than that in the other three groups(F=19.00~206.00,P<0.05),and B.pertussis was still detected 14 d after challenge;Except for the control group,the bacterial load in lungs of rats in the other three groups reached the peak 5d after challenge,the B.pertussis was basically cleared on the 14d,and there was no significant difference among the groups at each time point(F=1.14~1.25,P> 0.05).The bacterial load of trachea and nose in the control group was slightly higher than that in other groups at each time point,but the difference was not significant(F=0.71~3.54,P> 0.05).Except for the control group,the bacterial load in the trachea and nose of the other three groups were similar,and no significant difference was observed(F=0.75~3.41,P>0.05).@*Conclusion@#ID immunization with1/5 dose of DTacP-sIPV induced persistent protective antibodies against various components of the vaccine in rats.This study provided an experimental basis for the formulation of immunization strategy of ID immunization with fractional dose of DTacP-sIPV.
RESUMEN
Tumor microenvironments (TMEs) are closely related to tumor resistance. TMEs are divided into cellular components and acellular components. The cellular components include tumor-associated macrophages, tumor-associated fibroblasts, mesenchymal stem cells, etc., which can enhance tumor resistance through recruitment and secretion of a variety of protective cytokines; acellular components such as extracellular matrix, hypoxia and acidification, etc., can mediate drug resistance by constructing physical barriers, affecting tumor cell growth and metabolism. Studying the mechanisms of TME-mediated drug resistance and reshaping TMEs can provide new strategies for anti-tumor therapy.