纳米颗粒MntC-rePO@LS双联疫苗的构建及其对铜绿假单胞菌与金黄色葡萄球菌感染的免疫保护效果研究OA
Bivalent nanovaccine MntC-rePO@LS conffers efective protections against Pseudomonas aeruginosa and Staphylococcus aureus
目的 细菌耐药性问题日益严峻,尤其金黄色葡萄球菌(Staphylococcus aureus,SA)与铜绿假单胞菌(Pseudomonas aeruginosa,PA)共感染可协同加重病情,临床治疗困难.基于二氧四氢喋啶合酶(lumazine synthase,LS)自组装纳米颗粒,构建一种共展示SA抗原锰离子转运蛋白C(Manganese transporter C,MntC)与PA重组V抗原与外膜蛋白OprI(recombinant PcrV-OprI fusion antigen,rePO)的双联纳米疫苗MntC-rePO@LS,并假设其能在SA与PA单一及共感染模型中提供优于单体或物理混合组的免疫保护效果.方法 利用基因工程技术和SpyTag/SpyCatcher系统制备MntC-rePO@LS双联纳米颗粒.将6~8周龄雌性BALB/c小鼠(体质量18~20 g)按随机数字表法分为(n=5):PBS组、LS组(含8.57 μg LS)、rePO组(含9.43 μg rePO)、MntC组(含10.00 μg MntC)、物理混合组(含8.57 μg LS、10.00 μg MntC和9.43 μg rePO)及MntC-rePO@LS组(含10.86 μg rePO-ST和18.57 μg MntC@LS).各组均以PBS缓冲液为溶剂配制相应制剂,于第0、7、14天经肌肉注射免疫.采用SDS-PAGE、分子筛层析、动态光散射和透射电镜对疫苗进行理化表征;通过红细胞溶血实验、细胞毒性实验、小鼠体质量监测、组织病理学检查、血常规与血生化分析评估其体内外安全性;于末次免疫后第7天采集血清,采用间接ELISA法检测抗MntC与抗rePO的特异性IgG抗体及其亚型水平以评价免疫原性.分别建立PA、SA及PA/SA共感染的肺炎小鼠模型,攻毒后监测体质量、感染评分,并于24 h后检测肺组织细菌载量及观察病理变化以评价保护效果.结果 成功构建了结构均一、粒径约65.69 nm的MntC-rePO@LS纳米颗粒.该疫苗在10~200 μg/mL浓度内无明显溶血及细胞毒性,免疫小鼠体质量正常增长,主要脏器及注射局部肌肉未见病理损伤,血常规与血生化指标均在正常范围内.免疫原性结果显示,MntC-rePO@LS组抗MntC与抗rePO特异性IgG效价在3个检测时间点(第0、7、14天)均显著高于单体组及物理混合组(P<0.05),且以IgG2b亚型为主.在PA、SA单一及共感染模型中,与各对照组相比,MntC-rePO@LS组小鼠体质量恢复更快,感染评分更低,肺组织细菌载量均显著降低(P<0.05),肺组织病理损伤明显减轻.结论 成功构建的MntC-rePO@LS双联纳米颗粒疫苗具有良好的安全性与免疫原性,可在SA与PA单一及共感染模型中提供显著的免疫保护,证实了其作为应对细菌耐药性及多微生物共感染候选疫苗的科学假设.
Objective The escalating threat of antimicrobial resistance poses significant clinical challenges,particularly in cases of co-infections involving Staphylococcus aureus(SA)and Pseudomonas aeruginosa(PA),which synergistically increase disease severity and complicate therapeutic interventions.A bivalent nanovaccine,MntC-rePO@LS,was constructed by co-displaying the SA antigen Manganese transporter C(MntC)and the PA recombinant PcrV-OprI fusion antigen(rePO)based on self-assembling lumazine synthase(LS)nanoparticles.We hypothesized that this vaccine would provide superior immunoprotection against both single and co-infections with SA and PA compared to monomeric or physically mixed formulations.Methods The MntC-rePO@LS bivalent nanoparticles were prepared using genetic engineering and the SpyTag/SpyCatcher system.Female BALB/c mice(6 to 8 weeks old,weighing 18 to 20 g)were randomly divided into 6 groups:PBS,LS(8.57 μg LS),rePO(9.43 μg rePO),MntC(10 μg MntC),physical mixture(8.57 μg LS,10 μg MntC,and 9.43 μg rePO),and MntC-rePO@LS(10.86 μg rePO-ST and 18.57 μg MntC@LS)groups,with 5 animals in each group.The mice from the above groups were immunized intramuscularly with corresponding agents dissolved in PBS buffer on days 0,7,and 14.The vaccine was characterized by SDS-PAGE,size-exclusion chromatography,dynamic light scattering,and transmission electron microscopy(TEM).In vitro and in vivo safety of the vaccine was assessed through hemolysis assay,cytotoxicity test,body weight monitoring,histopathological examination,and hematological and serum biochemical analyses.The serum samples were collected on day 7 after the final immunization,and the titers and subtypes of anti-MntC and anti-rePO IgG were evaluated by indirect ELISA to evaluate the immunogenicity of the vaccine.Protective efficacy was assessed in mouse pneumonia models of single PA,single SA,and PA/SA co-infections by monitoring body weight and infection scores post-challenge,and by quantifying lung bacterial loads and observing histopathological changes at 24 h post-challenge.Results We successfully constructed homogeneous MntC-rePO@LS nanoparticles with a hydrodynamic diameter of approximately 65.69 nm.The vaccine exhibited no significant hemolysis or cytotoxicity at concentrations ranging from 10 to 200 μg/mL.The immunized mice demonstrated normal body weight gain,with no pathological damage observed in major organs or at the injection site,and all hematological and biochemical parameters remained within normal ranges.Immunogenicity studies revealed that the MntC-rePO@LS group induced significantly higher anti-MntC and anti-rePO specific IgG titers at all 3 time points tested(day 0,7,and 14)compared to monomer and physical mixture groups(P<0.05),with a predominant IgG2b subtype response.In the models of single PA,single SA,and co-infections,the MntC-rePO@LS group exhibited faster body weight recovery,lower infection scores,significantly reduced bacterial loads in the lungs(P<0.05),and markedly attenuated lung histopathological damage compared to all control groups.Conclusion The successfully constructed MntC-rePO@LS bivalent nanovaccine demonstrates favorable safety and immunogenicity,providing significant immune protection against single and co-infections with SA and PA.These findings validate its potential as a candidate vaccine to address antimicrobial resistance and polymicrobial infections.
赵辉;余瑛;李宇航;张月月;胡仁建;夏欢;朱自凡;刘兴龙;张怡;顾江
重庆理工大学药学与生物工程学院,重庆||陆军军医大学(第三军医大学)药学与检验医学系微生物与生化药学教研室,国家免疫生物制品工程技术研究中心,重庆重庆理工大学药学与生物工程学院,重庆陆军军医大学(第三军医大学)药学与检验医学系微生物与生化药学教研室,国家免疫生物制品工程技术研究中心,重庆重庆原伦生物科技有限公司,重庆重庆理工大学药学与生物工程学院,重庆重庆原伦生物科技有限公司,重庆陆军军医大学(第三军医大学)药学与检验医学系微生物与生化药学教研室,国家免疫生物制品工程技术研究中心,重庆陆军军医大学(第三军医大学)药学与检验医学系微生物与生化药学教研室,国家免疫生物制品工程技术研究中心,重庆||陆军军医大学(第三军医大学)第二附属医院呼吸与危重症医学科,重庆陆军军医大学(第三军医大学)药学与检验医学系微生物与生化药学教研室,国家免疫生物制品工程技术研究中心,重庆陆军军医大学(第三军医大学)药学与检验医学系微生物与生化药学教研室,国家免疫生物制品工程技术研究中心,重庆
医药卫生
双联纳米疫苗铜绿假单胞菌金黄色葡萄球菌免疫保护
bivalent nanovaccinePseudomonas aeruginosaStaphylococcus aureusimmunoprotection
《陆军军医大学学报》 2026 (8)
1003-1013,11
国家重点研发计划(2024YFC2310801)国家自然科学基金青年科学基金项目(82502215) Supported by the National Key Research and Development Program(2024YFC2310801)and the National Natural Science Foundation for Young Scholars of China(82502215).
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