Chlamydia muridarumrecombinant MOMP nanovaccine induces cross-reactive antibodies against Chlamydia trachomatishuman serovars

Rajnish Sahu, Aguy Clemence Nguiakam Sipowe, Vanella Tadjuidje, W. Geisler, B. Van Der Pol, V. Dennis
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Abstract

Chlamydia trachomatis (CT), caused by various serovars, remains the leading sexually transmitted bacterial infection worldwide. An efficient delivery system is critical to developing whole or subunit vaccines against CT, and some vaccine developmental efforts are targeting biodegradable nanoparticles-based vaccines with encapsulated antigens. We developed a nanovaccine employing the recombinant major outer membrane protein (rMOMP) of C. muridarum (Cm) encapsulated in poly(lactic acid-co-glycolic acid) 85/15 (PLGA-rMOMP). We previously compared the humoral responses of two priming routes, subcutaneous (SC) or intramuscular (IM-p), followed by two SC-boosts to evaluate rMOMP-specific serum antibodies [IgG2a, IgG2b and IgG1] produced by PLGA-rMOMP immunization of female BALB/c mice. Here we used an elementary body (EB)-specific ELISA to investigate the ability of systemic antibodies produced in immunized mice to recognize Cm and to cross-recognize human CT-serovars D, F and J. Serum from mice inoculated with PBS encapsulated PLGA served as negative control. We observed high recognition of Cm specific total IgG (8-fold) and isotypes IgG2a (8-fold), IgG2b (32-fold), IgG1 (8-fold) by SC in comparison to IM-p immunizations. We also observed IgG antibodies recognizing CT-serovars D, F and J from mice immunized via both routes. Evaluation of the Th1 (IgG2a, IgG2b)/Th2 (IgG1) antibody titer ratios revealed that immunization via the SC route induced predominantly Th1 antibodies recognizing both Cm and human CT-serovars. Our data show that mice immunized with PLGA-rMOMP produced high levels of systemic antibodies recognizing Cm, but more importantly, there was a robust serological cross-recognition of the human CT-serovars. This research was supported by the National Institute Of Allergy And Infectious Diseases of the National Institutes of Health under Award Number NIH-R21AI111159, NIH-NIGMS-RISE (1R25GM106995-01) and the National Science Foundation (NSF)-CREST (HRD-1241701) and NSF-HBCU-RISE (HRD-1646729) grants.
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重组沙眼衣原体MOMP纳米疫苗诱导针对沙眼衣原体人血清型的交叉反应抗体
由多种血清型引起的沙眼衣原体(CT)仍然是世界范围内主要的性传播细菌感染。有效的递送系统对于开发针对CT的整体或亚单位疫苗至关重要,一些疫苗开发工作正在针对具有包封抗原的可生物降解纳米颗粒疫苗。本研究利用聚乳酸-羟基乙酸85/15 (PLGA-rMOMP)包封的重组C. muridarum (Cm)主要外膜蛋白(rMOMP)开发了一种纳米疫苗。我们之前比较了皮下(SC)或肌内(IM-p)两种启动途径的体液反应,然后进行两次SC增强,以评估PLGA-rMOMP免疫雌性BALB/c小鼠产生的rmomp特异性血清抗体[IgG2a, IgG2b和IgG1]。本研究采用初级体(EB)特异性ELISA检测免疫小鼠产生的全身抗体识别Cm和交叉识别人ct血清型D、F和j的能力。接种PBS封装PLGA的小鼠血清作为阴性对照。我们观察到与IM-p免疫相比,SC对Cm特异性总IgG(8倍)和同种型IgG2a(8倍)、IgG2b(32倍)、IgG1(8倍)的识别率较高。我们还观察到通过两种途径免疫小鼠的IgG抗体可识别ct血清型D、F和J。对Th1 (IgG2a, IgG2b)/Th2 (IgG1)抗体滴度比的评估显示,通过SC途径免疫诱导的主要是识别Cm和人ct血清型的Th1抗体。我们的数据显示,用PLGA-rMOMP免疫的小鼠产生了高水平的识别Cm的全身抗体,但更重要的是,对人类ct血清型具有强大的血清学交叉识别。本研究由美国国立卫生研究院国家过敏和传染病研究所资助,资助编号为NIH-R21AI111159, NIH-NIGMS-RISE (1R25GM106995-01)和美国国家科学基金会(NSF)-CREST (HRD-1241701)和NSF- hbcu - rise (HRD-1646729)。
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