Reconstituted dry powder formulations of ZnO-adjuvanted ovalbumin induce equivalent antigen specific antibodies but lower T cell responses than ovalbumin adjuvanted with Alhydrogel or cationic adjuvant formulation 01 (CAF01).

⚡ 摘要

ZnO佐剂卵清蛋白重组干粉制剂诱导等效抗原特异性抗体,但T细胞应答低于Alhydrogel或阳离子佐剂制剂01(CAF01)佐剂的卵清蛋白

期刊 International Journal Of Pharmaceutics 类型 原创研究 (Original Research)

📄 英文摘要 English Abstract

EN

Most licensed human vaccines are based on liquid dosage forms but have poor storage stability and require continuous and expensive cold-chain storage. In contrast, the use of solid vaccine dosage forms produced by for example spray drying, extends shelf life and eliminates the need for a cold chain. Zinc oxide (ZnO)-based nanoparticles display immunomodulatory properties, but their adjuvant effect as a dry powder formulation is unknown. Here, we show that reconstituted dry powder formulations of ZnO particles containing the model antigen ovalbumin (OVA) induce antigen-specific CD8+ T-cell and humoral responses. By systematically varying the ratio between ZnO and mannitol during spray drying, we manufactured dry powder formulations of OVA-containing ZnO particles that displayed: (i) a spherical or wrinkled surface morphology, (ii) an aerodynamic diameter and particle size distribution optimal for deep lung deposition, and (iii) aerosolization properties suitable for lung delivery. Reconstituted dry powder formulations of ZnO particles were well-tolerated by Calu-3 lung epithelial cells. Furthermore, almost equivalent OVA-specific serum antibody responses were stimulated by reconstituted ZnO particles, OVA adjuvanted with Alhydrogel®, and OVA adjuvanted with the cationic adjuvant formulation 01 (CAF®01). However, reconstituted dry powder ZnO particles and OVA adjuvanted with Alhydrogel® induced significantly lower OVA-specific CD8+CD44+ T-cell responses in the spleen than OVA adjuvanted with CAF®01. Similarly, reconstituted dry powder ZnO particles activated significantly lower percentages of follicular helper T cells and germinal center B cells in the draining lymph nodes than OVA adjuvanted with CAF®01. Overall, our results show that reconstituted dry powder formulations of ZnO nanoparticles can induce antigen-specific antibodies and can be used in vaccines to enhance antigen-specific humoral immune responses against subunit protein antigens.

📄 中文摘要 Chinese Abstract

中文
大多数已获批的人用疫苗均为液体制剂,但其储存稳定性较差,需要持续且昂贵的冷链储存。相比之下,采用喷雾干燥等方法制备的固体疫苗剂型可延长保质期并消除对冷链的需求。氧化锌(ZnO)基纳米颗粒具有免疫调节特性,但其作为干粉制剂的佐剂效应尚不明确。

📋 英文结构化总结 English Structured Summary

摘要整理

EN

Background:

Most licensed human vaccines are based on liquid dosage forms but have poor storage stability and require continuous and expensive cold-chain storage. In contrast, the use of solid vaccine dosage forms produced by for example spray drying, extends shelf life and eliminates the need for a cold chain. Zinc oxide (ZnO)-based nanoparticles display immunomodulatory properties, but their adjuvant effect as a dry powder formulation is unknown.

Methods:

By systematically varying the ratio between ZnO and mannitol during spray drying, we manufactured dry powder formulations of OVA-containing ZnO particles that displayed: (i) a spherical or wrinkled surface morphology, (ii) an aerodynamic diameter and particle size distribution optimal for deep lung deposition, and (iii) aerosolization properties suitable for lung delivery. Reconstituted dry powder formulations of ZnO particles were well-tolerated by Calu-3 lung epithelial cells.

Results:

Here, we show that reconstituted dry powder formulations of ZnO particles containing the model antigen ovalbumin (OVA) induce antigen-specific CD8+ T-cell and humoral responses. Furthermore, almost equivalent OVA-specific serum antibody responses were stimulated by reconstituted ZnO particles, OVA adjuvanted with Alhydrogel®, and OVA adjuvanted with the cationic adjuvant formulation 01 (CAF®01). However, reconstituted dry powder ZnO particles and OVA adjuvanted with Alhydrogel® induced significantly lower OVA-specific CD8+CD44+ T-cell responses in the spleen than OVA adjuvanted with CAF®01. Similarly, reconstituted dry powder ZnO particles activated significantly lower percentages of follicular helper T cells and germinal center B cells in the draining lymph nodes than OVA adjuvanted with CAF®01.

Data Summary:

Almost equivalent OVA-specific serum antibody responses were stimulated by reconstituted ZnO particles, OVA adjuvanted with Alhydrogel®, and OVA adjuvanted with CAF®01. Reconstituted dry powder ZnO particles and OVA adjuvanted with Alhydrogel® induced significantly lower OVA-specific CD8+CD44+ T-cell responses in the spleen than OVA adjuvanted with CAF®01. Similarly, reconstituted dry powder ZnO particles activated significantly lower percentages of follicular helper T cells and germinal center B cells in the draining lymph nodes than OVA adjuvanted with CAF®01.

Conclusions:

Overall, our results show that reconstituted dry powder formulations of ZnO nanoparticles can induce antigen-specific antibodies and can be used in vaccines to enhance antigen-specific humoral immune responses against subunit protein antigens.

Practical Significance:

The use of solid vaccine dosage forms produced by spray drying extends shelf life and eliminates the need for a cold chain. Reconstituted dry powder formulations of ZnO nanoparticles display aerosolization properties suitable for lung delivery and can be used in vaccines to enhance antigen-specific humoral immune responses against subunit protein antigens.

📋 中文结构化总结 Chinese Structured Summary

中文

背景:

大多数已获批的人用疫苗均为液体制剂,但其储存稳定性较差,需要持续且昂贵的冷链储存。相比之下,采用喷雾干燥等方法制备的固体疫苗剂型可延长保质期并消除对冷链的需求。氧化锌(ZnO)基纳米颗粒具有免疫调节特性,但其作为干粉制剂的佐剂效应尚不明确。

方法:

通过系统调节喷雾干燥过程中ZnO与甘露醇的比例,我们制备了含卵清蛋白(OVA)的ZnO颗粒干粉制剂,该制剂具有以下特征:(i)球形或褶皱表面形态,(ii)适合肺部深层沉积的空气动力学直径和粒径分布,以及(iii)适合肺部递送的雾化特性。ZnO颗粒干粉制剂的重构液对Calu-3肺上皮细胞具有良好的耐受性。

结果:

本研究表明,含有模型抗原卵清蛋白(OVA)的ZnO颗粒干粉制剂重构后可诱导抗原特异性CD8+ T细胞应答和体液免疫应答。此外,ZnO颗粒重构液、以Alhydrogel®为佐剂的OVA以及以阳离子佐剂配方01(CAF®01)为佐剂的OVA所诱导的OVA特异性血清抗体应答几乎相当。然而,ZnO颗粒干粉重构液和以Alhydrogel®为佐剂的OVA在脾脏中诱导的OVA特异性CD8+CD44+ T细胞应答显著低于以CAF®01为佐剂的OVA。同样,ZnO颗粒干粉重构液在引流淋巴结中激活的滤泡辅助T细胞和生发中心B细胞比例也显著低于以CAF®01为佐剂的OVA。

数据总结:

ZnO颗粒重构液、以Alhydrogel®为佐剂的OVA以及以CAF®01为佐剂的OVA所诱导的OVA特异性血清抗体应答几乎相当。ZnO颗粒干粉重构液和以Alhydrogel®为佐剂的OVA在脾脏中诱导的OVA特异性CD8+CD44+ T细胞应答显著低于以CAF®01为佐剂的OVA。同样,ZnO颗粒干粉重构液在引流淋巴结中激活的滤泡辅助T细胞和生发中心B细胞比例也显著低于以CAF®01为佐剂的OVA。

结论:

总体而言,我们的研究结果表明,ZnO纳米颗粒干粉制剂重构后可诱导抗原特异性抗体,并可用于疫苗中以增强针对亚单位蛋白抗原的抗原特异性体液免疫应答。

实际意义:

采用喷雾干燥制备的固体疫苗剂型可延长保质期并消除对冷链的需求。ZnO纳米颗粒干粉制剂重构后具有适合肺部递送的雾化特性,并可用于疫苗中以增强针对亚单位蛋白抗原的抗原特异性体液免疫应答。