Vaxcyte, Inc., 353 Hatch Drive, Foster City, CA 94404, United States.
VBT Laboratories, 1424 Gertrude Avenue, Phoenixville, PA 19460, United States.
Vaccine. 2021 May 27;39(23):3197-3206. doi: 10.1016/j.vaccine.2021.03.070. Epub 2021 May 6.
Despite widespread utilization of pneumococcal conjugate vaccines (PCVs) and the resultant disease reduction, the development of PCVs containing additional serotypes remains a public health priority due to serotype replacement and the resultant shift to non-vaccine containing serotypes. However, incorporating additional serotypes to existing PCVs using conventional technologies has proven problematic. Immune responses to individual serotypes have consistently decreased as more polysaccharide-conjugates are added due to carrier suppression. Using our proprietary cell-free protein synthesis (CFPS) platform, we have successfully produced eCRM® based on the CRM sequence for use as an enhanced carrier protein to develop a 24-valent PCV. The eCRM carrier protein contains multiple non-native amino acids (nnAAs) located outside of the primary T-cell epitope regions, thereby enabling site-specific covalent conjugation of the pneumococcal polysaccharides to the nnAAs to consistently expose the critical T-cell epitopes. eCRM also serves to reduce structural heterogeneity associated with classic reductive-amination conjugation while promoting formation of the conjugate matrix structures, the hallmark of PCVs. This process serves to increase the overall polysaccharide:protein ratio, enabling the inclusion of more serotypes while minimizing carrier-mediated immunological interference. The aim of this non-clinical study was to construct a 24-valent PCV and evaluate its immunogenicity. Using the XPressCF® CFPS platform, the eCRM carrier protein was separately conjugated through nnAAs to each of the 24 pneumococcal polysaccharides through click chemistry and mixed with aluminum phosphate to produce VAX-24, Vaxcyte's proprietary PCV preclinical candidate. VAX-24, Prevnar13® and Pneumovax®23 were administered to New Zealand White rabbits to compare the resulting opsonophagocytic activity (OPA) and anti-capsular IgG antibodies. VAX-24 showed conjugate-like immune responses to all 24 serotypes based on comparable OPA and IgG responses to Prevnar13 and higher responses than Pneumovax 23. This study demonstrates the utility of site-specific conjugation technology in a preclinical setting and the potential for a PCV with improved serotype coverage.
尽管广泛使用了肺炎球菌结合疫苗(PCV),并由此降低了疾病发病率,但由于血清型替代以及由此导致的非疫苗血清型转变,开发包含更多血清型的 PCV 仍然是公共卫生的重点。然而,使用传统技术将额外的血清型纳入现有的 PCV 已被证明存在问题。由于载体抑制作用,随着添加的多糖结合物增多,针对个别血清型的免疫反应持续下降。我们使用专有的无细胞蛋白合成(CFPS)平台,成功地基于 CRM 序列生产了 eCRM®,用作增强型载体蛋白,以开发 24 价 PCV。eCRM 载体蛋白包含多个位于主要 T 细胞表位区域之外的非天然氨基酸(nnAA),从而能够将肺炎球菌多糖特异性地共价连接到 nnAA 上,始终暴露关键的 T 细胞表位。eCRM 还可以减少与经典还原胺化偶联相关的结构异质性,同时促进结合物基质结构的形成,这是 PCV 的标志。该过程有助于提高多糖与蛋白的总体比例,使更多的血清型得以纳入,同时最大限度地减少载体介导的免疫干扰。本非临床研究的目的是构建 24 价 PCV 并评估其免疫原性。使用 XPressCF® CFPS 平台,通过点击化学将 eCRM 载体蛋白分别通过 nnAA 与 24 种肺炎球菌多糖中的每一种连接,并与磷酸铝混合制成 VAX-24,这是 Vaxcyte 的专有的 PCV 临床前候选物。将 VAX-24、Prevnar13® 和 Pneumovax®23 施用于新西兰白兔,以比较由此产生的调理吞噬活性(OPA)和抗荚膜 IgG 抗体。VAX-24 对所有 24 种血清型均表现出类似结合物的免疫反应,OPA 和 IgG 反应与 Prevnar13 相当,高于 Pneumovax 23。本研究证明了在临床前环境中使用定点偶联技术的实用性,以及开发具有改善血清型覆盖范围的 PCV 的潜力。
