Moderna, Inc., Cambridge, MA 02139, USA.
Department of Medicine, Washington University School of Medicine, Saint Louis, MO 63110, USA.
Sci Transl Med. 2023 Sep 13;15(713):eadf4100. doi: 10.1126/scitranslmed.adf4100.
With the success of messenger RNA (mRNA) vaccines against coronavirus disease 2019, strategies can now focus on improving vaccine potency, breadth, and stability. We designed and evaluated domain-based mRNA vaccines encoding the wild-type spike protein receptor binding domain (RBD) or N-terminal domain (NTD) alone or in combination. An NTD-RBD-linked candidate vaccine, mRNA-1283, showed improved antigen expression, antibody responses, and stability at refrigerated temperatures (2° to 8°C) compared with the clinically available mRNA-1273, which encodes the full-length spike protein. In BALB/c mice administered mRNA-1283 as a primary series, booster, or variant-specific booster, similar or greater immune responses from viral challenge were observed against wild-type, beta, delta, or omicron (BA.1) viruses compared with mRNA-1273-immunized mice, especially at lower vaccine dosages. K18-hACE2 mice immunized with mRNA-1283 or mRNA-1273 as a primary series demonstrated similar degrees of protection from challenge with SARS-CoV-2 Delta and Omicron variants at all vaccine dosages. These results support clinical assessment of mRNA-1283, which has now entered clinical trials (NCT05137236).
随着针对 2019 年冠状病毒病的信使 RNA(mRNA)疫苗的成功,现在可以集中精力提高疫苗的效力、广度和稳定性。我们设计并评估了编码野生型刺突蛋白受体结合域(RBD)或 N 端结构域(NTD)的基于结构域的 mRNA 疫苗,单独或组合使用。与临床上可获得的编码全长刺突蛋白的 mRNA-1273 相比,编码 NTD-RBD 连接候选疫苗 mRNA-1283 的抗原表达、抗体反应和冷藏温度(2°至 8°C)下的稳定性得到了改善。在接受 mRNA-1283 作为初级系列、加强针或变体特异性加强针的 BALB/c 小鼠中,与接受 mRNA-1273 免疫的小鼠相比,针对野生型、β、δ或奥密克戎(BA.1)病毒的病毒挑战观察到相似或更强的免疫反应,尤其是在较低的疫苗剂量下。用 mRNA-1283 或 mRNA-1273 作为初级系列免疫的 K18-hACE2 小鼠在所有疫苗剂量下对 SARS-CoV-2 Delta 和 Omicron 变体的挑战均表现出相似程度的保护。这些结果支持对现在已进入临床试验的 mRNA-1283 进行临床评估(NCT05137236)。
