Hiroaki Mitsuya, Tadashi Maemura, Ichiro Nakachi, Rie Baba, Riccardo Valdez, Hiroyuki Nagai, Hideaki Nakajima, Tetsuya Suzuki, Michiko Koga, Junichi Ochi, Tadaki Suzuki, Aubree Gordon, Samantha Loeber, Kensuke Fujita, Kenji Maeda, Maki Kiso, Carmen Gherasim, David A. Baker, Norio Sugaya, Makoto Saito, Noriko Nakajima, Yoshihiro Kawaoka, Takayuki Ogura, John J. Baczenas, Moe Okuda, Hideaki Kato, Kiyoko Iwatsuki-Horimoto, Shuetsu Fukushi, Hiroshi Ueki, Tiago J. S. Lopes, Yudai Kuroda, Shiho Chiba, Tokiko Watanabe, Makoto Kuroda, Norio Ohmagari, Tsuguto Fujimoto, Masaki Imai, Osamu Akasaka, Peter Halfmann, Masato Hatta, Michiko Ujie, Eisuke Adachi, Ken Maeda, Shelby L. O’Connor, Hiroshi Yotsuyanagi, Atsuhiro Yasuhara, Shinya Yamamoto, Amie J. Eisfeld, Yusuke Miyazato, Kenta Takahashi, Keiko Mitamura, Yuko Sakai-Tagawa, Mutsumi Ito, Shin ichiro Hattori, Morio Nakamura, Yuri Furusawa, David H. O’Connor, Seiya Yamayoshi, and Kazuma Yagi
Significance Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants are of concern, with the P.1 variants dominating in Brazil. Brazil is now seeing a record number of deaths. Here, we report that the pathogenicity in hamsters of a P.1 variant is similar to that of nonvariant SARS-CoV-2. However, it has an expanded host range as shown by its replication in mice. Prior infection with nonvariant SARS-CoV-2 strains efficiently prevented replication of the P.1 variant in the lower respiratory tract of hamsters upon reinfection. Convalescent sera from patients infected with nonvariants or sera from messenger RNA vaccinees showed comparable neutralization titers among the P.1 and previously circulating strains. These results suggest that previous SARS-CoV-2 infection and vaccines based on the original SARS-CoV-2 will provide some protection against P.1 infection., The spike (S) protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) plays a key role in viral infectivity. It is also the major antigen stimulating the host's protective immune response, specifically, the production of neutralizing antibodies. Recently, a new variant of SARS-CoV-2 possessing multiple mutations in the S protein, designated P.1, emerged in Brazil. Here, we characterized a P.1 variant isolated in Japan by using Syrian hamsters, a well-established small animal model for the study of SARS-CoV-2 disease (COVID-19). In hamsters, the variant showed replicative abilities and pathogenicity similar to those of early and contemporary strains (i.e., SARS-CoV-2 bearing aspartic acid [D] or glycine [G] at position 614 of the S protein). Sera and/or plasma from convalescent patients and BNT162b2 messenger RNA vaccinees showed comparable neutralization titers across the P.1 variant, S-614D, and S-614G strains. In contrast, the S-614D and S-614G strains were less well recognized than the P.1 variant by serum from a P.1-infected patient. Prior infection with S-614D or S-614G strains efficiently prevented the replication of the P.1 variant in the lower respiratory tract of hamsters upon reinfection. In addition, passive transfer of neutralizing antibodies to hamsters infected with the P.1 variant or the S-614G strain led to reduced virus replication in the lower respiratory tract. However, the effect was less pronounced against the P.1 variant than the S-614G strain. These findings suggest that the P.1 variant may be somewhat antigenically different from the early and contemporary strains of SARS-CoV-2.