Nature Communications (Aug 2024)

Highly potent and broadly neutralizing anti-CD4 trimeric nanobodies inhibit HIV-1 infection by inducing CD4 conformational alteration

  • Linjing Zhu,
  • Bilian Huang,
  • Xiangyao Wang,
  • Fengfeng Ni,
  • Mingjun Ao,
  • Ruoke Wang,
  • Bin Zheng,
  • Chen Chen,
  • Jing Xue,
  • Lin Zhu,
  • Chenbo Yang,
  • Lingen Shi,
  • Shengya Geng,
  • Jiaqian Hu,
  • Mengshi Yang,
  • Doudou Zhang,
  • Ping Yang,
  • Miaomiao Li,
  • Yuncheng Li,
  • Qinxue Hu,
  • Sheng Ye,
  • Peng Zheng,
  • Hongxia Wei,
  • Zhiwei Wu,
  • Linqi Zhang,
  • Yaxin Wang,
  • Yalan Liu,
  • Xilin Wu

DOI
https://doi.org/10.1038/s41467-024-51414-6
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 18

Abstract

Read online

Abstract Despite advancements in antiretroviral therapy (ART) suppressing HIV-1 replication, existing antiviral drugs pose limitations, including lifelong medication, frequent administration, side effects and viral resistance, necessitating novel HIV-1 treatment approaches. CD4, pivotal for HIV-1 entry, poses challenges for drug development due to neutralization and cytotoxicity concerns. Nevertheless, Ibalizumab, the sole approved CD4-specific antibody for HIV-1 treatment, reignites interest in exploring alternative anti-HIV targets, emphasizing CD4’s potential value for effective drug development. Here, we explore anti-CD4 nanobodies, particularly Nb457 from a CD4-immunized alpaca. Nb457 displays high potency and broad-spectrum activity against HIV-1, surpassing Ibalizumab’s efficacy. Strikingly, engineered trimeric Nb457 nanobodies achieve complete inhibition against live HIV-1, outperforming Ibalizumab and parental Nb457. Structural analysis unveils Nb457-induced CD4 conformational changes impeding viral entry. Notably, Nb457 demonstrates therapeutic efficacy in humanized female mouse models. Our findings highlight anti-CD4 nanobodies as promising HIV-1 therapeutics, with potential implications for advancing clinical treatment against this global health challenge.