A highly potent, stable, and safe dePEGylated lipopeptide against Nipah virus and related henipaviruses.
Yuanzhou Wang, Cong Wang, Jie Zhou, Guangxu Zhang, Ruixue Xiu, Shuang Wu, Wei Xu, Mengyu Hu, Shuai Xia, Yuren Shi, Siyu Lin, Yuan Yin, Lu Lu, Yun Zhu, Shibo Jiang
Abstract
Open AccessNipah virus (NiV) poses a significant threat owing to its high mortality and the lack of approved therapeutics. Targeting the conserved heptad repeat 1 (HR1) domain of the viral fusion (F) protein constitutes a promising antiviral strategy. Also, lipopeptides derived from the human parainfluenza virus 3 (HPIV3) heptad repeat 2 (HR2) regions inhibit NiV fusion by blocking formation of the critical six-helix bundle (6-HB); however, their efficacy has been impeded by the controversial use of PEGylation. To resolve these limitations, we employed our proprietary heptad repeat 2 C-terminal fragment (HR2-CF) peptide displacement strategy that eliminates PEG and overcomes the resultant steric hindrance. The lead dePEGylated lipopeptide, VQ-P1-C16, exhibited antiviral activity comparable to that of PEGylated lipopeptide, VIKI-PEG4-C16. Further introducing Glu (E) or Lys (K) mutations yielded VQ-P1-EK3-C16, which exhibited ultra-potent pseudotyped henipavirus inhibition at pM concentrations and increased fusion inhibition. Meanwhile, it protected newborn mice from pseudotyped NiV-Malaysia and NiV-Bangladesh infection in lungs and brains. Structural simulations and mechanistic studies demonstrated that VQ-P1-EK3-C16 adopts a helical conformation, exhibits high affinity for NiV-HR1, and inhibits NiV 6-HB formation. Moreover, VQ-P1-EK3-C16 showed significantly increased solubility, improved thermal stability, strengthened resistance to proteases, and extended serum half-life. These findings establish VQ-P1-EK3-C16 as a highly potent, stable, and safe fusion inhibitor with promising potential for the clinical development of therapeutics against NiV and related henipaviruses.