Gong-Xian Wang

Publications (2)6.6 Total impact

• Article: Alkylating antitumor drug mechlorethamine conceals a structured PrP domain and inhibits in vitro prion amplification.

  Xiaochen Zhou, Hao Bi, Justin Wong, Miyuki Shimoji, Yifan Wang, Jue Yuan, Xiangzhu Xiao, Gong-Xian Wang, Wen-Quan Zou
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  ABSTRACT: Prion diseases are a group of incurable transmissible neurodegenerative disorders. The key molecular event in the pathogenesis of prion diseases is the conversion of the cellular prion protein (PrP(C)) into its pathological isoform (PrP(Sc)), accompanied by a conformational transition of α-helix into β-sheet structure involving the structured α-helix 1 domain from residues 144-154 of the protein (PrP144-154). Blocking the accessibility of PrP144-152 with anti-PrP antibody 6H4 was found to prevent PrP conversion and even to cure prion infection in cell models ( Enari et al. 2001 ). Previously, Yuan et al. (2005 ) demonstrated that the reduction and alkylation of PrP induced concealment of the 6H4 epitope. This study examined the ability of mechlorethamine (MCT), an alkylating antitumor drug, to conceal the 6H4 epitope and block PrP conversion in the presence of a reducing reagent. Mechlorethamine treatment significantly decreased in vitro amplification of PrP(Sc) in the highly efficient protein misfolding cyclic amplification system. Our findings suggest that MCT may serve as a potential therapeutic agent for prion diseases.
  Journal of Toxicology and Environmental Health Part A 11/2011; 74(22-24):1493-503. · 1.83 Impact Factor
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  Available from: Wenquan Zou

  Article: PrP conformational transitions alter species preference of a PrP-specific antibody.

  Wen-Quan Zou, Jan Langeveld, Xiangzhu Xiao, Shugui Chen, Patrick L McGeer, Jue Yuan, Michael C Payne, Hae-Eun Kang, John McGeehan, Man-Sun Sy, Neil S Greenspan, David Kaplan, Gong-Xian Wang, Piero Parchi, Edward Hoover, Geoff Kneale, Glenn Telling, Witold K Surewicz, Qingzhong Kong, Jian-Ping Guo
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  ABSTRACT: The epitope of the 3F4 antibody most commonly used in human prion disease diagnosis is believed to consist of residues Met-Lys-His-Met (MKHM) corresponding to human PrP-(109-112). This assumption is based mainly on the observation that 3F4 reacts with human and hamster PrP but not with PrP from mouse, sheep, and cervids, in which Met at residue 112 is replaced by Val. Here we report that, by brain histoblotting, 3F4 did not react with PrP of uninfected transgenic mice expressing elk PrP; however, it did show distinct immunoreactivity in transgenic mice infected with chronic wasting disease. Compared with human PrP, the 3F4 reactivity with the recombinant elk PrP was 2 orders of magnitude weaker, as indicated by both Western blotting and surface plasmon resonance. To investigate the molecular basis of these species- and conformer-dependent preferences of 3F4, the epitope was probed by peptide membrane array and antigen competition experiments. Remarkably, the 3F4 antibody did not react with MKHM but reacted strongly with KTNMK (corresponding to human PrP-(106-110)), a sequence that is also present in cervids, sheep, and cattle. 3F4 also reacted with elk PrP peptides containing KTNMKHV. We concluded that the minimal sequence for the 3F4 epitope consists of residues KTNMK, and the species- and conformer-dependent preferences of 3F4 arise largely from the interactions between Met(112) (human PrP) or Val(115) (cervid PrP) and adjacent residues.
  Journal of Biological Chemistry 03/2010; 285(18):13874-84. · 4.77 Impact Factor