- 作者:Delia Tarantino ; Margherita Pezzullo ; Eloise Mastrangelo ; Romina Croci ; Jacques Rohayem ; Ivonne Robel ; Martino Bolognesi ; Mario Milani
- 关键词:hNV ; human Norovirus ; mNV ; murine Norovirus ; RdRp ; RNA-dependent RNA-polymerase ; PDB ; protein data bank ; NAF2 ; naphthalene-1 ; 5-disulfonic acid ; PPNDS ; pyridoxal-5&prime ; -phosphate-6-(2&prime ; -naphthylazo-6&prime ; -nitro-4&prime ; 8&prime ; -disulfonate) tetrasodium salt
- 刊名:Antiviral Research
- 出版年:February, 2014
- 年:2014
- 卷:102
- 期:Complete
- 页码:23-28
- 全文大小:1047 K
Since the activity of RNA-dependent RNA polymerase (RdRp) plays a key role in genome replication and in the synthesis/amplification of subgenomic RNA, the enzyme is considered a promising target for antiviral drug development. In this context, following the identification of suramin and NF023 as Norovirus RdRp inhibitors, we analyzed the potential inhibitory role of naphthalene di-sulfonate (NAF2), a fragment derived from these two molecules. Although NAF2, tested in enzymatic polymerase inhibition assays, displayed low activity against RdRp (IC50 = 14 渭M), the crystal structure of human Norovirus RdRp revealed a thumb domain NAF2 binding site that differs from that characterized for NF023/suramin. To further map the new potential inhibitory site, we focused on the structurally related molecule pyridoxal-5鈥?phosphate-6-(2鈥?naphthylazo-6鈥?nitro-4鈥?8鈥?disulfonate) tetrasodium salt (PPNDS). PPNDS displayed below-micromolar inhibitory activity versus human Norovirus RdRp (IC50 = 0.45 渭M), similarly to suramin and NF023. Inspection of the crystal structure of the RdRp/PPNDS complex showed that the inhibitor bound to the NAF2 thumb domain site, highlighting the relevance of such new binding site for exploiting Norovirus RdRp inhibitors.