BACKGROUND: RFI-641, a small dendrimer-like compound, is a potent and selective inhibitor of respiratory syncytial virus (RSV), which is currently a clinical candidate for the treatment of upper and lower respiratory tract infections caused by RSV. RFI-641 inhibits RSV growth with an IC(50) value of 50 nM and prevents syncytia formation in tissue culture. RSV contains of three surface glycoproteins, a small hydrophobic (SH) protein of unknown function, and attachment (G) and fusion (F) proteins that enable binding and fusion of virus, respectively, with target cells. Because of their role in attachment and fusion, the G and F surface proteins are prominent targets for therapeutic intervention. RFI-641 was previously shown to bind purified preparations of RSV fusion protein. Based on this observation, in conjunction with the biological results, it was speculated that the fusion event might be the target of these inhibitors. RESULTS: A fusion assay based upon the relief of self-quenching of octadecyl rhodamine R18 was used to determine effects of the inhibitors on binding and fusion of RSV. The results show that RFI-641 inhibits both RSV-cell binding and fusion events. The inhibition of RSV is mediated via binding to the fusion protein on the viral surface. A closely related analog, WAY-158830, which is much less active in the virus-infectivity assay does not inhibit binding and fusion of RSV with Vero cells. CONCLUSIONS: RFI-641, an in vivo active RSV inhibitor, is shown to inhibit both binding and fusion of RSV with cells, events that are early committed steps in RSV entry and pathogenicity. The results described here demonstrate that a non-peptidic, small molecule can inhibit binding and fusion of enveloped virus specifically via interaction with the viral fusion protein.
BACKGROUND:RFI-641, a small dendrimer-like compound, is a potent and selective inhibitor of respiratory syncytial virus (RSV), which is currently a clinical candidate for the treatment of upper and lower respiratory tract infections caused by RSV. RFI-641 inhibits RSV growth with an IC(50) value of 50 nM and prevents syncytia formation in tissue culture. RSV contains of three surface glycoproteins, a small hydrophobic (SH) protein of unknown function, and attachment (G) and fusion (F) proteins that enable binding and fusion of virus, respectively, with target cells. Because of their role in attachment and fusion, the G and F surface proteins are prominent targets for therapeutic intervention. RFI-641 was previously shown to bind purified preparations of RSV fusion protein. Based on this observation, in conjunction with the biological results, it was speculated that the fusion event might be the target of these inhibitors. RESULTS: A fusion assay based upon the relief of self-quenching of octadecyl rhodamine R18 was used to determine effects of the inhibitors on binding and fusion of RSV. The results show that RFI-641 inhibits both RSV-cell binding and fusion events. The inhibition of RSV is mediated via binding to the fusion protein on the viral surface. A closely related analog, WAY-158830, which is much less active in the virus-infectivity assay does not inhibit binding and fusion of RSV with Vero cells. CONCLUSIONS:RFI-641, an in vivo active RSV inhibitor, is shown to inhibit both binding and fusion of RSV with cells, events that are early committed steps in RSV entry and pathogenicity. The results described here demonstrate that a non-peptidic, small molecule can inhibit binding and fusion of enveloped virus specifically via interaction with the viral fusion protein.
Authors: Robert J Visalli; Jeanette Fairhurst; Shamala Srinivas; William Hu; Boris Feld; Martin DiGrandi; Kevin Curran; Adma Ross; Jonathan D Bloom; Marja van Zeijl; Thomas R Jones; John O'Connell; Jeffrey I Cohen Journal: J Virol Date: 2003-02 Impact factor: 5.103
Authors: Song Feng; Di Hong; Baoxia Wang; Xiufang Zheng; Kun Miao; Lisha Wang; Hongying Yun; Lu Gao; Shuhai Zhao; Hong C Shen Journal: ACS Med Chem Lett Date: 2015-01-25 Impact factor: 4.345
Authors: Adeyemi O Adedeji; William Severson; Colleen Jonsson; Kamalendra Singh; Susan R Weiss; Stefan G Sarafianos Journal: J Virol Date: 2013-05-15 Impact factor: 5.103
Authors: Blake P Moore; Dong Hoon Chung; Daljit S Matharu; Jennifer E Golden; Clinton Maddox; Lynn Rasmussen; James W Noah; Melinda I Sosa; Subramaniam Ananthan; Nichole A Tower; E Lucile White; Fuli Jia; Thomas E Prisinzano; Jeffrey Aubé; Colleen B Jonsson; William E Severson Journal: J Med Chem Date: 2012-10-16 Impact factor: 7.446
Authors: Janet L Douglas; Marites L Panis; Edmund Ho; Kuei-Ying Lin; Steve H Krawczyk; Deborah M Grant; Ruby Cai; Swami Swaminathan; Tomas Cihlar Journal: J Virol Date: 2003-05 Impact factor: 5.103