Mandour YM , Breitinger U , Ma C , Wang J , Boeckler FM , Breitinger HG , Zlotos DP .

R21 AI119187 NIAID NIH HHS , R33 AI119187 NIAID NIH HHS

	Figure 1. Synthetic scheme for the preparation of compounds 2a–e.Notes: Reaction conditions: (A) oxalyl chloride, catalytic dimethylformamide, CHCl3, 4 hours; (B) amantadine, triethylamine, CHCl3, 16 hours; (C) 1 M borane–tetrahydrofuran complex, reflux 9 hours.
	Figure 2. Synthetic scheme for the preparation of compounds 4a–e.Notes: Reaction conditions: (A) HO2C-(CH2)n-CO2H, 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide HCl, hydroxybenzotriazole, diisopropylethylamine in THF, 16 hours; (B) butyric acid, 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide HCl, hydroxybenzotriazole, diisopropylethylamine in THF, 16 hours; (C, D) borane–THF complex in dry THF, reflux 9 hours.Abbreviation: THF, tetrahydrofuran.
	Figure 3. M2-inhibitory activities of dimeric adamantanes.Notes: Evaluation of inhibitory activity of dimeric adamantane compounds on wild-type (A) and S31N mutant (B) M2 proteins. M2 protein was expressed in Xenopus oocytes and the compounds’ inhibitory activity measured using the two-electrode voltage-clamp technique at 100 µM concentration.
	Figure 4. Inhibition of the influenza M2 proton channel.Notes: (A) Structure of amantadine (gray) in complex with M2 wild-type protein, as determined by solid-state nuclear magnetic resonance (Protein Data Bank [PDB] 2KQT),31 with the water molecules seen in the high-resolution crystallographic structure (PDB 3LBW)30 superimposed (red spheres). (B) Inhibition of amantadine-resistant M2-S31N protein by an isoxazole drug (PDB 2LY0).36 The adamantane cage is shifted downward in the structure of the S31N-mutant form, due to the constricted pore size.
	Figure 5. J6 p7 hexameric structure model 1 (A) and model 2 (B).Notes: Overlay of the docked poses of amantadine (gray) and compound 2a (magenta). Side-chain atoms of Leu20 are shown as sticks. (C) Sequence alignment of p7 protein in GT5a and the five GTs under study – 1a, 1b, 2a, 3a, and 4a – showing the position of Pro49 indicated by the red arrow.Abbreviation: GT, genotype.

Acharya, Structure and mechanism of proton transport through the transmembrane tetrameric M2 protein bundle of the influenza A virus. 2010, Pubmed, Xenbase

Acharya, Structure and mechanism of proton transport through the transmembrane tetrameric M2 protein bundle of the influenza A virus. 2010, Pubmed , Xenbase
Breitinger, Patch-Clamp Study of Hepatitis C p7 Channels Reveals Genotype-Specific Sensitivity to Inhibitors. 2016, Pubmed
Cady, Structure of the amantadine binding site of influenza M2 proton channels in lipid bilayers. 2010, Pubmed
Chandler, The p7 protein of hepatitis C virus forms structurally plastic, minimalist ion channels. 2012, Pubmed
Cook, NMR studies of p7 protein from hepatitis C virus. 2010, Pubmed
Cook, Three-dimensional structure and interaction studies of hepatitis C virus p7 in 1,2-dihexanoyl-sn-glycero-3-phosphocholine by solution nuclear magnetic resonance. 2013, Pubmed
DAVIES, ANTIVIRAL ACTIVITY OF 1-ADAMANTANAMINE (AMANTADINE). 1964, Pubmed
Duque, Exploring the size limit of templates for inhibitors of the M2 ion channel of influenza A virus. 2011, Pubmed , Xenbase
Farag, The p7 viroporin of the hepatitis C virus contributes to liver inflammation by stimulating production of Interleukin-1β. 2017, Pubmed
Fischer, Viral channel forming proteins - modeling the target. 2011, Pubmed
Foster, Structure-guided design affirms inhibitors of hepatitis C virus p7 as a viable class of antivirals targeting virion release. 2014, Pubmed
Furuse, Large-scale sequence analysis of M gene of influenza A viruses from different species: mechanisms for emergence and spread of amantadine resistance. 2009, Pubmed
Gonzalez, Viroporins. 2003, Pubmed
Grambas, Influence of amantadine resistance mutations on the pH regulatory function of the M2 protein of influenza A viruses. 1992, Pubmed
Griffin, Genotype-dependent sensitivity of hepatitis C virus to inhibitors of the p7 ion channel. 2008, Pubmed
Griffin, The p7 protein of hepatitis C virus forms an ion channel that is blocked by the antiviral drug, Amantadine. 2003, Pubmed
Helenius, Unpacking the incoming influenza virus. 1992, Pubmed
Henkel, Influenza virus M2 protein slows traffic along the secretory pathway. pH perturbation of acidified compartments affects early Golgi transport steps. 1998, Pubmed
Jones, Molecular recognition of receptor sites using a genetic algorithm with a description of desolvation. 1995, Pubmed
Jones, Development and validation of a genetic algorithm for flexible docking. 1997, Pubmed
Jones, Hepatitis C virus p7 and NS2 proteins are essential for production of infectious virus. 2007, Pubmed
Li, Expeditious Lead Optimization of Isoxazole-Containing Influenza A Virus M2-S31N Inhibitors Using the Suzuki-Miyaura Cross-Coupling Reaction. 2017, Pubmed
Li, Discovery of Highly Potent Inhibitors Targeting the Predominant Drug-Resistant S31N Mutant of the Influenza A Virus M2 Proton Channel. 2016, Pubmed
Li, Discovery of Potent Antivirals against Amantadine-Resistant Influenza A Viruses by Targeting the M2-S31N Proton Channel. 2016, Pubmed
Martin, Nuclear transport of influenza virus ribonucleoproteins: the viral matrix protein (M1) promotes export and inhibits import. 1991, Pubmed
Montserret, NMR structure and ion channel activity of the p7 protein from hepatitis C virus. 2010, Pubmed
OuYang, The minimalist architectures of viroporins and their therapeutic implications. 2014, Pubmed
OuYang, Unusual architecture of the p7 channel from hepatitis C virus. 2013, Pubmed
Patargias, Protein-protein interactions: modeling the hepatitis C virus ion channel p7. 2006, Pubmed
Pielak, Structural investigation of rimantadine inhibition of the AM2-BM2 chimera channel of influenza viruses. 2011, Pubmed
Pinto, Influenza virus M2 protein has ion channel activity. 1992, Pubmed , Xenbase
Rey-Carrizo, 3-Azatetracyclo[5.2.1.1(5,8).0(1,5)]undecane derivatives: from wild-type inhibitors of the M2 ion channel of influenza A virus to derivatives with potent activity against the V27A mutant. 2013, Pubmed , Xenbase
Schnell, Structure and mechanism of the M2 proton channel of influenza A virus. 2008, Pubmed
Scull, The N-terminal Helical Region of the Hepatitis C Virus p7 Ion Channel Protein Is Critical for Infectious Virus Production. 2015, Pubmed
Sokolova, Camphor-based symmetric diimines as inhibitors of influenza virus reproduction. 2014, Pubmed
Steinmann, Hepatitis C virus p7 protein is crucial for assembly and release of infectious virions. 2007, Pubmed
Stouffer, Structural basis for the function and inhibition of an influenza virus proton channel. 2008, Pubmed
Vincent, Human immunodeficiency virus type 1 Vpu protein induces degradation of chimeric envelope glycoproteins bearing the cytoplasmic and anchor domains of CD4: role of the cytoplasmic domain in Vpu-induced degradation in the endoplasmic reticulum. 1993, Pubmed
Wang, Ion channel activity of influenza A virus M2 protein: characterization of the amantadine block. 1993, Pubmed , Xenbase
Wang, Recent progress in designing inhibitors that target the drug-resistant M2 proton channels from the influenza A viruses. 2015, Pubmed
Wang, Viral proteins function as ion channels. 2011, Pubmed
Westerbeck, A Coronavirus E Protein Is Present in Two Distinct Pools with Different Effects on Assembly and the Secretory Pathway. 2015, Pubmed
Wu, Flipping in the pore: discovery of dual inhibitors that bind in different orientations to the wild-type versus the amantadine-resistant S31N mutant of the influenza A virus M2 proton channel. 2014, Pubmed