Antiviral drugs
1. Adamantane derivatives
2. Neuraminidase inhibitors
3. Viral replication inhibitors
4. Viral proteases inhibitors
5. Imunotherapeutics
©assoc. prof. Oldřich Farsa, Ph.D., 2011
Replication cycle of the influenza virus type A
6. Assembly
1. Binding
tJ Hemagglutinin T Neuraminidase M2 ion channel Sialic acid-galactose
3. RNP migration into nucleus
ITT
4,Transcription and genome replication
1. Adamantane derivatives
HoN
1-aminotricyklo[3.3.1.1]decane
1 -(aminoethyl)tricyklo[3.3.1.1 ]decane
1 -aminoadamantane
amantadine
•also antiparkinsonic
1 -(1 -aminoethyl)adamantane rimantadine
• against influenza of type A only; ineffective against swine influenza H1N1
•mechanism of action: inhibition of replication of influenza virus type A by
blocking of transmembrane protein - proton channel M2
•namely prophylactic
•frequent resistance (M gene mutation)
•adverse effects: frequent; sleeplessness, hallucinations, orthostatic hypotension, depressions, nausea, vomiting
Ion channel M2 of the influenza virus H1N1 2009 (swine influenza)
of 97 amino acid rests in every unit; every unit contains the C-terminal domain from 54 AA, the transmembrane domain from 19 AA and the extracelullar N-terminal domain from 24 AA •proton-selective channel is controlled by endosomal pH values; it leads endosomal protons into the virion
•this channel is probably fundamental for the life cycle of the virus
©Interaction of amantadine with proton channel M2  of viruses H5N1 (A) and H1N1 (B)
•adamantane antivirotics are bound to the outside Jipoid pocket" nearTrp41 (in addition H-bridge to Asp 44), the molecule acts as an „molecular
wedge", which stabilizes close conformation of the channel gate and increases energy barrier for its opening
•blue spots represent sizes or electron clouds of lipophilic fragments of M2 channel which interact with the drug by hydrophobic interactions
Interaction of rimantadine with proton channel M2 of H5N1 (A) and H1N1 (B) viruses
2. Viral neuraminidase inhibitors
Neuraminidase (sialidase, acyl-neuramidyl
hydrolase):
•glycoprotein
•glucosidase which cleaves specifically glycoside
bonds and to galactose
• enzyme cleaving N-acetylneuraminic acid away from more complex oligosaccharides on the cell surface and thus facilitating releasing of virions from the infected cell and their spreading to other cells of host organism
•also acts as a superficial antigen of the influenza virus with principal significance for the immunity response
•in mammals and birds, 9 neuraminidase serotypes and 16 hemagglutinin serotypes have been found up to now (hemagglutinin is also a superficial antigen)
O
N-acetylneuraminic acid Aceneuramic acid [INN]
N-acetylneuraminic acid and 1 experimental neuraminidase inhibitors
O
N-acetylneuraminic acid Aceneuramic acid [INN]
O
R = -CH
3
2-Deoxy-2,3-dehydro-N-acetylneuraminic acid DANA
R = -CF
3
2-Deoxy-2,3-dehydro-N-trifluoroacetylneuraminic acid FANA
Viral neuraminidase inhibitors
oseltamivir
Tamiflu® cps.
HoN
\\ hn h/ NH   \ H
H
//^CH3
zanamivir
O
Relenza® inh. plv. dos.
peramivir
BCX-1812 •i.v. administration
•intranasal administration only •dimeric and multimeric forms with expected   •some 3rd phase greater activity, longer elimination half-time    clinical tests and greater bioavailability are being developed
completed, some proceeds
•effective against H1N1 (swine), not against H5N1 (bird)
development of forms for i.v. or i.m. administration
A model of binding of zanamivir to the active site of neuraminidase of reconstructed H1N1 virus from 1918 (similar to swine 2009)
3. Inhibitors of replication of RNA viruses hq.   h n
y—o
Hi
x = o HO^
1-(3-D-ribofuranosyl-1,2,4-triazole-3-carboxamide ribavirin
•broad spectrum including SARS-coronavirus (Severe Acute Respiratory Syndrome) •known since 1970th
•approved for treatment of HCV (hepatitis C; ± pegylated interferon) and RSV (respiration syncytial virus) in children
•mechanisms of action: 1. inhibition of inosine-5'-monophosphate dehydrogenase (changes IMP to xanthosine-5'-monophosphate in de novo synthesis of GMP)
2. direct interference with transcription and replication
Rebetol®, Copegus®
X = NH viramidin
syn. taribavirin [USAN]
•prodrug, expected lower toxicity (hemolysis), clinical trials of the 3rd phase for HCV completed
Mechanism of action of ribavirin
Glutamine PRPP
PRA
5-phosphoribosyl amine
Ribavirin
Ribavirin-MP
inosine monophosphate
IMP
XMP        / succinyl AMP
GMP
I
dGDP «— GDP
I I
dGTP GTP
AMP
I
ADP —► dADP
I j
ATP dATP
3. Inhibitors of replication of RNA viruses
favipiravir
5-fluoro-3-hydroxypyrazine-2-carboxamide T-705
•broad spectrum including influenza A, B, C
•clinical trials of the 1st and 2nd phases (pharmacokinetics, dose finding for influenza)
•mechanism of action: after entering the cell, phosphorylation to monophosphate by
phosphoribosyl transferase and further to triphosphate by gell kinase; in this form the drug
inhibits RNA-dependent RNA-polymerase
•in vitro very active against H5N1 (bird) and seasonal influenzas
•low toxicity, no cytotoxic effect
3. Inhibitors of replication of RNA viruses Reverse transcriptase inhibitors •reverse transcriptase = RNA-dependent DNA-polymerase discovered in 1970th by Temin, Mizutani and Baltimor in oncoviruses
•catalyses reversal" transcript of viral RNA into DNA in retroviruses
Thymidine analogues
OH
3'-azido-2', 3'-dideoxythymidine zidovudine azidothymidin, AZT Retrovir®
2', 3'-didehydro-2', 3'-dideoxythymidine stavudine
Zerit®
treatment of HIV infections
Reverse transcriptase inhibitors Cytidine analogues
NH2 NH2
OH
2',3'-dideoxycytidine zalcitabine
ddC Hivid®
R = -H 2',3'-dideoxy-3'-thiacytidine
lamivudine
3TC
Epivir®
R = -F 2',3'-dideoxy-5-fluor-3'-thiacytidin
emtricitabine
Emtriva®
treatment of HIV infections
Reverse transcriptase inhibitors Purine derivatives
{(1f?)-4-[2-amino-6-(cyclopropylamino)-9H 2',3'-didehydroinosine -purin-9-yl]cyclopent-2-en-1-yl}methanol
abakavir
ABC Ziagen®
didanosine
ddl
Videx®
Nucleotide reverse transcriptase inhibitors
9-(fosfonylmethoxyethyl)adenine adefovir
•originally developed against HIV, in doses which were needed it was nephrotoxic •now treatment of HBV (hepatitis B)
HoC
HoC
adefovir dipivoxil
•a prodrug with improved lipophilicity and bioavailability
•prof. Antonín Holý, Inst, of Org. Chem. and Biochem., Prague •nominated for Nobel Prize
Nucleotide reverse transcriptase inhibitors
O
(R)-9-[(2-fosfonylethoxy)propyl]adenine
tenofovir
•against HIV
H3C
•tenofovir disoproxil fumarate
•clinical studies for HBV and HIV
Viread ® tbl., Truvada ® cps. (+ emtricitabin)
Inhibitors of DNA polymerase of herpetic viruses •DNA polymerase of Herpesviridae family consists of 2 units: the catalytic subunit UL 54 + additive protein UL44
O
HIST
o
N
133
XJLX>
H2N N
H2N N
O
O
OR
OR
OH
R = -H
aciclovir
Aciclovirum PhEur
ganciclovir
O CH
R =
va,acic,ovir valganciclovir
•nucleoside analogues, guanine derivatives
•herpetic infections including HCMV (human cytomegalovirus)
•prodrugs - valine esters have improved biological availability
Inhibitors of DNA polymerase of herpetic viruses
penciclovir
Vectavir® drm crm
famciclovir
•competitive inhibitor Famciclovir Arrow ® por tbl flm
Inhibitors of DNA polymerase of herpetic viruses
o oh
y—p—oh
foscarnet
Foscarnetum natricum hexahydricum PhEur
•CMV retinitis, other herpesviruses, HIV
•mechanism of action: inhibits viral DNA polymerase by binding to the diphosphate binding site and by blocking of cleaving of diphosphate away from the triphosphate of terminal nucleoside which is added to the growing DNA chain •blocks also reversal transcriptase
Viral proteases inhibitors Inhibitors of HCV (hepatitis C virus) NS3 protease •hepatitis C: 2 - 15 % of the world population are estimated to be infected, WHO: 1.7.108 people (2006)
• 10 - 20 % overcomes the virus, the rest becomes permanent virus hosts, in 10-20 %,
cirrhosis or liver cancer is developed
•transfer is parenteral, sexual or vertical (mother^child)
•NS3 proteasa umístěna na eN-terminální dornende NS3 proteinu, považována za důležité místo zásahu, je zodpovědná za^ramolekulárnčstěpení na místě NS3/4A a následné procesy •současně narušuje syntéziHGÍeJíe&noGkho itígGlgčního^fákk^ru 3 (IRF-3) hostitele, čímž snižuje imunitní od poveď   ^ II
H3C N'
HN-^O
O
MK-7009
Protilátky
CDLPQTHSLG     SRRTLMLLAQ      MRX,ISLFSCL KDRHDFGFPQ
EEFGNGFQKA
KYFGRTLYL
LRSKE
ETIPVLHEMI
LDKFYTELYQ QLNDLEACVI
KEKKYSP<
OQIFNLFSTK
QGVGVTETPL
EWRAEIMRS
DSSAAWDETL
MKEDSILAVR
FSLSTNLQES
interferon a
2
Interferoni alfa-2 solutio concentrata ČL 2005 X1 = Lys a2a
X1 = Arg a2b
•protivirová aktivita v průběhu syntézy virové RNA a bílkoviny •antiproliferační aktivita
•výroba rekombinantní technikou na bakteriích
•též pegylovaný: peginterferon alfa-2a (Pegasys ®) - na N-konci N2, N6-dikarboxy-Lys esterifikovaný PEG-monomethyletherem