Complete Blockage of HBV Virus Replication and Inhibition of Formation by Core Protein Allosteric Modifiers G. Renuka Kumar, Yuhua Zong, Alex Mercier, Pao-Chen Li, Cathal Mahon, Emily Connelly, Katherine Nabel, Lichun Li, Yi Zhou, Lida Guo, Shawn Sun, Geoffrey Chen, Uri Lopatin, Richard Colonno and Qi Huang Assembly Biosciences
HBV Core Protein: Required Throughout Lifecycle Plays a critical role in the formation, amplification and maintenance of Essential for creating new rcdna from pgrna Maintenance pgrna Encapsidation Formation Amplification rcdna: relaxed circular DNA : covalently closed circular DNA pgrna: pre-genomic RNA RT: reverse transcription
ASMB Goal: Curative Therapy for HBV Current therapies are suboptimal IFNs are poorly tolerated, and often not effective Nucs are highly effective in suppressing viral load to undetectable levels, but are not curative, and have little effect on levels (key target to eliminate chronic infection) To achieve clinical cure, new therapies must target Formation Maintenance Amplification Identified and developed a series of potent Core Protein Allosteric Modifiers (CpAMs) which inhibit
CpAMs Inhibit HBV Replication in HepAD38 cells HBV Viral Load Inhibition in HepAD38 cells HepAD38 Precore Transcript Levels Formation, Maintenance Precore (RT-PCR) 1 2 3 4 5 1 = 2 = ETV 0.1 µm Amplification POL RNA (RT-PCR) DNA (PCR) 3 = ABI-H0731 1 µm 4 = GLS4 1 µm 5 = virion DNA N 3
CpAMs Inhibit HBV DNA Replication by Blocking pgrna Encapsidation HBV DNA Levels Percent of Control 100 nm ETV 1 um ABI-H0731 1 um GLS4 100 80 60 40 20 0 Total Intracellular Extracellular Encapsidated Percent of Control HBV pgrna Levels 100 nm ETV 1 um ABI-H0731 1 um GLS4 200 150 100 50 0 Total Intracellular Extracellular Encapsidated ETV pgrna CpAM ABI-H0731 & GLS4 inhibited both viral RNA and DNA in HBV capsids ETV reduced quantity of HBV DNA, but increased (~50%) the amount of pgrna packaged in intracellular capsids and secreted virions
CpAMs Inhibit Formation in NTCP-HepG2 Cells Viral DNA, pgrna, HBeAg and HBsAg levels in infected NTCP-HepG2 cells ABI-H0808 GLS4 ETV Viral Load HBeAg HBsAg pgrna EC 50 ± SD (nm) Compound Viral DNA HBeAg HBsAg pgrna ABI-H0808 95 372 945 419 GLS4 58 549 673 279 ETV 0.8 >>100 >>100 >>100 CpAMs reduced HBeAg, HBsAg and pgrna levels (surrogates for establishment of ), while ETV was only effective at inhibiting viral load (HBV DNA)
CpAMs Inhibit Formation in PHH Cells Viral DNA, pgrna, HBeAg and HBsAg in Primary Human Hepatocytes ABI-H0808 GLS4 ETV Viral Load HBeAg HBsAg pgrna EC 50 ± SD (nm) Compound Viral load HBeAg HBsAg pgrna ABI-H0808 80 196 310 305 GLS4 1,940 1,480 1,860 1,930 ETV <0.1 Incomplete Incomplete Incomplete CpAMs reduced HBeAg, HBsAg and pgrna levels (surrogates for establishment of ), while ETV was only effective at inhibiting viral load (HBV DNA) GLS4 lost potency in PHH, likely due to metabolic instability
CpAMs Inhibit Amplification in HepAD38 cells Detection of HBV Inhibitory effect of CpAMs on Extraction of extrachromosomal DNA Sequential digestion with T5 exonuclease and EcoRI endonuclease Southern Blot Mock T5 T5/RI Size (kb) 6.0 5.0 4.0 3.0 2.5 2.0 Input T5 only T5 & EcoRI 1 2 3 1 2 3 1 2 3 (linear) (supercoiled) rcdna 3.2 kb dsdna (linear) /ssdna (linear) (supercoiled) 1.5 1.0 0.8 0.6 1 = 2 = ABI-H0731 3 = GLS4 Model Illustration of Expected Pattern Southern Blot on total extrachromosomal DNA from induced HepAD38 cells treated with compounds at 10x their EC 50 for 11 days
CpAMs Block Formation in NTCP-HepG2 Southern Blot qpcr ABI-H0731 ETV ABI-H0808 Input T5 only T5 + RI Input T5 T5 + RI 1.3 2.5 5.0 10.0 1.3 2.5 5.0 10.0 1.3 2.5 5.0 10.0 (µm) : (nm) : 20 100 20 100 20 100 (linear) (supercoiled) ABI-H0731 up to ~50x EC 50 ETV up to ~125x EC 50 ABI-H0808 T5+EcoRI samples qpcr with specific primers normalized to MtDNA levels
Summary Important to identify treatments/strategies that result in significantly higher cure rates HBV appears to be obvious target, as this moiety is believed to be responsible for sustaining a chronic infection and is not impacted by standard of care therapy HBV Core protein plays multiple roles throughout the HBV lifecycle and represents an excellent target by which to impact levels CpAMs represent a new class of direct acting antivirals that are selective for HBV and inhibit de novo formation Assembly Biosciences has established assays to specifically measure levels and is currently progressing the first candidate into clinical development this year 10
Acknowledgements Assembly Biosciences HBV Team Biology Chemistry Biochemistry Qi Huang G. Renuka Kumar Yuhua Zong Alex Mercier Pao-Chen Li Cathal Mahon Emily Connelly Katherine Nabel Yi Zhou Lida Guo Geoffrey Chen Uri Lopatin Richard Colonno Lee Arnold Leping Li Simon Haydar Bill Turner Lynn Bannen Mark Bures Earl May Lichun Li Samson Francis Sara Katen Steve Dunelbarger Jason Deer Adam Zlotnick