RNAi Therapeutics Using Conjugate Delivery Platform October 8, 213
Topics to Cover Alnylam GalNAc-siRNA Conjugate Platform» GalNAc-siRNA conjugates for subcutaneous administration» Valency, Structure and Receptor Binding Pharmacology of GalNAc-siRNA Conjugates PK/PD of GalNAc-siRNA Conjugates Summary 2
Chemical Modifications of sirnas Sugar Modifications Internal/ End Caps 2 -Deoxy 2 - Ribo 2 -O-Me 2 -F 2 -O-MOE SuMOE BNA Abasic Backbone Modifications Modifications to modulate thermodynamics and improve biostability O O B 2 O O B 2 O O P O O R O B 1 O O P S O R O B 1 Xylo Abasic O R O R Phosphate (P=O) 3 Phosphorothioate (P=S) G-Clamp (nucleobase) GNA R = OH, OMe, F, H X = O or S 2-5 P-linkage
ASGPR Clears serum glycoproteins via clathrin-mediated endocytosis Highly expressed in hepatocytes».5-1 million copies/cell High rate of uptake Recycling time ~15 minutes Conserved across species GalNAc-siRNA GalNAc ligand conjugated to chemically modified sirna to mediate targeted delivery Trivalent GalNAc carbohydrate cluster has nm affinity for ASGPR Administered subcutaneously (SC) GalNAc-siRNA Conjugates Targeted Delivery to Hepatocytes and SC Dosing GalNAc-siRNA conjugate ASGPR (ph>5) Target protein RISC Clathrin-coated pit Recycling ASGPR Clathrin-coated vesicle Endosome mrna GalNAc ligand Nucleus Adapted from Essentials of Glycobiology (29) 4
Design of Multivalent ASGPR Specific Ligand Spacing: 2 Å Triantennary GalNAc Alnylam Pharmaceuticals 212 Adapted from Lee et al., Carbohydrates in Chemistry and Biology; 4:549 (2) 5
CRD of Asialoglycoprotein Receptor M. Meier, M.D. Bider, V.N. Malashkevich, M. Spiess, P. Burkhard J. Mol. Biol., 3 (2), p. 857 6 Meier et al., J. Mol. Biol.; 3:857-65 (2)
MFI GalNAc-siRNA Conjugate Design Valency Affects Binding Affinity 4 Kd = 2.48 nm 3 2 1 Kd = 28.8 nm (GalNAc)3 (GalNAc)2 GalNAc 3 (G3) 2 4 6 8 1 [(GalNAc)n] nm Ligand GalNAc 2 GalNAc 3 Mouse Hepatocyte Ki ~24 nm 2.7 nm Rensen et al., J. Biol Chem 276:37577-84 (21) Biessen et al., Bioconjugate Chem.; 13: 295-32 (22) 7 GalNAc 2 (G2)
Relative Uptake (MFI) 18 Uptake of GalNAc-siRNA Conjugates 1 o Mouse Hepatocytes 15 12 9 6 3 sirna Glu 2 -sirna GalNAc 2 - sirna GalNAc 3 - sirna +EGTA +G3BB (38) ASGR2 KO Cells GalNAc 3 -sirna + Glucose conjugate does not mediate uptake GalNAc 3 BB & EGTA block uptake No uptake for ASGR2 KO Cells G3BB 8
% Labeled Dose % Labeled Dose IV Administration of 125 I labeled sirna-galnac Conjugate % of Injected Dose in Liver Repeat Dose & Re-uptake.5 mg/kg 1.5mg/kg 5mg/kg 1mg/kg 1mg/kg Fast uptake, saturation and recycling point towards optimizing dosing regimen Delayed release via SC dosing may help by engaging multiple rounds of receptor uptake Multi-dose SC administration as one approach to optimize receptor utilization 9 Collaboration with Dr Theo van Berkel
% mrna Remaining Relative to PBS Drug level in Liver g/g Mode of Administration Impacts Pharmacology IV vs. SC Comparison of Efficacy and Drug Level in Mouse Liver 12 TTR mrna KD in Liver 12 sirna in Liver 1 1 8 8 6 6 4 4 2 2 SC 24 h IV SC 24 h IV 1 Oligo Ther Soc., Sept. 212
sirna/ tissue (ng/g) TTR-GalNAc sirna Biodistribution SC administration GalNAc-siRNA conjugates efficiently target liver Achieve liver levels of >5% delivered dose 12 4 hours Post-Dose 1 8 6 4 2 Liver Spleen Kidney Heart Lung 11 Oligo Ther Soc., Sept. 212
Synthesis of GalNAc Support and Conjugate 1 GalNAc 2 Tris 3 trans-4-oh-pro-oh 4 Solid Support Multi-step synthesis 1 1 2 4 3 GalNAc Solid Support 1 Synthesis/Process Developed at Alnylam Compatible with multiple solid supports Compatible with solid phase RNA synthesis and deprotection conditions GalNAc Solid Support Convergent Multi-Step synthesis Scalable to multi-kilo sirna-galnac Synthesis Solid phase phosphoramidite chemistry Scalable to kilo scale GalNAc-siRNA Conjugate 12
Topics to Cover Alnylam GalNAc-siRNA Conjugate Platform» GalNAc-siRNA conjugates for subcutaneous administration» Valency, Structure and Receptor Binding Pharmacology of GalNAc-siRNA Conjugates PK/PD of GalNAc-siRNA Conjugates Summary 13
% Knockdown FVII Protein Relative Normalized, Pre-dose = 1 Pharmacology Translates Across Multiple Targets Example: Single-Dose FVII GalNAc-siRNA in Mice -2 2 4 6 8 1 GalNAc-siRNA Dose 1. mg/kg 3. mg/kg 1. mg/kg 1 2 3 4 5 6 7 8 9 Day Post-dose 14
% Knockdown FVII protein in serum normalized to individual pre-dose Low Doses for Multi-Dose Efficacy Example: FVII GalNAc-siRNA in Mice 4-5% reduction with cumulative weekly dose of.3 mg/kg (.1 mg/kg TIW or.3 mg/kg qw) 7-8% knockdown with cumulative weekly dose of ~1 mg/kg >95% knockdown at cumulative weekly dose of 3 mg/kg -2 2 TIW.1mg/kg.3mg/kg 1. mg/kg qw.3 mg/kg 1. mg/kg 3. mg/kg 4 6 8 1 1 2 3 4 5 6 FVII GalNAc-siRNA qw x8 FVII GalNAc-siRNA TIW x8 Days 15
% Knockdown Serum TTR (Fraction Pre-dose) Chronic-Dose Efficacy Example: TTR GalNAc-siRNA Ongoing Long-term Study in Mice Steady duration of knockdown is maintained with chronic dosing Sustained ED5~1mg/kg and ED8 ~2.5mg/kg» Rodent orthologue with improved potency compared with ALN-TTRsc No changes in serum TTR levels observed in PBS control group Demonstrate absence of tachyphylaxis or sensitization due to Changes in ASGPR level function/expression, Ab production, other factors -2 PBS 1. mg/kg 2.5mg/kg 2 4 6 8 1 1 2 3 4 5 6 7 8 9 TTR GalNAc-siRNA qw x15 Days 16
% PCSK9 Knockdown or LDLc Lowering (average pre-bleed) Pre-Clinical Efficacy Example: PCSK9 GalNAc-siRNA in NHP PCSK9 GalNAc-siRNA achieves potent PCSK9 knockdown and LDLc lowering with SC dosing NHP data with current lead molecule» Expect Development Candidate in late 213 Up to 9% PCSK9 knockdown and up to 68% lowering of LDLc in absence of statins in NHP Goal: Competitive profile against anti-pcsk9 Mabs LDLc PCSK9 2 4 6 8 17 1 1 2 3 4 5 6 7 Day PCS GalNAc-siRNA (2 mg/kg) qdx5 + qwx3
Topics to Cover Alnylam GalNAc-siRNA Conjugate Platform» GalNAc-siRNA conjugates for subcutaneous administration» Valency, Structure and Receptor Binding Pharmacology of GalNAc-siRNA Conjugates PK/PD of GalNAc-siRNA Conjugates Summary 18
% Antithrombin Knockdown Normalized to Pre-Dose and PBS PK/PD Correlation ALN-AT3 Pre-clinical Studies in Wild Type Mice Weekly SC administration of ALN-AT3 results in potent and consistent AT suppression Repeat dose ED 5 for AT knockdown <.75 mg/kg Nadir knockdown at ~day 14-2 2 ALN-AT3 (mg/kg).75 1.5 3. 4 6 8 1 4 8 12 16 2 24 28 32 ALN-AT3, qw x5 Day 19 WFH, July 212
PK/PD Study Design ALN-AT3 Pre-clinical Studies in Wild Type Mice Group sirna Dose (mg/kg) Conc. (mg/ml) Route No. of Males 1 AT3 1.1 SC 44 2 AT3 2.5.25 SC 44 3 AT3 5.5 SC 44 Blood and Tissues Collection Time Points.83,.25,.5, 1, 2, 4, 8, 24, 48, 96, 12, 168, 24, 336, 48, 54, 576, 672, 744, 84, 912 and 18 h post-dose Male C57BL/6 mice (2-3 grams) Organs: Liver, spleen, kidney, blood (n=2 /time point/group) at specified time points. qpcr assay - LLOQ Plasma =.4 ng/ml & Liver =.4 ng/g RISC-loaded sirna levels were determined by Ago2 IP followed by RT-qPCR Plasma and liver samples at each time point were analyzed for AT protein in Plasma and AT mrna in liver 2
sirna conc. in plasma (ng/ml) sirna conc. in liver (ng/g) PK Profiles in Plasma and Liver ALN-AT3 Pre-clinical Studies 1 1 1 Plasma 1 mg/kg 2.5 mg/kg 5 mg/kg 1 1 1 1 Liver 1 1 1 1 1 4 8 12 16 2 24 Time (h) ALN-AT3 1 1 1 2 3 4 Time (h) ALN-AT3 AT3 Conjugate in Plasma Dose (mg/kg) 1. 2.5 5. Apparent t1/2β (h).46.38.61 Tmax (h).5.5.5 Cmax (µg/g).117.42.686 AUC-t (h µg/g).176.57.84 1 1 mg/kg 1 2.5 mg/kg 5 mg/kg 1 2 3 4 5 6 7 8 9 1 Time (h) ALN-AT3 AT3 Conjugate in Liver Dose (mg/kg) 1. 2.5 5. Apparent t 1/2β (h) 112 126 126 Tmax (h) 4 4 4 Cmax (µg/g) 5.75 13.2 27.9 AUC -t (h µg/g) 32 115 2274 21
% Knockdown AT mrna (Relative to Control) % Knockdown AT protein in serum (Relative to Control) PD Profiles ALN-AT3 Pre-clinical Studies Silencing of AT mrna Reduction of AT Protein 12 12 1 1 8 8 6 6 4 1 mg/kg 2 2.5 mg/kg 5 mg/kg 1 2 3 4 5 6 7 8 9 1 Time (h) ALN-AT3 4 1 mg/kg 2 2.5 mg/kg 5 mg/kg 1 2 3 4 5 6 7 8 9 1 Time (h) ALN-AT3 Comparable PD profiles for AT mrna and plasma protein after single s.c. administration of ALN-AT3 22
% Knockdown AT mrna Relative to control Total sirna (ng/g) % Knockdown AT mrna Relative to control Total vs. RISC-loaded sirna ALN-AT3 Pre-clinical Studies 1 1 1 1 Total and RISC-loaded sirna 1. 1..1.1 RISC-loaded sirna (ng/g) -2 2 4 6 8 Total sirna vs. mrna Silencing 16 8 Total sirna in liver (ng/g) 1.1 1 2 3 4 5 6 7 8 9 Time (h) ALN-AT3 2.5 mg/kg 1 1 2 3 4 5 6 7 8 9 Time (h) ALN-AT3 2.5 mg/kg 23 Tmax of RISC-loaded sirna shifted relative to total sirna Rate of depletion of RISC-loaded sirna slower than total sirna» May be due to enhanced metabolic stability of RISC-loaded compared to free sirna and further replenishment of the drug from liver Amount of RISC-loaded sirna correlates well with silencing activity -2 2 4 6 8 1 4. 2.. 1 2 3 4 5 6 7 8 9 ALN-AT3 2.5 mg/kg RISC-loaded sirna vs. mrna Silencing Time post - dose (h) RISC-loaded sirna (ng/g)
% AT mrna Silencing % AT mrna Silencing PK/PD Relationship ALN-AT3 in Liver Target gene silencing achieved at low liver tissue exposure EC5 achieved at ~.1 g/g tissue» Compares very favorably with other oligonucleotide platforms requiring >1 g/g tissue levels 1 Renal excretion and no accumulation in extra-hepatic tissues -2-2 2 4 2 4 6 8 1 2. 4. 6. 8. Total sirna in liver (µg/g) 6 R 2 =.859 8 1.1.1.1 1. 1. Total sirna in liver (µg/g) 24 1 Mipomersen FDA Advisory Committee Briefing Document, October 212
% AT mrna Silencing % AT mrna Silencing PK/PD Relationship ALN-AT3 in RISC Target gene silencing achieved at very low RISC-loaded sirna concentrations EC5 achieved at ~1.5 ng/g tissue (~8 molecules/cell)» ~1x lower than EC5 values obtained for total sirna 2 2 4 6 4 6 R² =.7111 8 1 2 4 6 8 RISC-loaded sirna in liver (ng/g) 8 1.1 1. 1. RISC - loaded sirna in liver (ng/g) 25
GalNAc-siRNA Conjugates Wide Therapeutic Index Cytokine/Complement Assessment No evidence of inflammation (cytokine, complement) in vitro or in vivo, including NHP GLP Toxicology Study Results Rat doses up to 3 mg/kg (1 doses)» No in-life findings» No injection site reactions» No significant LFT changes NHP doses up to 3 mg/kg (1 doses)» No in-life findings» No injection site reactions» No clin path or histopath findings» Likely predictive species: No Adverse Event Level >3 mg/kg 26
Topics to Cover Alnylam GalNAc-siRNA Conjugate Platform» GalNAc-siRNA conjugates for subcutaneous administration» Valency, Structure and Receptor Binding Pharmacology of GalNAc-siRNA Conjugates PK/PD of GalNAc-siRNA Conjugates Summary 27
GalNAc-siRNA Conjugates Broad Platform for SC Delivery of RNAi Therapeutics Potent, rapid, dose-dependent, consistent, and durable target knockdown with SC administration with wide therapeutic index Broad platform for any hepatocyte target gene utilizing efficient receptor-ligand system Rational design and efficient synthesis of trivalent GalNAc building block achieved» Enabled successful manufacture of large scale sirna-conjugate with simple CMC Combining high capacity receptor recycling with SC injection enables convenient multi-dosing paradigm Chronic dosing demonstrate steady-state knockdown without tachyphylaxis or sensitization due to changes in ASGPR level, Ab production, and other factors Dose proportionality for AUC and Cmax in plasma and liver exists Good correlation for mrna and protein reduction as a function of RISCassociated as well as total sirna for later time points ( 12 h post-dose) EC5 for RISC-loaded conjugate is ca. 1.6 ng/g (~8 molecules/cell) and estimated EC5 for total conjugate in liver is ca..1 ug/g» EC5 for GaNAc-siRNA is >1-fold improvement over ASO 28