Pharmacokinetic and Pharmacodynamic Properties of Cemdisiran, an RNAi Therapeutic Targeting Complement Component 5, in Healthy Subjects and Patients with Paroxysmal Nocturnal Hemoglobinuria
Background Cemdisiran, an N -acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of complement-mediated diseases by suppressing liver production of complement 5 (C5) protein. This study was designed to evaluate the safety, tol...
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| Published in | Clinical pharmacokinetics Vol. 60; no. 3; pp. 365 - 378 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cham
Springer International Publishing
01.03.2021
Springer Nature B.V |
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| Abstract | Background
Cemdisiran, an
N
-acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of complement-mediated diseases by suppressing liver production of complement 5 (C5) protein. This study was designed to evaluate the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of cemdisiran in healthy subjects and in patients with paroxysmal nocturnal hemoglobinuria (PNH) in order to support dose selection for late-stage clinical trials.
Methods
Healthy volunteers (HVs;
n
= 32, including 12 Japanese subjects) were randomized (3:1) to receive single doses of subcutaneous cemdisiran (50–900 mg) or placebo, or repeat doses of subcutaneous cemdisiran (100–600 mg) or placebo weekly, biweekly, weekly/biweekly, or weekly/monthly for 5, 8, or 13 weeks (
n
= 24). Cemdisiran 200 or 400 mg was administered weekly in an open-label manner, for varying durations, as monotherapy in three eculizumab-naïve PNH patients or in combination with eculizumab in three PNH patients who were receiving stable label doses of eculizumab (900 or 1200 mg biweekly) before the start of the study. After the last dose of cemdisiran, patients were followed for safety and ongoing pharmacologic effects with the eculizumab regimen (600 or 900 mg every month).
Results
In HVs, cemdisiran was rapidly converted to a major active metabolite, AS(N-2)3′-cemdisiran, both declining below the lower limit of quantification (LLOQ) in plasma within 48 h, and showing minimal renal excretion. AS(N-2)3′-cemdisiran exhibited more than dose-proportional PK. The C5 protein reductions were dose-dependent, with > 90% reduction of C5 protein beginning on days 21–28 and maintained for 10–13 months following single and biweekly doses of 600 mg. The dose–response relationship, described by an inhibitory sigmoid maximum effect (
E
max
) model, estimated half-maximal effective dose (ED
50
) of 14.0 mg and maximum C5 reduction of 99% at 600 mg. The PK and PD were similar between Japanese and non-Japanese subjects, and PNH patients and HVs. One of 48 subjects tested transiently positive for antidrug antibody with low titer, with no impact on PK or PD. In PNH patients, C5 suppression by cemdisiran enabled effective inhibition of residual C5 levels with lower dose and/or dosing frequency of eculizumab, which was maintained for 6–10 months after the last dose of cemdisiran.
Conclusions
Consistent with the PK/PD properties of liver targeting GalNac conjugates, cemdisiran and AS(N-2)3′-cemdisiran plasma concentrations declined rapidly while showing rapid and robust C5 suppression maintained up to 13 months following single and multiple doses, which indicates long residence times of cemdisiran within hepatocytes. The long PD duration of action in liver, low immunogenicity and acceptable safety profiles enables low, infrequent SC dosing and support further evaluation of cemdisiran in complement-mediated diseases as monotherapy or in combination with a C5 inhibitor antibody.
Clinical Trial Registration No
NCT02352493. |
|---|---|
| AbstractList | Small-interfering ribonucleic acids (siRNA) are a new class of medicines that harness the natural RNA interference (RNAi) mechanism for the control of gene expression that utilizes siRNAs loaded onto the cytoplasmic RNA-induced silencing complex (RISC) to specifically target and cleave a complementary messenger RNA (mRNA), thus reducing the synthesis of the disease-causing protein [3-7]. Once in the cytosol of the hepatocyte, cemdisiran specifically targets and cleaves C5 mRNA utilizing the endogenous RNAi pathway, resulting in decreased hepatic synthesis and lower circulating levels of C5 protein. [...]it is hypothesized that cemdisiran will ameliorate the signs and symptoms of complement-mediated diseases, offering a novel approach for the treatment of these diseases. [...]some PNH patients have a rare missense mutation on C5 (c.2654G ^ A, which results in an amino acid substitution p.Arg885His) that results in impaired eculizumab binding and poor therapeutic response [14]. Because cemdisiran targets a region of C5 mRNA away from the p.Arg885His mutation, it is also expected to silence the mutant version of the C5 gene. Subjects were monitored on an outpatient basis for safety, tolerability, PK, and PD through day 70 for Part A, and overtreatment/postdose follow-up period (up to day 140) for Parts B and C. For Parts A and B, PD follow-up visits were conducted every 28 ± 7 days for subjects with serum complement activity below the normal range at the last postdose follow-up visit; monitoring visits occurred until serum complement activity was within the normal reference range for all subjects or until an SRC decision to discontinue monitoring on a case-by-case basis, whichever was sooner. 2.2Study Participants For Parts A and B, men and women aged 18-45 years with a body mass index > 18.0 kg/m2 and < 30 kg/m2 were included. Cemdisiran, an N-acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of complement-mediated diseases by suppressing liver production of complement 5 (C5) protein. This study was designed to evaluate the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of cemdisiran in healthy subjects and in patients with paroxysmal nocturnal hemoglobinuria (PNH) in order to support dose selection for late-stage clinical trials.BACKGROUNDCemdisiran, an N-acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of complement-mediated diseases by suppressing liver production of complement 5 (C5) protein. This study was designed to evaluate the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of cemdisiran in healthy subjects and in patients with paroxysmal nocturnal hemoglobinuria (PNH) in order to support dose selection for late-stage clinical trials.Healthy volunteers (HVs; n = 32, including 12 Japanese subjects) were randomized (3:1) to receive single doses of subcutaneous cemdisiran (50-900 mg) or placebo, or repeat doses of subcutaneous cemdisiran (100-600 mg) or placebo weekly, biweekly, weekly/biweekly, or weekly/monthly for 5, 8, or 13 weeks (n = 24). Cemdisiran 200 or 400 mg was administered weekly in an open-label manner, for varying durations, as monotherapy in three eculizumab-naïve PNH patients or in combination with eculizumab in three PNH patients who were receiving stable label doses of eculizumab (900 or 1200 mg biweekly) before the start of the study. After the last dose of cemdisiran, patients were followed for safety and ongoing pharmacologic effects with the eculizumab regimen (600 or 900 mg every month).METHODSHealthy volunteers (HVs; n = 32, including 12 Japanese subjects) were randomized (3:1) to receive single doses of subcutaneous cemdisiran (50-900 mg) or placebo, or repeat doses of subcutaneous cemdisiran (100-600 mg) or placebo weekly, biweekly, weekly/biweekly, or weekly/monthly for 5, 8, or 13 weeks (n = 24). Cemdisiran 200 or 400 mg was administered weekly in an open-label manner, for varying durations, as monotherapy in three eculizumab-naïve PNH patients or in combination with eculizumab in three PNH patients who were receiving stable label doses of eculizumab (900 or 1200 mg biweekly) before the start of the study. After the last dose of cemdisiran, patients were followed for safety and ongoing pharmacologic effects with the eculizumab regimen (600 or 900 mg every month).In HVs, cemdisiran was rapidly converted to a major active metabolite, AS(N-2)3'-cemdisiran, both declining below the lower limit of quantification (LLOQ) in plasma within 48 h, and showing minimal renal excretion. AS(N-2)3'-cemdisiran exhibited more than dose-proportional PK. The C5 protein reductions were dose-dependent, with > 90% reduction of C5 protein beginning on days 21-28 and maintained for 10-13 months following single and biweekly doses of 600 mg. The dose-response relationship, described by an inhibitory sigmoid maximum effect (Emax) model, estimated half-maximal effective dose (ED50) of 14.0 mg and maximum C5 reduction of 99% at 600 mg. The PK and PD were similar between Japanese and non-Japanese subjects, and PNH patients and HVs. One of 48 subjects tested transiently positive for antidrug antibody with low titer, with no impact on PK or PD. In PNH patients, C5 suppression by cemdisiran enabled effective inhibition of residual C5 levels with lower dose and/or dosing frequency of eculizumab, which was maintained for 6-10 months after the last dose of cemdisiran.RESULTSIn HVs, cemdisiran was rapidly converted to a major active metabolite, AS(N-2)3'-cemdisiran, both declining below the lower limit of quantification (LLOQ) in plasma within 48 h, and showing minimal renal excretion. AS(N-2)3'-cemdisiran exhibited more than dose-proportional PK. The C5 protein reductions were dose-dependent, with > 90% reduction of C5 protein beginning on days 21-28 and maintained for 10-13 months following single and biweekly doses of 600 mg. The dose-response relationship, described by an inhibitory sigmoid maximum effect (Emax) model, estimated half-maximal effective dose (ED50) of 14.0 mg and maximum C5 reduction of 99% at 600 mg. The PK and PD were similar between Japanese and non-Japanese subjects, and PNH patients and HVs. One of 48 subjects tested transiently positive for antidrug antibody with low titer, with no impact on PK or PD. In PNH patients, C5 suppression by cemdisiran enabled effective inhibition of residual C5 levels with lower dose and/or dosing frequency of eculizumab, which was maintained for 6-10 months after the last dose of cemdisiran.Consistent with the PK/PD properties of liver targeting GalNac conjugates, cemdisiran and AS(N-2)3'-cemdisiran plasma concentrations declined rapidly while showing rapid and robust C5 suppression maintained up to 13 months following single and multiple doses, which indicates long residence times of cemdisiran within hepatocytes. The long PD duration of action in liver, low immunogenicity and acceptable safety profiles enables low, infrequent SC dosing and support further evaluation of cemdisiran in complement-mediated diseases as monotherapy or in combination with a C5 inhibitor antibody.CONCLUSIONSConsistent with the PK/PD properties of liver targeting GalNac conjugates, cemdisiran and AS(N-2)3'-cemdisiran plasma concentrations declined rapidly while showing rapid and robust C5 suppression maintained up to 13 months following single and multiple doses, which indicates long residence times of cemdisiran within hepatocytes. The long PD duration of action in liver, low immunogenicity and acceptable safety profiles enables low, infrequent SC dosing and support further evaluation of cemdisiran in complement-mediated diseases as monotherapy or in combination with a C5 inhibitor antibody.NCT02352493.CLINICAL TRIAL REGISTRATION NONCT02352493. Cemdisiran, an N-acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of complement-mediated diseases by suppressing liver production of complement 5 (C5) protein. This study was designed to evaluate the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of cemdisiran in healthy subjects and in patients with paroxysmal nocturnal hemoglobinuria (PNH) in order to support dose selection for late-stage clinical trials. Healthy volunteers (HVs; n = 32, including 12 Japanese subjects) were randomized (3:1) to receive single doses of subcutaneous cemdisiran (50-900 mg) or placebo, or repeat doses of subcutaneous cemdisiran (100-600 mg) or placebo weekly, biweekly, weekly/biweekly, or weekly/monthly for 5, 8, or 13 weeks (n = 24). Cemdisiran 200 or 400 mg was administered weekly in an open-label manner, for varying durations, as monotherapy in three eculizumab-naïve PNH patients or in combination with eculizumab in three PNH patients who were receiving stable label doses of eculizumab (900 or 1200 mg biweekly) before the start of the study. After the last dose of cemdisiran, patients were followed for safety and ongoing pharmacologic effects with the eculizumab regimen (600 or 900 mg every month). In HVs, cemdisiran was rapidly converted to a major active metabolite, AS(N-2)3'-cemdisiran, both declining below the lower limit of quantification (LLOQ) in plasma within 48 h, and showing minimal renal excretion. AS(N-2)3'-cemdisiran exhibited more than dose-proportional PK. The C5 protein reductions were dose-dependent, with > 90% reduction of C5 protein beginning on days 21-28 and maintained for 10-13 months following single and biweekly doses of 600 mg. The dose-response relationship, described by an inhibitory sigmoid maximum effect (E ) model, estimated half-maximal effective dose (ED ) of 14.0 mg and maximum C5 reduction of 99% at 600 mg. The PK and PD were similar between Japanese and non-Japanese subjects, and PNH patients and HVs. One of 48 subjects tested transiently positive for antidrug antibody with low titer, with no impact on PK or PD. In PNH patients, C5 suppression by cemdisiran enabled effective inhibition of residual C5 levels with lower dose and/or dosing frequency of eculizumab, which was maintained for 6-10 months after the last dose of cemdisiran. Consistent with the PK/PD properties of liver targeting GalNac conjugates, cemdisiran and AS(N-2)3'-cemdisiran plasma concentrations declined rapidly while showing rapid and robust C5 suppression maintained up to 13 months following single and multiple doses, which indicates long residence times of cemdisiran within hepatocytes. The long PD duration of action in liver, low immunogenicity and acceptable safety profiles enables low, infrequent SC dosing and support further evaluation of cemdisiran in complement-mediated diseases as monotherapy or in combination with a C5 inhibitor antibody. NCT02352493. Background Cemdisiran, an N -acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of complement-mediated diseases by suppressing liver production of complement 5 (C5) protein. This study was designed to evaluate the safety, tolerability, pharmacokinetics (PK), and pharmacodynamics (PD) of cemdisiran in healthy subjects and in patients with paroxysmal nocturnal hemoglobinuria (PNH) in order to support dose selection for late-stage clinical trials. Methods Healthy volunteers (HVs; n = 32, including 12 Japanese subjects) were randomized (3:1) to receive single doses of subcutaneous cemdisiran (50–900 mg) or placebo, or repeat doses of subcutaneous cemdisiran (100–600 mg) or placebo weekly, biweekly, weekly/biweekly, or weekly/monthly for 5, 8, or 13 weeks ( n = 24). Cemdisiran 200 or 400 mg was administered weekly in an open-label manner, for varying durations, as monotherapy in three eculizumab-naïve PNH patients or in combination with eculizumab in three PNH patients who were receiving stable label doses of eculizumab (900 or 1200 mg biweekly) before the start of the study. After the last dose of cemdisiran, patients were followed for safety and ongoing pharmacologic effects with the eculizumab regimen (600 or 900 mg every month). Results In HVs, cemdisiran was rapidly converted to a major active metabolite, AS(N-2)3′-cemdisiran, both declining below the lower limit of quantification (LLOQ) in plasma within 48 h, and showing minimal renal excretion. AS(N-2)3′-cemdisiran exhibited more than dose-proportional PK. The C5 protein reductions were dose-dependent, with > 90% reduction of C5 protein beginning on days 21–28 and maintained for 10–13 months following single and biweekly doses of 600 mg. The dose–response relationship, described by an inhibitory sigmoid maximum effect ( E max ) model, estimated half-maximal effective dose (ED 50 ) of 14.0 mg and maximum C5 reduction of 99% at 600 mg. The PK and PD were similar between Japanese and non-Japanese subjects, and PNH patients and HVs. One of 48 subjects tested transiently positive for antidrug antibody with low titer, with no impact on PK or PD. In PNH patients, C5 suppression by cemdisiran enabled effective inhibition of residual C5 levels with lower dose and/or dosing frequency of eculizumab, which was maintained for 6–10 months after the last dose of cemdisiran. Conclusions Consistent with the PK/PD properties of liver targeting GalNac conjugates, cemdisiran and AS(N-2)3′-cemdisiran plasma concentrations declined rapidly while showing rapid and robust C5 suppression maintained up to 13 months following single and multiple doses, which indicates long residence times of cemdisiran within hepatocytes. The long PD duration of action in liver, low immunogenicity and acceptable safety profiles enables low, infrequent SC dosing and support further evaluation of cemdisiran in complement-mediated diseases as monotherapy or in combination with a C5 inhibitor antibody. Clinical Trial Registration No NCT02352493. |
| Author | Clausen, Valerie A. Habtemariam, Bahru Goel, Varun Jiang, Xuemin Najafian, Nader Robbie, Gabriel J. Kim, Jae Borodovsky, Anna Badri, Prajakta |
| Author_xml | – sequence: 1 givenname: Prajakta orcidid: 0000-0003-1248-616X surname: Badri fullname: Badri, Prajakta email: pbadri@alnylam.com organization: Clinical Pharmacology and Pharmacometrics, Alnylam Pharmaceuticals – sequence: 2 givenname: Xuemin surname: Jiang fullname: Jiang, Xuemin organization: Agios Pharmaceuticals – sequence: 3 givenname: Anna surname: Borodovsky fullname: Borodovsky, Anna organization: Clinical Pharmacology and Pharmacometrics, Alnylam Pharmaceuticals – sequence: 4 givenname: Nader surname: Najafian fullname: Najafian, Nader organization: Alexion Pharmaceuticals – sequence: 5 givenname: Jae surname: Kim fullname: Kim, Jae organization: Clinical Pharmacology and Pharmacometrics, Alnylam Pharmaceuticals – sequence: 6 givenname: Valerie A. surname: Clausen fullname: Clausen, Valerie A. organization: Clinical Pharmacology and Pharmacometrics, Alnylam Pharmaceuticals – sequence: 7 givenname: Varun surname: Goel fullname: Goel, Varun organization: Clinical Pharmacology and Pharmacometrics, Alnylam Pharmaceuticals – sequence: 8 givenname: Bahru surname: Habtemariam fullname: Habtemariam, Bahru organization: Clinical Pharmacology and Pharmacometrics, Alnylam Pharmaceuticals – sequence: 9 givenname: Gabriel J. surname: Robbie fullname: Robbie, Gabriel J. organization: Clinical Pharmacology and Pharmacometrics, Alnylam Pharmaceuticals |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33047216$$D View this record in MEDLINE/PubMed |
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| DOI | 10.1007/s40262-020-00940-9 |
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| Snippet | Background
Cemdisiran, an
N
-acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of... Cemdisiran, an N-acetylgalactosamine (GalNAc) conjugated RNA interference (RNAi) therapeutic, is currently under development for the treatment of... Small-interfering ribonucleic acids (siRNA) are a new class of medicines that harness the natural RNA interference (RNAi) mechanism for the control of gene... |
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| SubjectTerms | Antibodies Complement C5 - pharmacokinetics Gene expression Healthy Volunteers Hemoglobinuria, Paroxysmal - drug therapy Humans Internal Medicine Liver Medicine Medicine & Public Health Monoclonal antibodies NCT NCT02352493 Original Original Research Article Pharmacodynamics Pharmacokinetics Pharmacology/Toxicology Pharmacotherapy Proteins RNA Interference RNAi Therapeutics |
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| Title | Pharmacokinetic and Pharmacodynamic Properties of Cemdisiran, an RNAi Therapeutic Targeting Complement Component 5, in Healthy Subjects and Patients with Paroxysmal Nocturnal Hemoglobinuria |
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