Assessment of the Immunogenicity Potential for Oligonucleotide-Based Drugs.

Therapeutic oligonucleotides (ONs) have characteristics of both small molecules and biologics. Although safety assessment of ONs largely follows guidelines established for small molecules, the unique characteristics of ONs often require incorporation of concepts from the safety assessment of biologics. The assessment of immunogenicity for ON therapeutics is one area where the approach is distinct from either established small molecule or biologic platforms. Information regarding immunogenicity of ONs is limited, but indicates that administration of ONs can result in antidrug antibody formation. In this study, we summarize the collective experience of the Oligonucleotide Safety Working Group in designing the immunogenicity assessment appropriate for this class of therapeutic, including advice on assay development, clinical monitoring, and evaluation of the impact of immunogenicity on exposure, efficacy, and safety of therapeutic ONs.

Pharmacokinetics of serelaxin in patients with severe renal impairment or end-stage renal disease requiring hemodialysis: A single-dose, open-label, parallel-group study.

Serelaxin, a recombinant human relaxin-2 hormone, is in clinical development for treating acute heart failure. This open-label, parallel-group study investigated serelaxin pharmacokinetics (PK) after a single 4-hour intravenous infusion (10 µg/kg) in patients with severe renal impairment (n = 6) or end-stage renal disease (ESRD) requiring hemodialysis (PK on the day of dialysis [n = 6] or during dialysis-free interval [n = 6]), compared with matched healthy subjects (n = 18). In all participants, serum serelaxin concentration peaked at the end of infusion and subsequently declined with mean terminal elimination half-life of 6.5-8.8 hours. Compared with healthy subjects, a moderate decrease in serelaxin systemic clearance (37%-52%) and increase in its exposure (30%-115%) were observed in all patients. During the 4-hour hemodialysis in ESRD patients, 30% serelaxin was removed, with hemodialysis clearance constituting approximately 52% of total systemic clearance. Serelaxin was well tolerated with no deaths, serious adverse events (AE), or AE-related discontinuations. Antiserelaxin antibodies were not detected in any participant. Given the shallow dose-response relationship observed with serelaxin in clinical studies and its wide therapeutic window, the observed PK differences in patients with severe renal impairment compared with healthy subjects are unlikely to pose a safety risk and do not warrant a predefined dosage adjustment in such patients.

Safety and tolerability of serelaxin, a recombinant human relaxin-2 in development for the treatment of acute heart failure, in healthy Japanese volunteers and a comparison of pharmacokinetics and pharmacodynamics in healthy Japanese and Caucasian populations.

Serelaxin, a recombinant form of the human relaxin-2 hormone, is currently under clinical investigation for treatment of acute heart failure. This double-blind, placebo-controlled, dose-ranging study investigated the effect of Japanese ethnicity on the pharmacokinetics (PK), pharmacodynamics (PD), and safety and tolerability of serelaxin. Japanese healthy subjects (n = 32) received 10, 30, or 100 µg/kg/day of serelaxin, or placebo, administered as a 48-hour intravenous infusion. A Caucasian cohort (n = 8) receiving 30 µg/kg/day open-label serelaxin was included for comparison. In all subjects, serum serelaxin concentrations increased rapidly after the start of infusion, approached steady state as early as 4 hours, and declined rapidly upon treatment cessation. Serum exposure to serelaxin increased with increasing doses. Statistical dose proportionality was shown for AUC(inf) over the entire dose range. A significant increase in estimated glomerular filtration rate from baseline to Day 2 (30 and 100 µg/kg/day) and to Day 3 (10 and 100 µg/kg/day) was observed compared with placebo. Serelaxin was well tolerated by all subjects. In conclusion, PK, PD, and safety profiles of serelaxin were generally comparable between Japanese and Caucasian subjects, suggesting that no dose adjustment will be required in Japanese subjects during routine clinical use of this agent.

Pharmacokinetics of serelaxin in patients with hepatic impairment: a single-dose, open-label, parallel group study.

AIMS: Serelaxin is a recombinant form of human relaxin-2 in development for treatment of acute heart failure. This study aimed to evaluate the pharmacokinetics (PK) of serelaxin in patients with hepatic impairment. Secondary objectives included evaluation of immunogenicity, safety and tolerability of serelaxin. METHODS: This was an open-label, parallel group study (NCT01433458) comparing the PK of serelaxin following a single 24 h intravenous (i.v.) infusion (30 µg kg(-1) day(-1) ) between patients with mild, moderate or severe hepatic impairment (Child-Pugh class A, B, C) and healthy matched controls. Blood sampling and standard safety assessments were conducted. Primary non-compartmental PK parameters [including area under the serum concentration-time curve AUC(0-48 h) and AUC(0-∞) and serum concentration at 24 h post-dose (C24h )] were compared between each hepatic impairment group and healthy controls. RESULTS: A total of 49 subjects (including 25 patients with hepatic impairment) were enrolled, of which 48 subjects completed the study. In all groups, the serum concentration of serelaxin increased over the first few hours of infusion, reached steady-state at 12-24 h and then declined following completion of infusion, with a mean terminal half-life of 7-8 h. All PK parameter estimates were comparable between each group of patients with hepatic impairment and healthy controls. No serious adverse events, discontinuations due to adverse events or deaths were reported. No serelaxin treatment-related antibodies developed during this study. CONCLUSIONS: The PK and safety profile of serelaxin were not affected by hepatic impairment. No dose adjustment is needed for serelaxin treatment of 48 h i.v. infusion in patients with hepatic impairment.

Reduction of matrix interferences by the combination of chaotropic salt and DMSO in a broadly applicable target-based ELISA for pharmacokinetic studies of therapeutic monoclonal antibodies.

Use of a synergistic effect of DMSO together with a chaotropic salt (NaSCN or MgCl2) allowed to drastically reduce matrix interferences in an ELISA for therapeutic monoclonal antibodies. Optimum combinations were found to be 0.4 M NaSCN together with 10.0% DMSO, and 1.0 M MgCl2 with 15.0% DMSO. At this optimum combination, quality controls spiked with mAb at 50.0 ng/ml in eighteen individual human sera and plasmas were quantified with an overall accuracy of 102.0%. All of these QCs fulfilled the acceptance criteria of 80.0-120.0% accuracy and precision below 20.0%. The assay was also successfully applied to the quantification of two other mAbs in human serum. Furthermore, the use of the assay was extended to pre-clinical species (cynomolgus monkey and rat serum). Here, the performed validation experiments confirmed the utility of the assay and demonstrated that the assay allowed quantification of mAb from 50.0 ng/ml to 100.0 microg/ml in cynomolgus monkey serum. The method has then been applied to a pharmacokinetic study in cynomolgus monkeys. In summary, this work demonstrates the efficacy of the combination of a chaotropic salt with DMSO to minimize matrix interferences in an ELISA. The robustness thus obtained allowed the successful establishment of a cost effective, target-based ELISA format for use in pharmacokinetic studies, that is easily applicable for the quantification of mAbs in various matrices such as human, cynomolgus monkey or rat serum and plasma.

HIV TAT basic peptide is not a high-affinity ligand for VEGF receptor 2.

The 'transactivator of transcription' (TAT) protein of human immunodeficiency virus transforms cells in culture and promotes the development of tumors, so-called Kaposi's sarcoma, in AIDS patients. TAT induces growth and differentiation of blood vessels and has been suggested to directly activate VEGF receptor 2 expressed on endothelial cells through a peptide sequence located between amino acids 46 and 64, the so-called basic domain. This peptide mimics many aspects of TAT function when added to endothelial cells, even when expressed in the context of recombinant chimeric proteins. To define the exact sites of interaction between this peptide and VEGF receptor 2 we performed binding studies with recombinant proteins derived from the extracellular ligand binding domain of VEGF receptor 2. These in vitro binding studies showed that the TAT peptide binds with only low specificity to Ig-like domain 3 of the receptor, while VEGF interacts with receptor-derived proteins encompassing at least extracellular domains 1 through 3. The original concept that the angiogenic properties of TAT basic peptide result from specific, high-affinity interaction with VEGF receptor 2 must therefore be revised. Apparently this peptide interacts with cells in multiple ways: by directly activating acidic cell surface-exposed receptors, by releasing extracellular matrix-bound growth factors such as bFGF and VEGF which then bind to their cognate receptors, and by activating intracellular signalling molecules with which basic peptide interacts upon translocation into cells.