Gregory Bell

Pharmacology of AMG 416 (velcalcetide), a Novel Peptide Agonist of the Calcium Sensing Receptor, for the Treatment of Secondary Hyperparathyroidism in Hemodialysis Patients

A novel peptide, AMG 416 (formerly KAI-4169, and with a United States Adopted Name: velcalcetide), has been identified that acts as an agonist of the calcium-sensing receptor (CaSR). This article summarizes the in vitro and in vivo characterization of AMG 416 activity and the potential clinical utility of this novel compound. AMG 416 activates the human CaSR in vitro, acting by a mechanism distinct from that of cinacalcet, the only approved calcimimetic, since it can activate the CaSR both in the presence or the absence of physiologic levels of extracellular calcium. Administration of AMG 416 in vivo into either normal or renally compromised rats results in dose-dependent reductions in parathyroid hormone (PTH) levels and corresponding decreases in serum calcium, regardless of the baseline level of PTH. Treatment of 5/6 nephrectomized rats with AMG 416 resulted in dramatic improvements in their metabolic profile, including lower PTH and serum creatinine levels, reduced amounts of vascular calcification, attenuated parathyroid hyperplasia, and greater expression of the parathyroid gland regulators CaSR, vitamin D receptor, and FGF23 receptor compared with vehicle-treated animals. No drug accumulation was observed under this dosing regimen, and the terminal half-life of AMG 416 was estimated to be 2–4.5 hours. As a long-acting CaSR agonist, AMG 416 is an innovative new therapy for the treatment of hemodialysis patients with secondary hyperparathyroidism.

AMG 416 (velcalcetide) is a novel peptide for the treatment of secondary hyperparathyroidism in a single-dose study in hemodialysis patients

AMG 416 (velcalcetide), a novel peptide agonist of the calcium-sensing receptor, lowers plasma parathyroid hormone in preclinical uremic animal models and in normal healthy individuals. Here, we studied its efficacy in hemodialysis patients suffering from secondary hyperparathyroidism. Major inclusion criteria were hemodialysis for at least 3 months, serum parathyroid hormone over 300 pg/ml, a corrected serum calcium of 9.0 mg/dl or more, and stable doses of vitamin D analogs for at least 3 weeks prior to screening. Twenty-eight patients were enrolled in one of five cohorts (5, 10, 20, 40, 60 mg). Cohorts 1-3 (four patients each) were treated in a two-period crossover design, while cohorts 4 and 5 (eight patients each) were randomized 1:1 to AMG 416 or placebo. Patients were admitted to a clinical research unit following hemodialysis and studied for 3 days prior to discharge for hemodialysis. Single intravenous doses of AMG 416 from 5 to 60 mg were well tolerated, and plasma levels increased in a dose-related manner. AMG 416 treatment was associated with significant, dose-dependent reductions in serum parathyroid hormone and fibroblast growth factor 23. Compared with placebo, all dose groups of 10 mg or more were associated with attenuation in the rise in serum phosphate during the interdialytic period. Dose-dependent reductions in serum calcium were observed and were well tolerated. Thus, AMG 416 represents a novel therapeutic approach for the treatment of secondary hyperparathyroidism in hemodialysis patients.

Velcalcetide (AMG 416), a novel peptide agonist of the calcium sensing receptor, reduces serum parathyroid hormone and FGF23 levels in healthy male subjects

Context Velcalcetide, also known as AMG 416, is a novel, long-acting selective peptide agonist of the calcium sensing receptor. It is being developed as an intravenous treatment of secondary hyperparathyroidism (SHPT) in hemodialysis patients with chronic kidney disease—mineral and bone disorder. Objective To assess the safety, tolerability, pharmacokinetics and pharmacodynamics of velcalcetide in healthy male volunteers. Methods The study was a double-blind, randomized, placebo-controlled, single-dose, dose-escalation study in healthy males aged 18–45 years conducted at a single center. Each cohort included eight subjects randomized 6:2 to velcalcetide or placebo. Intervention Velcalcetide at 0.5, 2, 5 and 10 mg or placebo was administered intravenously. Outcomes Measurements included plasma ionized calcium (iCa), serum total calcium, intact parathyroid hormone (iPTH), phosphorus and fibroblast growth factor-23 (FGF23), 1,25-dihydroxyvitamin D, calcitonin and urine creatinine, calcium and phosphorus and plasma pharmacokinetics for velcalcetide. Vital signs, safety biochemical and hematological indices, and adverse events were monitored throughout the study. Results Intravenous administration of velcalcetide was well tolerated with no adverse reaction of nausea, vomiting or diarrhea reported. Velcalcetide mediated dose-dependent decreases in serum iPTH at 30 min, FGF23 at 24 h and iCa at 12 h post dose (P < 0.05) and in urine fractional excretion of phosphorus and increases in tubular reabsorption of phosphorus. Velcalcetide plasma exposure increased in a dose-related manner and the terminal elimination of half-life was comparable across the dose range evaluated and ranged from 18.4 to 20.0 h. Conclusion Single IV doses of velcalcetide were well tolerated and associated with rapid, sustained, dose-dependent reductions in serum PTH. The results support further evaluation of velcalcetide as a treatment for SHPT in hemodialysis patients.

A pharmacokinetic/pharmacodynamic model for AMG 416, a novel calcimimetic peptide, following a single intravenous dose in healthy subjects

AMG 416 is a novel peptide agonist of the calcium‐sensing receptor. In support of the clinical development program, a pharmacokinetic (PK)/pharmacodynamic (PD) model was developed to describe the relationship between plasma AMG 416 levels and serum intact parathyroid hormone (iPTH) concentrations in healthy male subjects. AMG 416 plasma concentrations were characterized by a three‐compartment linear PK model, while serum iPTH levels were described by an indirect response model with drug effect on the production of iPTH characterized with an inhibitory Emax model. The production of iPTH was modeled by a circadian rhythm function. The systemic clearance of plasma AMG 416 was estimated to be 6.94 L/h. Two sine functions best described iPTH circadian rhythm with an amplitude estimated to be 0.15 and 0.08, respectively. The maximum response Emax and the potency parameter EC50 were estimated to be 0.69 and 21.0 ng/mL, respectively. This work improved our understanding of the interaction between AMG 416 PK and iPTH concentrations in healthy adult male subjects. Data suggest additional PK/PD studies with AMG 416 are warranted in the hemodialysis population.

Population Pharmacokinetic Evaluation of a Fully Human IgG2 Monoclonal Antibody in Patients with Inflammatory Diseases

ABX-IL8 is a fully human IgG₂ monoclonal antibody generated using transgenic mouse technology (Xenomouse®) that binds to human Interleukin-8 with high affinity and specificity. The objective of this study was to evaluate the pharmacokinetic (PK) properties of ABX-IL8 in patients with active inflammatory diseases. Patients with psoriasis and rheumatoid arthritis received single or multiple short intravenous infusions of ABX-IL8 or placebo. Serum concentrations of ABX-IL8, baseline serum IgG and IgG₂ concentrations and Anti-Drug Antibody (ADA) response to ABX-IL8 were determined using relevant immunoassays. Pharmacokinetic analyses of the serum ABX-IL8 concentration-time data were performed. Following single-dose administration of ABX-IL8, dose proportional increases in drug exposure were observed. Consistent with the disposition properties of the endogenous IgG antibodies, ABX-IL8 appeared to be primarily distributed into the plasma compartment and the extra-vascular fluid and the steady-sate volume of distribution (61 ± 14 to 71 ± 14 mL/kg) was comparable to that for the endogenous antibodies. Following the multiple-dose administration, PK properties of the antibody were linear with dose and time. Steady-state clearance (2.6 ± 1.1 to 2.7 ± 1.4 mL/day/kg) was similar to that observed following the single dose administration and no ADA response was detected throughout the study. PK variability and serum exposure to ABX-IL8 following administration of the fixed doses were comparable to those observed following administration of the weight-adjusted doses; the impact of body weight on clearance was minimal and this correlation did not translate into requirements for body weight-adjusted dosing. Additionally, age and disease type (psoriasis or RA) had no impact on ABX-IL8 pharmacokinetics.