Milena Kurtinecz

Single-Dose Safety, Tolerability, and Pharmacokinetics of the Antibiotic GSK1322322, a Novel Peptide Deformylase Inhibitor

ABSTRACT GSK1322322 is a potent inhibitor of peptide deformylase, an essential bacterial enzyme required for protein maturation. GSK1322322 is active against community-acquired skin and respiratory tract pathogens, including methicillin-resistant Staphylococcus aureus, multidrug-resistant Streptococcus pneumoniae, and atypical pathogens. This phase I, randomized, double-blind, placebo-controlled, 2-part, single-dose, dose escalation study (first time in humans) evaluated the safety, tolerability, and pharmacokinetics of GSK1322322 (powder-in-bottle formulation) in healthy volunteers. In part A, dose escalation included GSK1322322 doses of 100, 200, 400, 800, and 1,500 mg under fasting conditions and 800 mg administered with a high-fat meal. In part B, higher doses of GSK1322322 (2,000, 3,000, and 4,000 mg) were evaluated under fasting conditions. Of the 39 volunteers enrolled in the study, 29 and 10 volunteers were treated with GSK1322322 and placebo, respectively. Upon single-dose administration, GSK1322322 was absorbed rapidly, with median times to maximum plasma concentration (Tmax) ranging from 0.5 to 1.0 h. The maximum observed plasma concentration (Cmax) and exposure (area under the concentration-time curve [AUC]) of GSK1322322 were greater than dose proportional between 100 and 1,500 mg and less than dose proportional between 1,500 and 4,000 mg. Administration of the drug with a high-fat meal reduced the rate of absorption (reduced Cmax and delayed Tmax) without affecting the extent of absorption (no effect on AUC). GSK1322322 was generally well tolerated, with all adverse events being mild to moderate in intensity during both parts of the study. The most frequently reported adverse event was headache. Data from this study support further evaluation of GSK1322322.

Safety, Tolerability, and Efficacy of GSK1322322 in the Treatment of Acute Bacterial Skin and Skin Structure Infections

ABSTRACT GSK1322322 represents a new class of antibiotics that targets an essential bacterial enzyme required for protein maturation, peptide deformylase. This multicenter, randomized, phase IIa study compared the safety, tolerability, and efficacy of GSK1322322 at 1,500 mg twice daily (b.i.d.) with that of linezolid at 600 mg b.i.d. in patients suspected of having Gram-positive acute bacterial skin and skin structure infections (ABSSSIs). The primary endpoint was assessment of the safety of GSK1322322, and a key secondary endpoint was the number of subjects with a ≥20% decrease in lesion area from the baseline at 48 and 72 h after treatment initiation. GSK1322322 administration was associated with mild-to-moderate drug-related adverse events, most commonly, nausea, vomiting, diarrhea, and headache. Adverse events (86% versus 74%) and withdrawals (28% versus 11%) were more frequent in the GSK1322322-treated group. Treatment with GSK1322322 and linezolid was associated with ≥20% decreases from the baseline in the lesion area in 73% (36/49) and 92% (24/26) of the patients, respectively, at the 48-h assessment and in 96% (44/46) and 100% (25/25) of the patients, respectively, at the 72-h assessment. Reductions in exudate/pus, pain, and skin infection scores were comparable between the GSK1322322 and linezolid treatments. The clinical success rates within the intent-to-treat population and the per-protocol population that completed this study were 67 and 91%, respectively, in the GSK1322322-treated group and 89 and 100%, respectively, in the linezolid-treated group. These results will be used to guide dose selection in future studies with GSK1322322 to optimize its tolerability and efficacy in patients with ABSSSIs. (This study has been registered at ClinicalTrials.gov under registration no. NCT01209078 and at http://www.gsk-clinicalstudyregister.com [PDF113414].)

Characterization of the effect of chronic administration of a calcium-sensing receptor antagonist, ronacaleret, on renal calcium excretion and serum calcium in postmenopausal women

Ronacaleret is an orally-active calcium-sensing receptor (CaSR) antagonist that has the potential for therapeutic utility in the stimulation of PTH release, notably as a bone anabolic agent comparable to recombinant human PTH(1-34) (rhPTH(1-34)). A recent study has shown that, despite the ability to increase circulating PTH levels in postmenopausal women in a dose-dependent manner, minimal effects of ronacaleret on bone mineral density have been observed. Therefore, the purpose of this study was to characterize the PTH profile as well as calcium metabolism parameters as a marker of PTH biological activity following the administration of ronacaleret or rhPTH(1-34). Administration of ronacaleret led to lower peak levels of PTH than were observed with rhPTH(1-34), however, greater total PTH exposure was observed. Further, chronic administration of either agent was associated with increases in urinary calcium excretion and serum calcium levels, with the magnitude of the changes following ronacaleret significantly greater than that for rhPTH(1-34). The greater magnitude of effects observed with ronacaleret is likely due to the greater total PTH exposure, and is potentially reflective of a state comparable to mild hyperparathyroidism. It is not clear whether the administration of all calcilytics would lead to a similar result, or is due to characteristics specific to ronacaleret.

Safety, tolerability and pharmacokinetics of repeat dosing of the antibiotic GSK1322322, a peptide deformylase inhibitor: a randomized placebo-controlled study

OBJECTIVES GSK1322322 is a potent inhibitor of peptide deformylase, an essential bacterial enzyme required for protein maturation. In this two-part, double-blind, randomized, placebo-controlled, Phase 1 study (study identifier: PDF112668), the safety, tolerability and pharmacokinetics of single and repeat oral-dose GSK1322322 (500-1500 mg) in healthy adult and elderly volunteers were evaluated. PATIENTS AND METHODS Part A included GSK1322322 doses of 500, 750, 1000 and 1500 mg in healthy adults; Part B evaluated 1000 mg of GSK1322322 in healthy elderly volunteers. Volunteers received a single morning dose of a powder-in-bottle formulation of GSK1322322 or placebo on day 1, no dosing on day 2 and twice-daily dosing on days 3-12. RESULTS Of 52 enrolled volunteers, 40 and 12 volunteers were treated with GSK1322322 and placebo, respectively. Mean plasma GSK1322322 trough concentration increased with increasing dose and reached steady-state after 2 days of repeat dosing. After single dosing of GSK1322322, maximum plasma concentration and exposure (AUC) were dose proportional from 500 to 1500 mg. However, after repeat dosing, AUC values at steady-state increased slightly more than proportionally, possibly because of a slightly longer terminal elimination t½ after repeat dosing (compared with single-dose t½) at higher doses (1000 and 1500 mg). There was no age effect or diurnal variation in the GSK1322322 pharmacokinetic profile. GSK1322322 was generally well tolerated-all adverse events were mild to moderate in intensity. CONCLUSIONS Repeat oral GSK1322322 (500-1500 mg) for 10 days was well tolerated. These data warrant further clinical investigation of GSK1322322.

Safety, tolerability, and pharmacokinetics of oral and intravenous administration of GSK1322322, a peptide deformylase inhibitor

GSK1322322 is the first in a new class of antibiotics that targets peptide deformylase (PDF), an essential bacterial enzyme required for protein maturation. This randomized, double‐blind, placebo‐controlled, eight‐cohort phase I trial enrolled 62 healthy volunteers to assess safety, tolerability, and pharmacokinetic profiles of GSK1322322. GSK1322322 was administered as a single oral or intravenous (IV) dose, escalating from 500 to 3,000 mg or repeat IV doses escalating from 500 to 1,500 mg twice daily. Upon repeat IV administration, GSK1322322 exhibits linear pharmacokinetics over time upon repeat doses as shown by time‐invariant pharmacokinetics. A dose‐proportional increase in area under concentration‐time curve was observed after single or repeat IV dosing, whereas clearance at steady state remained generally unchanged across doses. There was minimal accumulation of GSK1322322 after repeat IV twice‐daily administration. After oral tablet doses of GSK1322322 1,000 and 1,500 mg, absolute bioavailability was 69% and 56%, respectively. GSK1322322 administration at single and repeat IV doses and at supratherapeutic single IV doses of 2,000 and 3,000 mg was associated with mild‐to‐moderate drug‐related adverse events. On the basis of the pharmacokinetics and tolerability demonstrated in this study, GSK1322322 has the potential to become the first‐in‐class PDF inhibitor for clinical use.

Disposition and Metabolism of GSK2251052 in Humans: A Novel Boron-Containing Antibiotic

(S)-3-(Aminomethyl)-7-(3-hydroxypropoxy)-1-hydroxy-1,3-dihydro-2,1-benzoxaborole (GSK2251052) is a novel boron-containing antibiotic that inhibits bacterial leucyl tRNA synthetase, and that has been in development for the treatment of serious Gram-negative infections. In this study, six healthy adult male subjects received a single i.v. dose of [14C]GSK2251052, 1500 mg infused over 1 hour. Blood, urine, and feces were collected over an extended period of 14 days, and accelerator mass spectrometry was used to quantify low levels of radioactivity in plasma at later time points to supplement the less-sensitive liquid scintillation counting technique. An excellent mass balance recovery was achieved representing a mean total of 98.2% of the dose, including 90.5% recovered in the urine. Pharmacokinetic analysis demonstrated that radioactivity was moderately associated with the blood cellular components, and together with GSK2251052, both were highly distributed into tissues. The parent compound had a much shorter half-life than total radioactivity in plasma, approximately 11.6 hours compared with 96 hours. GSK2251052 and its major metabolite M3, which resulted from oxidation of the propanol side chain to the corresponding carboxylic acid, comprised the majority of the plasma radioactivity, 37 and 53% of the area under the plasma versus time concentration curve from time zero to infinity, respectively. Additionally, M3 was eliminated renally, and was demonstrated to be responsible for the long plasma radioactivity elimination half-life. A combination of in vitro metabolism experiments and a pharmacokinetic study in monkeys with the inhibitor 4-methylpyrazole provided strong evidence that alcohol dehydrogenase, potentially in association with aldehyde dehydrogenase, is the primary enzyme involved in the formation of the M3 metabolite.

Systematic Review and Meta-Analysis of Antimicrobial Treatment Effect Estimation in Complicated Urinary Tract Infection

ABSTRACT Noninferiority trial design and analyses are commonly used to establish the effectiveness of a new antimicrobial drug for treatment of serious infections such as complicated urinary tract infection (cUTI). A systematic review and meta-analysis were conducted to estimate the treatment effects of three potential active comparator drugs for the design of a noninferiority trial. The systematic review identified no placebo trials of cUTI, four clinical trials of cUTI with uncomplicated urinary tract infection as a proxy for placebo, and nine trials with reports of treatment effect estimates for doripenem, levofloxacin, or imipenem-cilastatin. In the meta-analysis, the primary efficacy endpoint of interest was the microbiological eradication rate at the test-of-cure visit in the microbiological intent-to-treat population. The estimated eradication rates and corresponding 95% confidence intervals (CI) were 31.8% (26.5% to 37.2%) for placebo, 81% (77.7% to 84.2%) for doripenem, 79% (75.9% to 82.2%) for levofloxacin, and 80.5% (71.9% to 89.1%) for imipenem-cilastatin. The treatment effect estimates were 40.5% for doripenem, 38.7% for levofloxacin, 34.7% for imipenem-cilastatin, and 40.8% overall. These treatment effect estimates can be used to inform the design and analysis of future noninferiority trials in cUTI study populations.

Intrapulmonary pharmacokinetics of GSK2251052 in Healthy Volunteers

ABSTRACT The plasma and intrapulmonary pharmacokinetics (PK) of intravenous (i.v.) GSK2251052, a novel boron-containing antimicrobial, were evaluated in healthy adult subjects. Thirty subjects underwent bronchoscopy and timed bronchoalveolar lavage (BAL) either following a single dose (cohort 1) or after 5 twice-daily doses (cohort 2) of 1,500 mg GSK2251052 i.v. Serial PK and safety assessments were obtained throughout the study. Bronchoscopy was performed on a single occasion in each subject at 2, 6, or 12 h after start of infusion. Noncompartmental analysis was performed to calculate PK parameters. Thirty subjects completed the study. The mean clearance (CL), volume of distribution at steady state (Vss), and half-life (t1/2) values were 22 liters/h, 231 liters, and 10.7 h, respectively. Approximately 30% of the dose was excreted unchanged in urine. The GSK2251052 concentrations in epithelial lining fluid (ELF) and alveolar macrophages (AM) were approximately 50% and 500 to 600%, respectively, compared to the concentration in plasma. the GSK2251052 exposures in ELF and AM were comparable following single- and repeat-dose administration. The most frequently reported drug-related adverse event (AE) was mild to moderate infusion site reactions (7 subjects) that occurred primarily in the repeat-dose cohort. No serious drug-related AEs or clinically significant trends in laboratory values, vital signs, or electrocardiograms were observed. GSK2251052 given as a 1,500-mg infusion was generally tolerated following single- or repeat-dose administration. GSK2251052 distributes into both the ELF and AM of healthy volunteers, which supports further study in patients with pneumonia.

Effect of H2 Blockade and Food on Single-Dose Pharmacokinetics of GSK1322322, a Peptide Deformylase Inhibitor Antibacterial

ABSTRACT GSK1322322 is first in a new class of antibiotics, peptide deformylase inhibitors, and is active against multidrug-resistant respiratory and skin pathogens. Part 1 of this phase 1, randomized, single-dose (1,000 mg) study in 20 healthy volunteers compared the relative bioavailability of three different tablet formulations of GSK1322322 (fast release, intermediate release, and slow release) to that of the previously studied powder-in-bottle formulation to assess the optimal formulation for progression into clinical trials. Part 2 assessed the effect of a high-fat meal and drug interaction with an H2 blocker and an H2 blocker plus vitamin C on the pharmacokinetic profile of GSK1322322. Of the three tablet formulations, fast-release GSK1322322 provided pharmacokinetic profiles similar to those of the powder-in-bottle reference formulation (∼93% relative bioavailability) and was selected for progression in part 2. When GSK1322322 was administered with a high-fat meal, the maximum observed plasma concentration (Cmax) was reduced by 20%, and the time to maximum plasma concentration (Tmax) was delayed by 1.9 h. The exposure (area under the concentration-time curve [AUC]) increased by ∼20% compared to that in volunteers in the fasted state. Coadministration of GSK1322322 with an H2 blocker resulted in a slight delay in absorption (Tmax ∼0.75 h later) and 58 and 38% decreases in the Cmax and AUC0–∞ values, respectively, compared to GSK1322322 alone. This effect was reversed with vitamin C intake (i.e., no delay in Tmax and the Cmax and AUC0–∞ values decreased by only 21 and 12%, respectively). GSK1322322 was generally well tolerated, and most adverse events were mild in intensity during both parts of the study.

Application of a Stable Isotope Approach to Evaluate Impact of Changes in Manufacturing Parameters for an Immediate‐Release Tablet

There is continued emphasis from the various worldwide regulatory agencies to ensure that the pharmaceutical industry fully understands the products they are developing. This emphasis is seen via development of quality‐by‐design (QbD) publications and guidelines generated by the International Committee on Harmonization. The challenge to meet these expectations is primarily associated with the generation of in vivo data (eg, pharmacokinetic data) that is resource intensive. A technique reducing the resources needed to generate this in vivo data permits a more extensive application of QbD principles. This paper presents the application of stable isotopes in pharmacokinetic studies. The data show that the use of stable isotopes can significantly reduce the number of subjects required for a study. This reduction in subjects thus translates into a significant reduction in resources and time needed to generate the required in vivo data to support QbD.