Matthijs Moerland

Evaluation of the EndoPAT as a Tool to Assess Endothelial Function

Endothelial dysfunction is a potential target for (pharmaceutical) intervention of several systemic pathological conditions. We investigated the feasibility of the EndoPAT to evaluate acute changes in endothelial function with repeated noninvasive measurements and assessed its discriminating power in different populations. Endothelial function was stable over a longer period of time in renally impaired patients (coefficient of variation 13%). Endothelial function in renally impaired and type 2 diabetic patients was not decreased compared to healthy volunteers (2.9 ± 1.4 and 1.8 ± 0.3, resp., versus 1.8 ± 0.5, P > 0.05). The EndoPAT did not detect an effect of robust interventions on endothelial function in healthy volunteers (glucose load: change from baseline 0.08 ± 0.50, 95% confidence interval −0.44 to 0.60; smoking: change from baseline 0.49 ± 0.92, 95% confidence interval −0.47 to 1.46). This suggests that at present the EndoPAT might not be suitable to assess (changes in) endothelial function in early-phase clinical pharmacology studies. Endothelial function as measured by the EndoPAT could be physiologically different from endothelial function as measured by conventional techniques. This should be investigated carefully before the EndoPAT can be considered a useful tool in drug development or clinical practice.

Recombinant human serum amyloid P in healthy volunteers and patients with pulmonary fibrosis

PRM-151, recombinant human Pentraxin-2 (PTX-2) also referred to as serum amyloid P (SAP), is under development for treatment of fibrosis. A First-in-Human (FIH) trial was performed to assess the safety, tolerability, and pharmacokinetics of single ascending intravenous doses of PRM-151 administered to healthy subjects, using a randomized, blinded, placebo controlled study design. Each cohort included three healthy subjects (PRM-151:placebo; 2:1). SAP levels were assessed using a validated ELISA method, non-discriminating between endogenous and exogenous SAP. At a dose level of 10 mg/kg, at which a physiologic plasma level of SAP was reached, two additional healthy volunteers and three pulmonary fibrosis (PF) patients were enrolled enabling comparison of the pharmacokinetic SAP profile between healthy volunteers and PF patients. In addition, the percentage of fibrocytes (CD45+/Procollagen-1+ cells) in whole blood samples was assessed to demonstrate biological activity of PRM-151 in the target population. PRM-151 administration was generally well tolerated. In two pulmonary fibrosis patients non-specific, transient skin reactions (urticaria and erythema) were observed. PRM-151 administration resulted in a 6-to 13-fold increase in mean baseline plasma SAP levels at dose levels of 5, 10, and 20 mg/kg. The estimated t1/2 of PRM-151 in healthy volunteers was 30 h. Pharmacokinetic profiles were comparable between healthy volunteers and PF patients. PRM-151 administration resulted in a 30-50% decrease in fibrocyte numbers 24 h post-dose. This suggests that administration of PRM-151 may be associated with a reduction of fibrocytes in PF patients, a population for which current pharmacotherapeutic options are limited. The pharmacological action of PRM-151 should be confirmed in future research.

Recombinant human pentraxin-2 therapy in patients with idiopathic pulmonary fibrosis: Safety, pharmacokinetics and exploratory efficacy

Abnormal fibrogenic repair response upon alveolar injury is believed to play an important role in the pathogenesis of idiopathic pulmonary fibrosis (IPF). PRM-151 (recombinant human pentraxin-2, also known as serum amyloid P), has been shown to reduce fibrosis in preclinical lung fibrosis models, and was well tolerated with a favourable pharmacokinetic profile in an earlier single-dose phase I study. A randomised, double-blind, placebo-controlled, multiple ascending dose trial was performed to assess the tolerability and pharmacokinetic and pharmacodynamic characteristics of multiple doses of PRM-151 in IPF patients. Subjects in three successive cohorts (1, 5, or 10 mg·kg−1 versus placebo) received intravenous study drug on days 1, 3, 5, 8 and 15, and were followed-up to day 57. PRM-151 was well tolerated at all dose levels, with no serious adverse reactions. Administration of PRM-151 resulted in two- to eight-fold dose-dependent increases in circulating pentraxin-2 levels. Forced vital capacity and 6-min walk test showed trends towards improvement in the combined PRM-151 dose groups. On high-resolution computed tomography scans, stable or improved lung volume unoccupied by interstitial lung abnormality was noted in some PRM-151 subjects compared to placebo subjects on day 57. The efficacy of PRM-151 in IPF remains to be investigated in dedicated future trials. Recombinant human pentraxin-2 increased serum levels safely in IPF patients and may improve lung function http://ow.ly/WaqDQ

The Use of Biomarkers in Human Pharmacology (Phase I) Studies

The development of a new medicine is a risky and costly undertaking that requires careful planning. This planning is largely applied to the operational aspects of the development and less so to the scientific objectives and methodology. The drugs that will be developed in the future will increasingly affect pathophysiological pathways that have been largely unexplored. Such drug prototypes cannot be immediately introduced in large clinical trials. The effects of the drug on normal physiology, pathophysiology, and eventually the desired clinical effects will need to be evaluated in a structured approach, based on the definition of drug development as providing answers to important questions by appropriate clinical studies. This review describes the selection process for biomarkers that are fit-for-purpose for the stage of drug development in which they are used. This structured and practical approach is widely applicable and particularly useful for the early stages of innovative drug development.

Hydrolyzed Casein Decreases Postprandial Glucose Concentrations in T2DM Patients Irrespective of Leucine Content

ABSTRACT Lifestyle modifications, including diet, are important in the prevention and management of type 2 diabetes mellitus (T2DM). However, limited information is available on the effects of single doses of meal replacements, particularly with regard to their effect on postprandial glucose. Therefore, a study was performed comparing the effects of a single meal replacement in T2DM patients on postprandial serum glucose, insulin, and glucagon. This randomized, double-blind, partial cross-over study was performed in 36 T2DM patients who continued their oral anti-diabetic medication. Each patient received three out of four treatments separated by 7 days. The treatments were a proprietary casein hydrolysate (insuVida™) alone or with additional leucine, unhydrolyzed casein, or placebo. Blood sampling was done for 4 hr. Treatments were compared using repeated measures ANOVA. Results are given as an estimate of the difference (%) for the 4-hr epoch. Glucose concentrations were lowered by −4.7% by insuVida and insuVida plus added leucine compared to placebo (95% CI: −1.6 to −7.7%), while the effect of unhydrolyzed casein was −1.7% (−4.8 to 1.5%). Addition of leucine to insuVida induced the greatest increase in insulin (i.e., 51.8%; 41.1 to 63.4%). All three treatments increased glucagon concentrations by 14% (8 to 20%) compared to placebo. A single dose of insuVida™ with or without addition of leucine significantly lowered plasma glucose compared to placebo and intact casein in T2DM patients. This is most likely due to an insulinotropic effect of insuVida. The data suggest that this type of intervention may be a viable treatment strategy in T2DM.

In vivo quantification of striatal dopamine D2 receptor occupancy by JNJ-37822681 using [11C]raclopride and positron emission tomography

JNJ-37822681 is a novel, fast-dissociating dopamine D2 receptor antagonist, currently in development as an antipsychotic drug candidate. A previous first-in-human study demonstrated mild central nervous system effects of JNJ-37822681 in healthy male volunteers. Significant but transient serum prolactin elevations were demonstrated, whereas other neurophysiological effects were relatively small. To investigate striatal dopamine D2 receptor occupancy by variable single doses of JNJ-37822681, an open-label [11C]raclopride positron emission tomography study was performed in 12 healthy male volunteers, using the simplified reference tissue model with cerebellum as reference tissue. Oral administration of JNJ-37822681 resulted in dose-dependent dopamine D2 receptor occupancy. Receptor occupancy increased from 9–19% at 2 mg doses to 60–74% at 20 mg doses of JNJ-37822681. Therefore, single oral doses of JNJ-37822681 can produce occupancy levels that are generally associated with clinical efficacy for registered antipsychotic drugs.

Pharmacokinetics and central nervous system effects of the novel dopamine D2 receptor antagonist JNJ-37822681

Using the rate of dissociation from the D2 receptor as a means to screen novel compounds for antipsychotic drug candidates, the centrally acting and fast-dissociating selective dopamine D2 receptor antagonist JNJ-37822681 was developed. In a blinded, placebo-controlled, randomized first-in-human study, JNJ-37822681 was administered orally to 27 healthy male volunteers at doses of 0.5, 2, 5, 10, 15 and 20 mg. Safety, pharmacokinetics and central nervous system effects were evaluated by measuring prolactin levels, eye movements, adaptive tracking, visual analogue scales, body sway, finger tapping and electroencephalography. JNJ-37822681 was well tolerated and somnolence was the most frequently reported adverse effect. Peak plasma concentrations increased more than proportional to dose, but increases in the area under curve (AUC) were dose-proportional. Prolactin elevations started at doses of 5 mg, whereas small decreases in adaptive tracking were demonstrated at 10 mg doses. At higher doses, JNJ-37822681 caused a small decrease in saccadic peak velocity, smooth pursuit, alertness, finger tapping and electroencephalography activity, and an increase in body sway. This effect profile is likely to be the result of the selectivity of JNJ-37822681 for the D2 receptor, leading to strong D2 receptor-mediated elevations in serum prolactin, but fewer effects on more complex central nervous system functions, which are likely to involve multiple neurotransmitters.

Modulation of vasoactivity and platelet aggregation by selective 5-HT receptor antagonism in humans.

Background Distinct serotonin [5-hydroxytryptamine (5-HT)] receptors are involved in platelet aggregation and vasoconstriction. Compounds that simultaneously and selectively inhibit the pertaining 5-HT receptors may therefore represent a therapeutic strategy for arterial thrombosis, observed frequently after atherosclerotic plaque rupture. The vasoactive and antiplatelet effects of the combined 5-HT1B and 5-HT2A receptor blocker SL65.0472-00 were investigated in humans to elucidate the functional involvement of these receptors. Methods Twenty-four volunteers, divided into 2 groups of 12, received an oral dose of 20 mg of SL65.0472-00 or placebo in a randomized, double-blind, crossover study. Pre dose and at 2, 4, and 6 hours after dosing, intra-arterial infusions of 5-HT1B agonist sumatriptan (n = 12) or 5-HT (n = 12) were administered. Forearm blood flow (FBF) was measured using plethysmography, and platelet aggregation was measured using whole blood aggregometry induced by a combination of a threshold collagen concentration and an excess of 5-HT. Treatments were compared using analysis of variance. Results After placebo treatment, infusion of 1 ng·kg−1·min−1 5-HT induced vasodilatation (FBF +80% change from baseline), whereas infusion of 30 and 80 ng·kg−1·min−1 5-HT resulted in vasoconstriction (FBF −25% and −50%). After SL65.0472-00 treatment, all 5-HT doses induced vasodilatation (FBF +25%–60%). Sumatriptan dose dependently decreased FBF (maximally −35%), but this effect was not altered by SL65.0472-00 treatment. 5-HT–induced platelet aggregation was effectively inhibited by 90% after SL65.0472-00 treatment for at least 6 hours. Conclusions SL65.0472-00 has potent antagonistic effect on 5-HT–induced vasoconstriction and platelet aggregation but not on sumatriptan-induced vasoconstriction. This suggests that in humans, SL65.0472-00 is a 5-HT2A blocker without clear 5-HT1B antagonistic activity.

Endothelial binding of recombinant tissue plasminogen activator: quantification in vivo using a recirculatory model.

Binding of tissue plasminogen activator (t-PA) to the endothelium may be important in the prevention of thrombus formation. The aim was to develop a method to quantify endothelial binding in vivo. Nine healthy male volunteers received a 40 min continuous infusion with low dose recombinant t-PA (3.75 μg/min) and an indocycanine green infusion (0.5 mg/min) as control. A three-compartment recirculatory model was developed to account for non-specific circulatory delay effects. t-PA antigen, activity and t-PA/PAI-1 complex profiles showed a marked delay in increase at the beginning of the infusion. A reversible and concentration-dependent binding component was incorporated in the model which resulted in an accurate description of the t-PA concentration profile. t-PA binding was characterized by a dissociation constant of 5.9 ng/ml (SEM 1.8, CV 0%; fixed) and a binding capacity of 70 μg t-PA (SEM 10, CV 48%). This model can be used as a tool to quantify the ability of the endothelium to bind t-PA.

Characterization of a Standardized Glucagon Challenge Test as a Pharmacodynamic Tool in Pharmacological Research

The aim of this study was to characterize a glucagon challenge test as a tool in diabetes research by assessing the inter- and intra-individual variability, and investigating the activity of the autonomic nervous system (ANS) during the challenge, as this might have an indirect impact on glucose homeostasis. The study was performed in 24 healthy volunteers separated in 2 groups. The first group of 12 volunteers underwent a 5-h glucagon challenge during a pancreatic clamp procedure with infusion of [6,6-2H2]-glucose infusion in combination with heart rate variability measurements. In the second group, 12 other healthy volunteers underwent two 6-h glucagon challenges separated by 6 weeks, and fat biopsies were taken for analysis of glucagon receptor expression. Serum glucose rose rapidly after glucagon infusion, and reached a plateau at 90 min. The time profiles suggested rapid development of tolerance for glucagon-induced hyperglycemia. During the glucagon challenge intra- and inter-individual variabilities for hepatic glucose production, the rate of disappearance of glucose, and plasma glucose were approximately 10-15% for all variables. Hyperglucagonemia did not affect heart rate variability. Human adipose tissue had a low, but variable, expression of glucagon receptor mRNA. This standardized glucagon challenge test has a good reproducibility with only limited variability over 6 weeks. It is a robust tool to explore in detail the contribution of glucagon in normal and altered glucose homeostasis and can also be used to evaluate the effects of drugs antagonizing glucagon action in humans without confounding changes in ANS tone.