First‐in‐human trial assessing the pharmacokinetic‐pharmacodynamic profile of a novel recombinant human chorionic gonadotropin in healthy women and men of reproductive age

The purpose of this first‐in‐human trial was to examine the safety, pharmacokinetics (PK), and pharmacodynamics (PD) of a novel recombinant human chorionic gonadotropin (rhCG; FE 999302, choriogonadotropin beta) to support its clinical development for various therapeutic indications. The single and multiple dose PK of choriogonadotropin beta (CG beta) were evaluated in women and the single dose PK and PD of CG beta were compared to those of CG alfa in men. CG beta was safe and well‐tolerated in all 84 healthy subjects. In women, the area under the curve (AUC) and the peak serum concentration (C_max) increased approximately dose proportionally following single and multiple doses of CG beta. The apparent clearance (CL/F) was ~ 0.5 L/h, the mean terminal half‐life (t_½) ~ 45 h and the apparent distribution volume (V_z/F) ~ 30 L. After single administration in men, the mean AUC was 1.5‐fold greater for CG beta than for CG alfa. Mean C_max and V_z/F were comparable for the 2 preparations. In accordance with the differences in AUC, the CL/F was lower for CG beta (CL/F 0.5 vs. 0.8 L/h), explained by a longer t_½ (47 vs. 32 h). Serum testosterone levels induced by a single dose rhCG reflected the PK profiles with a slight delay, resulting in 59% higher AUC for CG beta. The PK parameters for CG beta were comparable in men and in women. In conclusion, the PK differs between the two rhCG preparations, causing higher exposure and a higher PD response for CG beta, which may require relatively lower therapeutic doses.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

Recombinant human chorionic gonadotropin (hCG) is indicated for the treatment of male or female infertility and administered by single or multiple subcutaneous injections.

• WHAT QUESTION DID THIS STUDY ADDRESS?

A new recombinant hCG (rhCG; choriogonadotropin [CG] beta) produced by a human‐derived cell line (PER.C6) is currently in clinical development. The amino acid sequence of the α‐ and β‐chains are identical to the natural sequences and also to that of rhCG expressed by Chinese Hamster Ovary (CHO) cell line (CG alfa), but the glycosylation provided by the PER.C6 and CHO cells is different. In this trial, the pharmacokinetics (PK) of choriogonadotropin beta were assessed in women and men and the PKs and pharmacodynamics (PDs) were compared in men to those of CG alfa.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

It is concluded that the PK of the two rhCG preparations are different, due to a slower clearance of CG beta resulting in a higher PD response.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

Further development of CG beta may require lower doses of this potent hCG compared to current therapeutic hCG preparations.     

Model‐based dose selection to inform translational clinical oncology development of WNT974, a first‐in‐class Porcupine inhibitor

WNT974 is a potent, selective, and orally bioavailable first‐in‐class inhibitor of Porcupine, a membrane‐bound O‐acyltransferase required for Wnt secretion, currently under clinical development in oncology. A phase I clinical trial is being conducted in patients with advanced solid tumors. During the dose‐escalation part, various dosing regimens, including once or twice daily continuous and intermittent dosing at a dose range of 5–45 mg WNT974 were studied, however, the protocol‐defined maximum tolerated dose (MTD) was not established based on dose‐limiting toxicity. To assist in the selection of the recommended dose for expansion (RDE), a model‐based approach was utilized. It integrated population pharmacokinetic (PK) modeling and exposure–response analyses of a target‐inhibition biomarker, skin AXIN2 mRNA expression, and the occurrence of the adverse event, dysgeusia. The target exposure range of WNT974 that would provide a balance between target inhibition and tolerability was estimated based on exposure–response analyses. The dose that was predicted to yield an exposure within the target exposure range was selected as RDE. This model‐based approach integrated PK, biomarker, and safety data to determine the RDE and represented an alternative as opposed to the conventional MTD approach for selecting an optimal biological dose. The strategy can be broadly applied to select doses in early oncology trials and inform translational clinical oncology drug development.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

WNT974 is a potent, selective, and orally bioavailable first‐in‐class inhibitor of Porcupine, a membrane‐bound O‐acyltransferase required for Wnt secretion, currently under clinical development in oncology. The conventional approach for dose selection in small‐molecule oncology trials is based on the maximum tolerated dose (MTD).

• WHAT QUESTION DID THIS STUDY ADDRESS?

How to inform the clinical development path and selection of the recommended dose for expansion (RDE) for a first‐in‐class oncology molecule.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

A model‐based approach can be effectively used to integrate pharmacokinetic (PK), pharmacodynamic and safety data and inform RDE selection in oncology drug development.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

This model‐based approach integrated population PK and exposure–response analyses of biomarker and safety to determine the RDE, rather than the conventional MTD approach. The strategy can be applied to support translational clinical oncology development, and dose selection in early oncology trials to inform later phase clinical development and study design.     

Flavopiridol, a novel cyclin-dependent kinase inhibitor, in clinical development

OBJECTIVE: To review preclinical and clinical information on flavopiridol, an inhibitor of cyclin-dependent kinases (CDKs), tested as an antitumor agent. DATA SOURCES: Primary and review articles were identified by MEDLINE search (1990-June 2001). Abstracts from recent meetings were also used as source materials. DATA EXTRACTION: Flavopiridol was reviewed with regard to its mechanisms, preclinical and clinical results, pharmacokinetics, and metabolism. DATA SYNTHESIS: Flavopiridol is an inhibitor of several CDKs and displays unique anticancer properties. In addition to direct CDK inhibition, flavopiridol also exhibited other features such as inducing apoptosis in many cancer cell lines, decreasing cyclin D1 concentration, and inhibiting angiogenesis. Preclinical xenograft models showed significant antitumor activity for flavopiridol. The regimen using 72-hour continuous infusion every 2 weeks has been most extensively applied in clinical trials, with a 1-hour infusion currently being explored to achieve higher peak concentrations. Several Phase I and II trials have been reported, with some evidence of antitumor activity noted. Further Phase I and II trials using flavopiridol as a single agent and in combination with standard chemotherapeutic regimens and various tumor types are ongoing. CONCLUSIONS: Flavopiridol is the first CDK inhibitor to enter clinical trials. Several Phase I and Phase II clinical trials with different regimens (72-h or 1-h infusion) have been completed. Initial clinical trials have been intriguing, but many questions remain: What is the best regimen (< or =72-h infusion)? Does optimal future development of this drug depend on the combination with other chemotherapy? What is the best combination of flavopiridol with other chemotherapy?     

First‐in‐human development of a pharmacodynamic biomarker for PAC1 receptor antagonists using intradermal injections of maxadilan

Maxadilan, a potent vasodilator peptide, selectively activates the PAC₁ receptor, a promising target for migraine therapy. Therefore, maxadilan has been suggested as a tool to study the pharmacodynamics (PDs) of PAC₁ receptor antagonists. The objectives of this first‐in‐human study were to: (1) determine the safety, tolerability, dose response, and time course of the dermal blood flow (DBF) changes after intradermal (i.d.) injections of maxadilan in the human forearm, and (2) assess the inter‐arm and inter‐period reproducibility of this response. This was a single‐center, open‐label study in healthy subjects, comprising three parts: (1) dose–response (n = 25), (2) response duration (n = 10), and (3) reproducibility (n = 15). DBF measurements were performed using laser Doppler imaging (LDI) up to 60 min postinjection, or up to 5 days for the response duration assessments. To assess reproducibility, the intraclass correlation coefficient (ICC) and sample sizes were calculated. The i.d. maxadilan (0.001, 0.01, 0.1, 0.9, 3, and 10 ng) produced a well‐tolerated, dose‐dependent increase in DBF, with a half‐maximal effective concentration fitted at 0.0098 ng. The DBF response to 0.9 ng maxadilan was quantifiable with LDI up to 72 h postinjection. The inter‐period reproducibility of the DBF response was better upon 0.9 ng (ICC > 0.6) compared to 0.01 ng (ICC < 0.4) maxadilan. However, irrespective of the study design or maxadilan dose, a sample size of 11 subjects is sufficient to detect a 30% difference in DBF response with 80% power. In conclusion, intradermal maxadilan provides a safe, well‐tolerated, and reproducible PD biomarker for PAC₁ receptor antagonists in vivo in humans.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

Selective target engagement biomarkers have proven to be successful in guiding go/no‐go decisions in early clinical drug development. Recently, the PAC₁‐receptor gained interest as novel target for anti‐migraine drugs. Intradermal injections of maxadilan, a selective and potent PAC₁ receptor agonist, have been proposed as a pharmacodynamic (PD) biomarker tool to assess PAC₁ receptor activation.

• WHAT QUESTION DID THIS STUDY ADDRESS?

This study evaluated the safety and applicability of intradermal maxadilan injection in humans by characterizing the induced vascular changes in terms of safety, dose response, and reproducibility.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

Intradermal injection of maxadilan induces a robust, dose‐dependent increase in dermal blood flow with low variability. Hence, it can be used in the early clinical drug development of PAC₁ receptor antagonists.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

Implementation of this novel PD biomarker will support the early clinical development of PAC₁ receptor antagonists, thereby reducing the costs and time invested to translate promising results in rodent pain models to human conditions.     

Impact of chronic inflammation on the pharmacokinetic–pharmacodynamic relationship of naproxen

Objectives The use of biomarkers for predicting the clinical doses of analgesic drugs relies on the understanding of the relationship between drug exposure and response under disease conditions. In this study, we demonstrate the relevance of such a relationship for COX‐inhibitors by modelling the effect of naproxen on prostaglandin E2 and thromboxane B2 in a chronic inflammation model in rats. Methods: Rats were treated with Freund's complete adjuvant (FCA) by intraplantar injection. On post‐inoculation days (PID) 7–21, animals received single or chronic (qd until day 21) doses of naproxen (10 mg/kg). Blood samples were collected at various intervals after dosing to characterise naproxen pharmacokinetics and its effects on and production. PK‐PD modelling was performed using nonlinear mixed effects in NONMEM. Results: The inhibition of and could be described by a sigmoid model. A decrease in the potency estimates of both biomarkers was observed under chronic inflammation, as compared to healthy animals. values for inhibition showed a shift from to , whilst values for inhibition increased from to in healthy and FCA‐inoculated animals, respectively. Conclusions: Our results show that chronic inflammation causes a significant change in the potency estimates for COX‐inhibition. These findings illustrate the implications of pathophysiological processes on pharmacodynamics and consequently on the required exposure levels for achieving response during chronic treatment.     

Preclinical pharmacology, antitumor activity, and development of pharmacodynamic markers for the novel, potent AKT inhibitor CCT128930

AKT is frequently deregulated in cancer, making it an attractive anticancer drug target. CCT128930 is a novel ATP-competitive AKT inhibitor discovered using fragment- and structure-based approaches. It is a potent, advanced lead pyrrolopyrimidine compound exhibiting selectivity for AKT over PKA, achieved by targeting a single amino acid difference. CCT128930 exhibited marked antiproliferative activity and inhibited the phosphorylation of a range of AKT substrates in multiple tumor cell lines in vitro, consistent with AKT inhibition. CCT128930 caused a G(1) arrest in PTEN-null U87MG human glioblastoma cells, consistent with AKT pathway blockade. Pharmacokinetic studies established that potentially active concentrations of CCT128930 could be achieved in human tumor xenografts. Furthermore, CCT128930 also blocked the phosphorylation of several downstream AKT biomarkers in U87MG tumor xenografts, indicating AKT inhibition in vivo. Antitumor activity was observed with CCT128930 in U87MG and HER2-positive, PIK3CA-mutant BT474 human breast cancer xenografts, consistent with its pharmacokinetic and pharmacodynamic properties. A quantitative immunofluorescence assay to measure the phosphorylation and total protein expression of the AKT substrate PRAS40 in hair follicles is presented. Significant decreases in pThr246 PRAS40 occurred in CCT128930-treated mouse whisker follicles in vivo and human hair follicles treated ex vivo, with minimal changes in total PRAS40. In conclusion, CCT128930 is a novel, selective, and potent AKT inhibitor that blocks AKT activity in vitro and in vivo and induces marked antitumor responses. We have also developed a novel biomarker assay for the inhibition of AKT in human hair follicles, which is currently being used in clinical trials.     

Safety,tolerability, pharmacokinetic,and pharmacodynamic characteristics of vutiglabridin: A first‐in‐class,first‐in‐human study

This study aimed to evaluate the safety, tolerability, pharmacokinetics, and pharmacodynamics of vutiglabridin, a potential anti‐obesity treatment under development, for the first time in humans. A randomized, placebo‐controlled, single‐ and multiple‐ascending dose study (SAD and MAD, respectively) was performed in healthy Koreans and Whites. Subjects randomly received a single oral dose of 30–720 mg vutiglabridin or placebo at a ratio of 8:2 in the SAD study or 240–480 mg vutiglabridin or placebo once daily for 14 days in the MAD study. Food effect was also evaluated in 240 mg single dose group. Pharmacokinetics were evaluated through plasma concentrations, and pharmacodynamic biomarkers related to obesity or inflammation were analyzed. Safety and tolerability were assessed throughout the study. Single and multiple doses of vutiglabridin were generally well‐tolerated. The pharmacokinetic parameters show less than dose‐proportionality increase, and plasma concentrations increased more than two‐fold after multiple administrations. The mean half‐life of Koreans and Whites in the MAD study was 110 and 73 h, respectively. The systemic exposure of vutiglabridin was significantly increased when taken with a high‐fat meal, and the systemic exposure was lower in Whites than in Koreans. Vutiglabridin was well‐tolerated in healthy Koreans and Whites. The plasma concentration increased less than the dose‐proportionality manner. These results justify further investigation of vutiglabridin in patients with obesity.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

A treatment with multifunctional effects is needed for obesity. Because the chronic inflammation caused by obesity plays an essential role in the progression of metabolic disorders, suppressing inflammatory pathways may be another important treatment goal.

• WHAT QUESTION DID THIS STUDY ADDRESS?

What is the safety, tolerability, pharmacokinetic, and pharmacodynamic characteristics of vutiglabridin, a novel anti‐obesity agent, in healthy Korean and White individuals?

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

Vutiglabridin was well‐tolerated in both Korean and White individuals. The pharmacokinetic parameters of vutiglabridin did not show dose‐proportionality, and after multiple administrations, vutiglabridin showed accumulation.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

This study provides safety, pharmacokinetic, and pharmacodynamic information about vutiglabridin, which will be used for further trials for the treatment of obesity.     

Pharmacokinetic/pharmacodynamic modeling for dose selection for the first‐in‐human trial of the activated Factor XII inhibitor garadacimab (CSL312)

Factor XII (FXII) is a serine protease involved in multiple cascades, including the kallikrein–kinin system. It may play a role in diseases in which the downstream cascades are dysregulated, such as hereditary angioedema. Garadacimab (CSL312) is a first‐in‐class, fully human, monoclonal antibody targeting activated FXII (FXIIa). We describe how translational pharmacokinetic (PK) and pharmacodynamic (PD) modeling enabled dose selection for the phase I, first‐in‐human trial of garadacimab. The PK/PD data used for modeling were derived from preclinical PK/PD and safety studies. Garadacimab plasma concentrations rose with increasing dose, and clear dose‐related PD effects were observed (e.g., a mechanism‐based prolongation of activated partial thromboplastin time). The PK/PD profile from cynomolgus monkeys was used to generate minimal physiologically‐based pharmacokinetic (mPBPK) models with target‐mediated drug disposition (TMDD) for data prediction in cynomolgus monkeys. These models were later adapted for prediction of human data to establish dose selection. Based on the final mPBPK model with TMDD and assuming a weight of 70 kg for an adult human, a minimal inhibition (<10%) of FXIIa with a starting dose of 0.1 mg/kg garadacimab and a near maximal inhibition (>95%) at 10 mg/kg garadacimab were predicted. The phase I study is complete, and data on exposure profiles and inhibition of FXIIa‐mediated kallikrein activity observed in the trial support and validate these simulations. This emphasizes the utility and relevance of translational modeling and simulation in drug development.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

Models based on physiology and mechanisms of action can be highly useful in translating pharmacokinetic/pharmacodynamic (PK/PD) data from animal studies to expectations in humans.

• WHAT QUESTION DID THIS STUDY ADDRESS?

This analysis sought to select doses for investigation in a phase I, first‐in‐human trial of garadacimab (CSL312), a first‐in‐class, fully human, immunoglobulin G4 monoclonal antibody that targets FXIIa.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

This analysis demonstrated how a mechanism‐based PK/PD model describing the relationship between drug administration and pharmacologic response observed in cynomolgus monkeys was generated and extrapolated to select doses for investigation in a phase I, first‐in‐human trial of garadacimab. The detailed explanation of the modeling and extrapolation methodology used in this study provides guidance to future researchers selecting doses for phase I, first‐in‐human trials of monoclonal antibodies.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

This study highlights the importance and utility of insightful, physiologic, and mechanistic mathematical modeling in conjunction with robust animal data for translation of PK/PD and accurate prediction of first‐in‐human dosing for clinical trials.     

A TRPA1 inhibitor suppresses neurogenic inflammation and airway contraction for asthma treatment

Despite the development of effective therapies, a substantial proportion of asthmatics continue to have uncontrolled symptoms, airflow limitation, and exacerbations. Transient receptor potential cation channel member A1 (TRPA1) agonists are elevated in human asthmatic airways, and in rodents, TRPA1 is involved in the induction of airway inflammation and hyperreactivity. Here, the discovery and early clinical development of GDC-0334, a highly potent, selective, and orally bioavailable TRPA1 antagonist, is described. GDC-0334 inhibited TRPA1 function on airway smooth muscle and sensory neurons, decreasing edema, dermal blood flow (DBF), cough, and allergic airway inflammation in several preclinical species. In a healthy volunteer Phase 1 study, treatment with GDC-0334 reduced TRPA1 agonist-induced DBF, pain, and itch, demonstrating GDC-0334 target engagement in humans. These data provide therapeutic rationale for evaluating TRPA1 inhibition as a clinical therapy for asthma.     

A novel COL1A1 variant in a family with clinical features of hypermobile Ehlers‐Danlos syndrome that proved to be a COL1‐related overlap disorder

COL1‐related overlap disorder is a condition, which is not yet considered as part of the 2017 EDS classification. However, it should be investigated as an alternative diagnosis for any patient with hypermobile EDS. This could allow providing appropriate genetic counseling.     

Phase I studies of the safety,tolerability, pharmacokinetics,and pharmacodynamics of DS‐1211, a tissue‐nonspecific alkaline phosphatase inhibitor

Tissue‐nonspecific alkaline phosphatase (TNAP) hydrolyzes and inactivates inorganic pyrophosphate (PPi), a potent inhibitor of calcification; therefore, TNAP inhibition is a potential target to treat ectopic calcification. These two first‐in‐human studies evaluated safety, tolerability, pharmacokinetics (PKs), and pharmacodynamics (PDs) of single (SAD) and multiple‐ascending doses (MAD) of DS‐1211, a TNAP inhibitor. Healthy adults were randomized 6:2 to DS‐1211 or placebo, eight subjects per dose cohort. SAD study subjects received one dose of DS‐1211 (range, 3–3000 mg) or placebo, whereas MAD study subjects received DS‐1211 (range, 10–300 mg) once daily, 150 mg twice daily (b.i.d.), or placebo for 10 days. Primary end points were safety and tolerability. PK and PD assessments included plasma concentrations of DS‐1211, alkaline phosphatase (ALP) activity, and TNAP substrates (PPi, pyridoxal 5′‐phosphate [PLP], and phosphoethanolamine [PEA]). A total of 56 (DS‐1211: n = 42; placebo: n = 14) and 40 (DS‐1211: n = 30; placebo: n = 10) subjects enrolled in the SAD and MAD studies, respectively. In both studies, adverse events were mild or moderate and did not increase with dose. PKs of DS‐1211 were linear up to 100 mg administered as a single dose and 150 mg b.i.d. administered as a multiple‐dose regimen. In multiple dosing, there was minimal accumulation of DS‐1211. Increased DS‐1211 exposure correlated with dose‐dependent ALP inhibition and concomitant increases in PPi, PLP, and PEA. In two phase I studies, DS‐1211 appeared safe and well‐tolerated. Post‐treatment PD assessments were consistent with exposure‐dependent TNAP inhibition. These data support further evaluation of DS‐1211 for ectopic calcification diseases.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

In preclinical studies, successful inhibition of tissue‐nonspecific alkaline phosphatase (TNAP) decreased soft‐tissue calcification. However, TNAP inhibition is untested in humans, and the safety and pharmacological effects are unknown.

• WHAT QUESTION DID THIS STUDY ADDRESS?

What are the safety, tolerability, pharmacokinetic (PK), and pharmacodynamic (PD) effects of TNAP‐specific inhibitor DS‐1211?

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

TNAP inhibition mediated by orally administered DS‐1211 appears to be safe and well‐tolerated in humans. The PD effects of DS‐1211 on alkaline phosphatase, inorganic pyrophosphate, pyridoxal 5′‐phosphate, and phosphoethanolamine suggest it can inhibit TNAP in humans. This is the first clinical trial with a TNAP‐specific inhibitor; its safety over 10 days and PK‐dependent profiles of TNAP inhibition were established.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

Ectopic calcification lacks a direct and safe treatment. TNAP inhibition with DS‐1211 may provide a novel targeted therapy for excess soft‐tissue calcification.     

Dysregulated ferroptosis‐related genes indicate potential clinical benefits for anti–PD‐1/PD‐L1 immunotherapy in lung adenocarcinoma

BackgroundFerroptosis is an iron‐dependent programmed cell death mechanism that influences the development of malignancy. Lung adenocarcinoma (LUAD) is the most common type of lung cancer with no known cure. Anti–PD‐1/PD‐L immunotherapy is effective for patients with partial LUAD. Therefore, there is an immediate requirement of novel markers to predict the individualised benefits of immunotherapy.MethodsWe manually collected the ferroptosis‐related gene (FERG) set and employed the Wilcoxon rank‐sum test to identify the differentially expressed FERGs. Subsequently, we constructed a recursive partitioning and regression tree (RPART) model to predict the benefits of anti–PD‐1/PD‐L1 immunotherapy. Subsequently, the ROC curve and AUC were used to evaluate the model efficiency in an independent dataset.ResultsIn this study, we found that the dysregulated FERGs were closely associated with multiple metabolic processes in LUAD. Furthermore, we identified three ferroptosis‐related tumour subtypes (F1, F3 and F3). The F3 subtype exhibited higher immunoactivity and lower tumour purity, mutation count and aneuploidy and had better survival outcomes compared with the other two subtypes, implying that FERGs played an important role in intertumoral immune heterogeneity. We further explored the role of FERGs in the anti–PD‐1/PD‐L1 immunotherapy. We identified a set of three‐FERGs signature (CD44, G6PD and ZEB1) that acted as a promising indicator (AUC = 0.697) for the prediction of the benefits of anti–PD‐1/PD‐L1 immunotherapy.ConclusionFerroptosis, as emerging programmed cell death mechanism, was associated with cancer development. We used ferroptosis‐related genes to predict the immunotherapy benefits that may facilitate the development of individualised anti‐cancer treatment strategies.     

Translational findings for odronextamab: From preclinical research to a first‐in‐human study in patients with CD20+ B‐cell malignancies

Odronextamab is a fully‐human IgG4‐based CD20xCD3 bispecific antibody that binds to CD3 on T cells and CD20 on B cells, triggering T‐cell‐mediated cytotoxicity independent of T‐cell‐receptor recognition. Adequate safety, tolerability, and encouraging durable complete responses have been observed in an ongoing first‐in‐human (FIH) study of odronextamab in patients with relapsed/refractory (R/R) B‐cell non‐Hodgkin lymphoma (B‐NHL; {"type":"clinical-trial","attrs":{"text":"NCT02290951","term_id":"NCT02290951"}}NCT02290951). We retrospectively evaluated the pharmacokinetic, pharmacodynamic, and antitumor characteristics of odronextamab in a series of in vitro/in vivo preclinical experiments, to assess their translational value to inform dose escalation for the FIH study. Half‐maximal effective concentration values from in vitro cytokine release assays (range: 0.05–0.08 mg/L) provided a reasonable estimate of odronextamab concentrations in patients associated with cytokine release at a 0.5 mg dose (maximum serum concentration: 0.081 mg/L) on week 1/day 1, which could therefore be used to determine the week 1 clinical dose. Odronextamab concentrations resulting in 100% inhibition of tumor growth in a Raji xenograft tumor mouse model (1–10 mg/L) were useful to predict efficacious concentrations in patients and inform dose‐escalation strategy. Although predicted human pharmacokinetic parameters derived from monkey data overestimated projected odronextamab exposure, they provided a conservative estimate for FIH starting doses. With step‐up dosing, the highest‐tested weekly odronextamab dose in patients (320 mg) exceeded the 1 mg/kg single dose in monkeys without step‐up dosing. In conclusion, combination of odronextamab in vitro cytokine data, efficacious concentration data from mouse tumor models, and pharmacokinetic evaluations in monkeys has translational value to inform odronextamab FIH study design in patients with R/R B‐NHL.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

Odronextamab is an IgG4‐based CD20xCD3‐targeting bispecific antibody being evaluated in a first‐in‐human (FIH) study in patients with relapsed/refractory (R/R) B‐cell non‐Hodgkin lymphoma (B‐NHL). Preliminary clinical data indicate adequate safety and tolerability, and encouraging response rates.

• WHAT QUESTION DID THIS STUDY ADDRESS?

This retrospective analysis assessed the translational value of odronextamab preclinical data to inform FIH study design.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

In vitro cytokine data, efficacious concentration data in Raji xenograft tumor mouse models, and pharmacokinetic evaluations in cynomolgus monkeys have translational value to inform the odronextamab starting dose and dose escalation strategy, but not the projected target dose, for the FIH study in patients with R/R B‐NHL.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

These data demonstrate the value of odronextamab preclinical data to aid efficient FIH clinical study design, some aspects of which may be generalized qualitatively to other bispecific antibodies.     

Phase I and scintigraphy studies to evaluate safety,tolerability, pharmacokinetics,and lung deposition of inhaled GDC‐0214 in healthy volunteers

Several inflammatory cytokines that promote inflammation and pathogenesis in asthma signal through the Janus kinase 1 (JAK1) pathway. This phase I, randomized, placebo‐controlled trial assessed the pharmacokinetics and safety of single and multiple ascending doses up to 15 mg twice daily for 14 days of a JAK1 inhibitor, GDC‐0214, in healthy volunteers (HVs; n = 66). Doses were administered with a dry powder, capsule‐based inhaler. An accompanying open‐label gamma scintigraphy study in HVs examined the lung deposition of a single dose of inhaled Technetium‐99m (^99mTc)‐radiolabeled GDC‐0214. GDC‐0214 plasma concentrations were linear and approximately dose‐proportional after both single and multiple doses. Peak plasma concentrations occurred at 15–30 min after dosing. The mean apparent elimination half‐life ranged from 32 to 56 h across all single and multiple dose cohorts. After single and multiple doses, all adverse events were mild or moderate, and none led to treatment withdrawal. There was no clear evidence of systemic toxicity due to JAK1 inhibition, and systemic exposure was low, with plasma concentrations at least 15‐fold less than the plasma protein binding‐corrected IC50 of JAK1 at the highest dose. Scintigraphy showed that approximately 50% of the emitted dose of radiolabeled GDC‐0214 was deposited in the lungs and was distributed well to the peripheral airways. ^99mTc‐radiolabeled GDC‐0214 (1 mg) exhibited a mean plasma C_max similar to that observed in phase I at the same dose level. Overall, inhaled GDC‐0214 exhibited pharmacokinetic properties favorable for inhaled administration.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

Many factors drive asthma pathogenesis, including several cytokines that signal through the Janus kinase 1 (JAK1) pathway. Inhibition of JAK1 is a possible target for asthma treatments, but previous studies show oral JAK1 inhibitors lead to increased risk of severe infections, malignancy and cardiovascular events.

• WHAT QUESTION DID THIS STUDY ADDRESS?

This study investigated the safety, pharmacokinetics, and lung deposition of GDC‐0214, an inhaled JAK1 inhibitor designed to target the lungs.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

Inhaled delivery of a JAK inhibitor for 14 days exhibited low systemic exposure, leading to few adverse events and limited systemic toxicity, while demonstrating high deposition in the lungs.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

Local pulmonary application of JAK inhibitors may be an effective treatment for asthma with limited systemic risks.     

Muscle velocity recovery cycles as pharmacodynamic biomarker: Effects of mexiletine in a randomized double‐blind placebo‐controlled cross‐over study

Measuring muscle velocity recovery cycles (MVRCs) is a method to obtain information on muscle cell excitability, independent of neuromuscular transmission. The goal was to validate MVRC as a pharmacodynamic (PD) biomarker for drugs targeting muscle excitability. As proof‐of‐concept, sensitivity of MVRC to detect effects of mexiletine, a voltage‐gated sodium channel (Na_v) blocker, was assessed. In a randomized, double‐blind, two‐way crossover study, effects of a single pharmacologically active oral dose of 333 mg mexiletine was compared to placebo in 15 healthy male subjects. MVRC was performed predose, and 3‐ and 5‐h postdose using QTrac. Effects of mexiletine versus placebo were calculated using a mixed effects model with baseline as covariate. Mexiletine had significant effects on MVRC when compared to placebo. Early supernormality after five conditioning stimuli was decreased by mexiletine (estimated difference −2.78% [95% confidence interval: −4.16, −1.40]; p value = 0.0003). Moreover, mexiletine decreased the difference in late supernormality after five versus one conditioning stimuli (5XLSN; ED −1.46% [−2.26, −0.65]; p = 0.001). These results indicate that mexiletine decreases the percentage increase in velocity of the muscle fiber action potential after five conditioning stimuli, at long and short interstimulus intervals, which corresponds to a decrease in muscle membrane excitability. This is in line with the pharmacological activity of mexiletine, which leads to use‐dependent Na_V1.4 blockade affecting muscle membrane potentials. This study shows that effects of mexiletine can be detected using MVRC in healthy subjects, thereby indicating that MVRC can be used as a tool to demonstrate PD effects of drugs targeting muscle excitability in early phase drug development.

Study Highlights WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC? Muscle velocity recovery cycles (MVRC) is a method to obtain information on muscle excitability, independent of neuromuscular transmission. MVRC has been used to distinguish various neuromuscular diseases from healthy controls. WHAT QUESTION DID THIS STUDY ADDRESS? Can MVRC be a valuable pharmacodynamic (PD) biomarker for drugs targeting muscle excitability? WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE? As proof‐of‐concept, we evaluated effects of mexiletine—a sodium channel blocker expected to decrease muscle excitability—on MVRC in a double‐blind, placebo‐controlled study in healthy subjects. We demonstrated significant effects of mexiletine on MVRC, indicating reduced muscle excitability, in line with the pharmacological mechanism of action. HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE? Our results encourage use of MVRC as a tool to demonstrate PD effects in the development of drugs targeting muscle excitability. This biomarker may be used to demonstrate target engagement in early clinical drug development. Furthermore, it could be of interest as a biomarker in the translation from preclinical to clinical studies, and from healthy subjects to patients with neuromuscular disease.     

The evaluation of the overexpression of the ERG‐11, MDR‐1, CDR‐1, and CDR‐2 genes in fluconazole‐resistant Candida albicans isolated from Ahvazian cancer patients with oral candidiasis

IntroductionResistance to azole drugs has been observed in candidiasis due to their long‐term use and poor response to treatment. Resistance to azole drugs in Candida albicans isolates is controlled by several genes including ERG11, CDR1, CDR2, and MDR1. In this study, the expression of the mentioned genes was evaluated in C. albicans isolates susceptible and resistant to fluconazole.MethodsAfter identifying the Candida isolates using morphological and molecular methods, the minimum inhibitory concentration (MIC) and drug susceptibility were determined using the European Committee on Antimicrobial Susceptibility Testing (EUCAST) method. RNA was then extracted and cDNA was synthesized from 24 C. albicans isolates from patients with cancer. Then, the mean expressions of these genes were compared in two groups using real‐time polymerase chain reaction (RT‐PCR).ResultsA total of 74 Candida isolates were obtained from the oral cavity of 61 cancer patients with oral candidiasis. After 24 h, 21.6% of the isolates were fluconazole‐resistant, 10.8% were identified as dose‐dependent, and the rest of the isolates (67.6%) were fluconazole‐sensitive. The mean expressions of the CDR1 and MDR1 genes were significantly higher in the resistant isolates than in the sensitive ones. However, the ERG11 and CDR2 genes were not significantly increased in the resistant isolates.ConclusionThe increased mean expressions of the CDR1 and MDR1 genes had a greater effect on fluconazole resistance among the drug‐resistant strains of C. albicans in chemotherapy patients. It seemed that the accumulation of chemotherapeutic drugs in this organism stimulated some regulatory factors and increased the expression of these two genes and ultimately helped to further increase their expression and resistance to fluconazole.     

A phase I,randomized, double‐blind,placebo‐controlled,single‐ and multiple dose escalation study evaluating the safety,pharmacokinetics and pharmacodynamics of VX‐128, a highly selective Nav1.8 inhibitor,in healthy adults

Selective inhibition of certain voltage‐gated sodium channels (Na_vs), such as Na_v1.8, is of primary interest for pharmacological pain research and widely studied as a pharmacological target due to its contribution to repetitive firing, neuronal excitability, and pain chronification. VX‐128 is a highly potent and selective Na_v1.8 inhibitor that was being developed as a treatment for pain. We evaluated the safety, tolerability, and pharmacokinetics of VX‐128 in healthy subjects in a single‐ and multiple‐ascending dose (MAD) first‐in‐human study. Pharmacodynamics were evaluated in the MAD part using a battery of evoked pain tests. Overall, single doses of VX‐128 up to 300 mg were well‐tolerated, although adverse effect (AE) incidence was higher in subjects receiving VX‐128 (41.7%) compared with placebo (25.0%). After multiple dosing of up to 10 days, skin rash events were observed at all dose levels (up to 100 mg once daily [q.d.]), in five of 26 (19.2%) subjects, including one subject receiving VX‐128 (100 mg q.d.) who had a serious AE of angioedema. A trend in pain tolerance were observed for cold pressor‐ and pressure pain, which was dose‐dependent for the latter. VX‐128 was rapidly absorbed (median time to maximum plasma concentration between 1 and 2 h) with a half‐life of ~80 h at 10 mg q.d., and approximately two‐fold accumulation ratio after 10 and 30 mg q.d. Although VX‐128, when given in a multiple dose fashion, resulted in early study termination due to tolerability issues, effects were observed on multiple pain tests that may support further investigation of Na_v1.8 inhibitors as pain treatments.

Study Highlights

• WHAT IS THE CURRENT KNOWLEDGE ON THE TOPIC?

Selective sodium channel (Na_v) inhibitors have been proposed as an alternative to opioids for pain management. Their potential, however, has yet to be confirmed, as none of the multiple selective Na_v inhibitors that have been investigated for pain management has reached the market.

• WHAT QUESTION DID THIS STUDY ADDRESS?

We investigated the safety, tolerability, and initial analgesic effects of VX‐128, a novel and highly selective Na_v1.8 inhibitor, in healthy volunteers.

• WHAT DOES THIS STUDY ADD TO OUR KNOWLEDGE?

This is the first study to describe clinical data obtained on the highly selective Na_v1.8 inhibitor VX‐128, and the first to report analgesic effects of this selective Na_v inhibitor in humans. VX‐128 administered as a single dose was well‐tolerated, but dose‐limiting skin rashes occurred after multiple doses resulting in a premature study halt. Although the study had a parallel design and was not necessarily powered to detect pharmacodynamic effects, nociceptive test results suggest that VX‐128 leads to dose‐dependent analgesic effects.

• HOW MIGHT THIS CHANGE CLINICAL PHARMACOLOGY OR TRANSLATIONAL SCIENCE?

Our findings substantiate research that is performed on evaluating selective Na_v1.8 inhibitors as treatment for pain, and suggests that the cold pressor‐ and pressure pain models are suitable to evaluate selective Na_v1.8 inhibitors.     

Molecular and pharmacodynamic characteristics of the novel multi-target tumor growth inhibitor ZK 304709.

Loss of cell cycle control and tumor-induced neovascularization are major drivers of human tumor growth. The multi-target tumor growth inhibitor ZK 304709 is a nanomolar inhibitor of cyclin-dependent kinases 1, 2, 4, 7 and 9, as well as vascular endothelial growth factor receptor tyrosine kinase 1-3 and of platelet-derived growth factor receptor beta tyrosine kinase. The multi-targeted mode of action of ZK 304709 acting on cell cycle and angiogenesis resulted in superior efficacy compared to standard chemotherapeutic compounds both in s.c. human tumor xenografts as well as orthotopic human pancreatic carcinoma models.     

Rivaroxaban. A novel, oral, direct factor Xa inhibitor in clinical development for the prevention and treatment of thromboembolic disorders

Rivaroxaban (Xarelto) is a novel, oral, direct Factor Xa (FXa) inhibitor in late-stage development for the prevention and treatment of thromboembolic disorders. Rivaroxaban inhibits clot-associated and free FXa activity, and prothrombinase activity, and reduces thrombin generation. In animal models, rivaroxaban prevented venous and arterial thrombosis, and was effective at treating venous thrombosis. Rivaroxaban has high oral bioavailability, a rapid onset of action and predictable pharmacokinetics. In phase II studies, rivaroxaban was effective and well tolerated for the prevention of venous thromboembolism (VTE) after major orthopaedic surgery, and for the treatment of deep vein thrombosis. In a phase III study, rivaroxaban demonstrated significantly superior efficacy to enoxaparin for thromboprophylaxis after total knee arthroplasty, with similar low bleeding. Rivaroxaban is also being assessed for the treatment and secondary prevention of VTE, prevention of stroke in patients with atrial fibrillation and secondary prevention in patients with acute coronary syndrome. Rivaroxaban is a promising alternative to current pharmacological agents for thromboembolic disorders.     

Analysis of anti‐apoptotic PVT1 oncogene and apoptosis‐related proteins (p53, Bcl2, PD‐1, and PD‐L1) expression in thyroid carcinoma

BackgroundAn aberrant expression of long non‐coding RNA PVT1 has been associated with apoptosis in various cancer types. We aimed to explore the PVT1 and four apoptosis‐related proteins (p53, Bcl2, and PD‐1/PD‐L1) signature in thyroid cancer (TC).MethodsThe PVT1 expression level was measured in 64 FFPE TC paired samples by real‐time quantitative PCR. Overall and stratified analyses by different clinicopathological features were done. The apoptotic proteins were evaluated by immunohistochemistry staining.ResultsOverall analysis showed significant PVT1upregulation in TC tissues (p < 0.001). Similarly, subgroup analysis by BRAF ^V600E mutation showed consistent results. Lower expression of p53 was associated with mortality (p = 0.001). Bcl2 overexpression was associated with greater tumor size (p = 0.005). At the same time, HCV‐positive cases were associated with repressed Bcl2 expression levels (54.3% in HCV‐negative vs. 6.9% in HCV‐positive cases, p = 0.011). PD‐1 expression was associated with lymph node metastasis (p = 0.004). Enhanced PD‐L1 expression in the tumor was associated with a higher tumor stage, lymphovascular invasion, and mortality risk. Kaplan–Meier curves for overall survival showed that low p53 and high PD‐L1 expressions were associated with lower survival time. The p53‐positive staining is associated with a 90% decreased mortality risk (HR = 0.10, 95%CI = 0.02–0.47, p = 0.001), while patients with high PD‐L1 were five times more likely to die (HR = 4.74, 95%CI = 1.2–18.7, p = 0.027).ConclusionOur results confirm the upregulation of PVT1 in TC. The apoptosis‐related proteins (p53, Bcl2, and PD‐1/PD‐L1) showed different prognostic utility in TC patients; in particular, low p53 and high PD‐L1 expressions associated with low survival times. Further large‐scale and mechanistic studies are warranted.