Quantification of trabectedin in human plasma: Validation of a high-performance liquid chromatography–mass spectrometry method and its application in a clinical pharmacokinetic study

Pharmacokinetics of Marine-Derived Drugs

Marine organisms represent an excellent source of innovative compounds that have the potential for the development of new drugs. The pharmacokinetics of marine drugs has attracted increasing interest in recent decades due to its effective and potential contribution to the selection of rational dosage recommendations and the optimal use of the therapeutic arsenal. In general, pharmacokinetics studies how drugs change after administration via the processes of absorption, distribution, metabolism, and excretion (ADME). This review provides a summary of the pharmacokinetics studies of marine-derived active compounds, with a particular focus on their ADME. The pharmacokinetics of compounds derived from algae, crustaceans, sea cucumber, fungus, sea urchins, sponges, mollusks, tunicate, and bryozoan is discussed, and the pharmacokinetics data in human experiments are analyzed. In-depth characterization using pharmacokinetics is useful for obtaining information for understanding the molecular basis of pharmacological activity, for correct doses and treatment schemes selection, and for more effective drug application. Thus, an increase in pharmacokinetic research on marine-derived compounds is expected in the near future.

Novel method for fast trabectedin quantification using hydrophilic interaction liquid chromatography and tandem mass spectrometry for human pharmacokinetic studies

Few time-consuming bioanalytical methods are currently available for trabectedin quantification in clinical investigations. Here we present a novel, fast and sensitive method for trabectedin determination in human plasma based on hydrophilic interaction liquid chromatography and tandem mass spectrometry (HILIC-MS/MS). Plasma samples are treated with acetonitrile-0.1 % formic acid and the solvent extract is directly injected into an Acquity BEH Amide column (2.1 × 100 mm, 1.7 μm) operating in HILIC mode at 0.2 mL/min with 80:20 acetonitrile-0.1 % formic acid in water. The analyte is separated by an organic solvent gradient and quantified by an Agilent Ultivo triple quadrupole mass spectrometer operating in multiple reaction monitoring (MRM) mode. The quantitative MRM transitions were m/z 762→234 and m/z 765→234 for trabectedin and its d₃-labeled derivative, respectively. The lower limit of quantification (LLOQ) was 0.01 ng/mL and the assay was linear up to 2.5 ng/mL. The intra- and inter-day relative error ranged from 1.19 % to 8.52 %, while the relative standard deviation was less than 12.35 %. The method was used to determine the pharmacokinetic profiles of trabectedin in 26 patients with soft tissue sarcoma, showing that this new HILIC-MS/MS method is suitable for use in clinical research.

Establishment and characterisation of a new patient-derived model of myxoid liposarcoma with acquired resistance to trabectedin

BACKGROUND

Myxoid liposarcoma is a histological subtype of liposarcoma particularly sensitive to trabectedin. In clinical use this drug does not cause cumulative toxicity, allowing prolonged treatment, generally until disease progression. No other effective therapies are available for trabectedin-resistant patients.

METHODS

Through repeated in vivo treatment in athymic nude mice, we have obtained a patient-derived xenograft with acquired resistance to trabectedin.

RESULTS

At basal level, the morphology of the resistant and sensitive models did not differ, in keeping with the finding that the transcriptional profiles of the resistant and sensitive tumours were very similar. After trabectedin treatment adipogenesis was induced in the parental xenograft but not in the resistant one, as assessed by pathological and molecular analysis. A defective transcription-coupled-nucleotide excision repair in the resistant tumour due to mutation of the UVSSA gene may be implicated in the mechanism of resistance.

CONCLUSIONS

This is the first in vivo model of myxoid liposarcoma with acquired resistance to trabectedin. Although further studies are necessary to characterise the resistance mechanisms, this is a useful tool for studying new therapeutic strategies to overcome trabectedin resistance in patients.

Review of Chromatographic Bioanalytical Assays for the Quantitative Determination of Marine-Derived Drugs for Cancer Treatment

The discovery of marine-derived compounds for the treatment of cancer has seen a vast increase over the last few decades. Bioanalytical assays are pivotal for the quantification of drug levels in various matrices to construct pharmacokinetic profiles and to link drug concentrations to clinical outcomes. This review outlines the different analytical methods that have been described for marine-derived drugs in cancer treatment hitherto. It focuses on the major parts of the bioanalytical technology, including sample type, sample pre-treatment, separation, detection, and quantification.

Mass spectrometry in the pharmacokinetic studies of anticancer natural products

In the history of medicine, nature has represented the main source of medical products. Indeed, the therapeutic use of plants certainly goes back to the Sumerian and Hippocrates and nowadays nature still represents the major source for new drugs discovery. Moreover, in the cancer treatment, drugs are either natural compounds or have been developed from naturally occurring parent compounds firstly isolated from plants and microbes from terrestrial and marine environment. A critical element of an anticancer drug is represented by its severe toxicities and, after administration, the drug concentrations have to remain in an appropriate range to be effective. Anyway, the drug dosage defined during the clinical studies could be inappropriate for an individual patient due to differences in drug absorption, metabolism and excretion. For this reason, personalized medicine, based on therapeutic drug monitoring (TDM), represents one of most important challenges in cancer therapy. Mass spectrometry sensitivity, specificity and fastness lead to elect this technique as the Golden Standard for pharmacokinetics and drug metabolism studies therefore for TDM. This review focuses on the mass spectrometry-based methods developed for pharmacokinetic quantification in human plasma of anticancer drugs derived from natural sources and already used in clinical practice. Particular emphasis was placed both on the pre-analytical and analytical steps, such as: sample preparation procedures, sample size required by the analysis and the limit of quantification of drugs and metabolites to give some insights on the clinical practice applicability. © 2015 Wiley Periodicals, Inc. Mass Spec Rev. 36:213-251, 2017.

Poly(HPMA)-based copolymers with biodegradable side chains able to self assemble into nanoparticles

Biocompatible PCL-based nanoparticles able to degrade into completely water soluble poly(HPMA) chains are produced via the inverse macromonomer method.

HPLC-MS/MS method to measure trabectedin in tumors: preliminary PK study in a mesothelioma xenograft model

BACKGROUND

Trabectedin is an anticancer agent registered for the second-line treatment of soft tissue sarcoma and ovarian cancer. No preclinical data are available on its tumor distribution, so a method for quantification in neoplastic tissues is required.

METHODS/RESULTS

We validated an LC-MS/MS assay determining the recovery, sensitivity, linearity, precision and accuracy in mouse tumor and liver samples. The limit of quantification was 0.10 ng/ml with a curve range of 0.10-3.00 ng/ml (accuracy 96.1-102.1%). Inter-day precision and accuracy of QCs were 6.0-8.2 and 97.0-102.6% respectively. The method was applied in mesothelioma xenografts treated with therapeutic doses.

CONCLUSION

The method was validated for measuring trabectedin in tissues. In a mesothelioma xenograft model, trabectedin distributed preferentially in tumor compared with liver.

Phase II trial of salvage therapy with trabectedin in metastatic pancreatic adenocarcinoma

PURPOSE

No standard salvage chemotherapy has been identified for metastatic pancreatic adenocarcinoma (mPA), and there is an urgent need for active agents against this disease. This phase II trial explored the activity of trabectedin in mPA progressing after gemcitabine-based first-line chemotherapy.

METHODS

Patients with gemcitabine-resistant disease received trabectedin 1.3 mg/m(2) as a 3-h intravenous continuous infusion every 3 weeks until disease progression or unacceptable toxicity or for a maximum of 6 months. The primary endpoint was progression-free survival rate at 6 months (PFS-6). Since trabectedin modulates the production of selected inflammatory mediators, this study also aimed to identify inflammatory biomarkers predictive for response to trabectedin.

RESULTS

Between February 2011 and February 2012, 25 patients received trabectedin. PFS-6 was 4%, median PFS 1.9 months (range 0.8-7.4), and median overall survival 5.2 months (range 1.1-24.3). Grade >2 toxicity consisted of neutropenia in 44% of patients, febrile neutropenia and thrombocytopenia both in 12%, anemia in 8%, fatigue in 12%, and AST and ALT increase in 8 and 4%, respectively. Trabectedin was shown to modulate the production of inflammatory mediators, and at disease progression, levels of a subgroup of cytokines/chemokines were modified. Furthermore, tissue analysis identified 30 genes associated with better prognosis.

CONCLUSIONS

Although it has shown some ability to modulate inflammatory process, single-agent trabectedin had no activity as salvage therapy for mPA.