Amandine Bœuf scite author profile

Antibody drug conjugates (ADCs) are macromolecules composed of cytotoxic drugs covalently attached via a conditionally stable linker to monoclonal antibodies (mAbs). ADCs are among the most promising next generation of empowered mAbs foreseen to treat cancers. Compared to naked mAbs, ADCs have an increased level of complexity as the heterogeneity of conjugation cumulates with the inherent microvariability of the biomolecule. An increasing need underlying ADC's development and optimization is to improve its analytical and bioanalytical characterization by assessing three main ADC quality attributes: drug distribution, amount of naked antibody, and average drug to antibody ratio (DAR). Here, the analytical potential of native mass spectrometry (MS) and native ion mobility MS (IM-MS) is compared to hydrophobic interaction chromatography (HIC), the reference method for quality control of interchain cysteinyl-linked ADCs. Brentuximab vedotin, first in class and gold standard, was chosen for a proof of principle. High resolution native MS provided accurate mass measurement (<30 ppm) of intact ADCs together with average DAR and drug distribution, confirming the unique ability of native MS for simultaneous detection of mixtures of covalent and noncovalent products. Native IM-MS was next used for the first time to characterize an ADC. IM-MS evidenced ADC multiple drug loading, collisional cross sections measurement of each payload species attesting slight conformational changes. A semiquantitative interpretation of IM-MS data was developed to directly extrapolate average DAR and DAR distribution. Additionally, HIC fractions were collected and analyzed by native MS and IM-MS, assessing the interpretation of each HIC peak. Altogether, our results illustrate how native MS and IM-MS can rapidly assess ADC structural heterogeneity and how easily these methods can be implemented into MS workflows for in-depth ADC analytical characterization.

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Establishment of measurement traceability for peptide and protein quantification through rigorous purity assessment—a review

Josephs

Martos

et al. 2019

Metrologia

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The health of their populations and efficient health care systems are of critical importance to the economic and social well-being of nations. Accurate and comparable peptide/protein measurements are required in support of diagnosis, prognosis, monitoring and treatment of widespread diseases (e.g. diabetes). The required consistency of measurement results can be achieved by making them traceable to stated references and through the development of Reference Measurement Systems. The review mainly concentrates on the progress made in the Protein Analysis Working Group of the Consultative Committee for Amount of Substance: Metrology in Chemistry and Biology (CCQM-PAWG) in establishing Primary Calibration Reference Services in the emerging area of health markers such as peptides/proteins. Primary Calibration Reference Services are technical capabilities for composition assignment, commonly as the mass fraction content, of pure substances or solutions thereof. It is a core technical competency for National Measurement Institutes (NMIs). A limited number of key comparisons, foreseen by the CCQM-PAWG strategy, are discussed that enable NMIs providing measurement services in peptide/protein analysis to test and demonstrate their capabilities. In addition, the review examines the development and improvement of analytical methods and metrological models that are required to meet the needs of NMIs and associated clinical stakeholders.

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Discovery and Targeted Proteomics on Cutaneous Biopsies Infected by Borrelia to Investigate Lyme Disease*

Schnell

Bœuf

Westermann

et al. 2015

Molecular & Cellular Proteomics

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Lyme disease is the most important vector-borne disease in the Northern hemisphere and represents a major public health challenge with insufficient means of reliable diagnosis. Skin is rarely investigated in proteomics but constitutes in the case of Lyme disease the key interface where the pathogens can enter, persist, and multiply. Therefore, we investigated proteomics on skin samples to detect Borrelia proteins directly in cutaneous biopsies in a robust and specific way. We first set up a discovery gel prefractionation-LC-MS/MS approach on a murine model infected by Borrelia burgdorferi sensu stricto that allowed the identification of 25 Borrelia proteins among more than 1300 mouse proteins. Then we developed a targeted gel prefractionation-LC-selected reaction monitoring (SRM) assay to detect 9/33 Borrelia proteins/peptides in mouse skin tissue samples using heavy labeled synthetic peptides. We successfully transferred this assay from the mouse model to human skin biopsies (naturally infected by Borrelia), and we were able to detect two Borrelia proteins: OspC and flagellin. Considering the extreme variability of OspC, we developed an extended SRM assay to target a large set of variants. This assay afforded the detection of nine peptides belonging to either OspC or flagellin in human skin biopsies. We further shortened the sample preparation and showed that Borrelia is detectable in mouse and human skin biopsies by directly using a liquid digestion followed by LC-SRM analysis without any prefractionation. This study thus shows that a targeted SRM approach is a promising tool for the early direct diagnosis of Lyme disease with high sensitivity (<10 fmol of OspC/mg of human skin biopsy). Molecular & Cellular Proteomics

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Amandine Bœuf

Innovative Native MS Methodologies for Antibody Drug Conjugate Characterization: High Resolution Native MS and IM-MS for Average DAR and DAR Distribution Assessment

Establishment of measurement traceability for peptide and protein quantification through rigorous purity assessment—a review

Discovery and Targeted Proteomics on Cutaneous Biopsies Infected by Borrelia to Investigate Lyme Disease*

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