M-protein diagnostics in multiple myeloma patients using ultra-sensitive targeted mass spectrometry and an off-the-shelf calibrator

Charissa Wijnands; Pieter Langerhorst; Somayya Noori; Jenneke Keizer-Garritsen; Hans J C T Wessels; Jolein Gloerich; Vincent Bonifay; Hélène Caillon; Theo M Luider; Alain J van Gool; Thomas Dejoie; Martijn M VanDuijn; Joannes F M Jacobs

doi:10.1515/cclm-2023-0781

M-protein diagnostics in multiple myeloma patients using ultra-sensitive targeted mass spectrometry and an off-the-shelf calibrator

Clin Chem Lab Med. 2023 Oct 12;62(3):540-550. doi: 10.1515/cclm-2023-0781. Print 2024 Feb 26.

Affiliations

¹ Department of Laboratory Medicine, Radboud University Medical Center, Nijmegen, The Netherlands.
² Department of Neurology, Erasmus MC, University Medical Center Rotterdam, Rotterdam, The Netherlands.
³ Sebia, Lisses, France.
⁴ Biochemistry Laboratory, Hospital of Nantes, Nantes, France.

Abstract

Objectives: Minimal residual disease status in multiple myeloma is an important prognostic biomarker. Recently, personalized blood-based targeted mass spectrometry (MS-MRD) was shown to provide a sensitive and minimally invasive alternative to measure minimal residual disease. However, quantification of MS-MRD requires a unique calibrator for each patient. The use of patient-specific stable isotope labelled (SIL) peptides is relatively costly and time-consuming, thus hindering clinical implementation. Here, we introduce a simplification of MS-MRD by using an off-the-shelf calibrator.

Methods: SILuMAB-based MS-MRD was performed by spiking a monoclonal stable isotope labeled IgG, SILuMAB-K1, in the patient serum. The abundance of both M-protein-specific peptides and SILuMAB-specific peptides were monitored by mass spectrometry. The relative ratio between M-protein peptides and SILuMAB peptides allowed for M-protein quantification. We assessed linearity, sensitivity and reproducibility of SILuMAB-based MS-MRD in longitudinally collected sera from the IFM-2009 clinical trial.

Results: A linear dynamic range was achieved of over 5 log scales, allowing for M-protein quantification down to 0.001 g/L. The inter-assay CV of SILuMAB-based MS-MRD was on average 11 %. Excellent concordance between SIL- and SILuMAB-based MS-MRD was shown (R²>0.985). Additionally, signal intensity of spiked SILuMAB can be used for quality control purpose to assess system performance and incomplete SILuMAB digestion can be used as quality control for sample preparation.

Conclusions: Compared to SIL peptides, SILuMAB-based MS-MRD improves the reproducibility, turn-around-times and cost-efficacy of MS-MRD without diminishing its sensitivity and specificity. Furthermore, SILuMAB can be used as a MS-MRD quality control tool to monitor sample preparation efficacy and assay performance.

Keywords: M-protein; clonotypic peptide; minimal residual disease; multiple myeloma; targeted mass spectrometry.

MeSH terms

Humans
Isotopes
Mass Spectrometry / methods
Multiple Myeloma* / diagnosis
Neoplasm, Residual
Peptides
Reproducibility of Results

Substances

Peptides
Isotopes