1. Academic Validation
  2. Cheaper, faster, simpler trypsin digestion for high-throughput targeted protein quantification

Cheaper, faster, simpler trypsin digestion for high-throughput targeted protein quantification

  • J Mass Spectrom Adv Clin Lab. 2023 Nov 23:30:74-82. doi: 10.1016/j.jmsacl.2023.11.002.
Christopher M Shuford 1 Russell P Grant 1
Affiliations

Affiliation

  • 1 Labcorp, Center for Esoteric Testing, Burlington, NC, USA.
Abstract

Introduction: LC-MS-based methods for protein quantification have a stigma of being relatively expensive and low-throughput. This is partly due to the cost and speed of trypsin digestion, which has primarily focused on advancements in research-based biomarker discovery applications that rely on protein/peptide identifications rather than clinical biomarker quantification. However, there is a need for simple, fast, and reproducibly efficient surrogate peptide recovery in clinical biomarker quantification.

Methods: Multiple methodologies were evaluated to enhance tryptic digestion for the analysis of thyroglobulin, a prototypical serum protein biomarker. The main criteria for assessment were the yield and speed of formation of surrogate Peptides. Various factors such as different additives, types of trypsin, microwave- and pressure-assisted systems, and Enzyme concentration were considered as key variables, in addition to digestion time.

Results: It was observed that digestion additives/denaturants had a significant impact on the speed and yield of digestion for each surrogate peptide. Increasing the concentration of trypsin alone was found to accelerate digestions appreciably for most surrogate Peptides, without affecting the yield. However, the use of sequencing-grade trypsins and microwave/pressure-assisted systems did not offer significant advantages over the use of 'standard-grade' TPCK-treated trypsin in combination with a conventional incubator, once digestion time and additive had been optimized.

Conclusion: We have dispelled the notion that trypsin digestion is inherently slow and expensive for targeted quantification of serum proteins. Additionally, we have established a groundwork for experimentation that can pave the way for the creation of efficient trypsin digestion protocols, aiming to optimize yield, speed, and cost. It is our hope that these advancements will promote the wider incorporation of such assays in clinical laboratories.

Keywords

Bottom-up proteomics; Liquid chromatography; Mass spectrometry; Protein quantification; Trypsin.

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