Recombinant Protein Spectral Library (rPSL) DIA-MS method improves identification and quantification of low-abundance cancer-associated and kynurenine pathway proteins

Shivani Krishnamurthy; Bavani Gunasegaran; Moumita Paul-Heng; Abidali Mohamedali; William P. Klare; C. N. Ignatius Pang; Laurence Gluch; Joo Shik Shin; Charles Chan; Mark S. Baker; Seong Beom Ahn; Benjamin Heng

doi:10.1038/s42004-025-01531-0

Recombinant Protein Spectral Library (rPSL) DIA-MS method improves identification and quantification of low-abundance cancer-associated and kynurenine pathway proteins

Shivani Krishnamurthy, Bavani Gunasegaran, Moumita Paul-Heng, Abidali Mohamedali, William P. Klare, C. N. Ignatius Pang, Laurence Gluch, Joo Shik Shin, Charles Chan, Mark S. Baker, Seong Beom Ahn^*, Benjamin Heng^*

^*Corresponding author for this work

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Abstract

Data-independent acquisition mass spectrometry (DIA-MS) is a powerful tool for quantitative proteomics, but a well-constructed reference spectral library is crucial to optimize DIA analysis, particularly for low-abundance proteins. In this study, we evaluate the efficacy of a recombinant protein spectral library (rPSL), generated from tryptic digestion of 42 human recombinant proteins, in enhancing the detection and quantification of lower-abundance cancer-associated proteins. Additionally, we generated a combined sample-specific biological-rPSL by integrating the rPSL with a spectral library derived from pooled biological samples. We compared the performance of these libraries for DIA data extraction with standard methods, including sample-specific biological spectral library and library-free DIA methods. Our specific focus was on quantifying cancer-associated proteins, including key enzymes involved in kynurenine pathway, across patient-derived tissues and cell lines. Both rPSL and biological-rPSL-DIA approaches provided significantly improved coverage of lower-abundance proteins, enhancing sensitivity and more consistent protein quantification across matched tumour and adjacent noncancerous tissues from breast and colorectal cancer patients and in cancer cell lines. Overall, our study demonstrates that rPSL and biological-rPSL coupled with DIA-MS workflows, can address the limitations of both biological library-based and library-free DIA methods, offering a robust approach for quantifying low-abundance cancer-associated proteins in complex biological samples.

Original language	English
Article number	141
Pages (from-to)	1-18
Number of pages	18
Journal	Communications Chemistry
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s42004-025-01531-0
Publication status	Published - 10 May 2025

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Copyright the Author(s) 2025. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

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Krishnamurthy, S., Gunasegaran, B., Paul-Heng, M., Mohamedali, A., P. Klare, W., Pang, C. N. I., Gluch, L., Shin, J. S., Chan, C., Baker, M. S., Ahn, S. B., & Heng, B. (2025). Recombinant Protein Spectral Library (rPSL) DIA-MS method improves identification and quantification of low-abundance cancer-associated and kynurenine pathway proteins. Communications Chemistry, 8(1), 1-18. Article 141. https://doi.org/10.1038/s42004-025-01531-0

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title = "Recombinant Protein Spectral Library (rPSL) DIA-MS method improves identification and quantification of low-abundance cancer-associated and kynurenine pathway proteins",

abstract = "Data-independent acquisition mass spectrometry (DIA-MS) is a powerful tool for quantitative proteomics, but a well-constructed reference spectral library is crucial to optimize DIA analysis, particularly for low-abundance proteins. In this study, we evaluate the efficacy of a recombinant protein spectral library (rPSL), generated from tryptic digestion of 42 human recombinant proteins, in enhancing the detection and quantification of lower-abundance cancer-associated proteins. Additionally, we generated a combined sample-specific biological-rPSL by integrating the rPSL with a spectral library derived from pooled biological samples. We compared the performance of these libraries for DIA data extraction with standard methods, including sample-specific biological spectral library and library-free DIA methods. Our specific focus was on quantifying cancer-associated proteins, including key enzymes involved in kynurenine pathway, across patient-derived tissues and cell lines. Both rPSL and biological-rPSL-DIA approaches provided significantly improved coverage of lower-abundance proteins, enhancing sensitivity and more consistent protein quantification across matched tumour and adjacent noncancerous tissues from breast and colorectal cancer patients and in cancer cell lines. Overall, our study demonstrates that rPSL and biological-rPSL coupled with DIA-MS workflows, can address the limitations of both biological library-based and library-free DIA methods, offering a robust approach for quantifying low-abundance cancer-associated proteins in complex biological samples.",

author = "Shivani Krishnamurthy and Bavani Gunasegaran and Moumita Paul-Heng and Abidali Mohamedali and {P. Klare}, William and Pang, {C. N. Ignatius} and Laurence Gluch and Shin, {Joo Shik} and Charles Chan and Baker, {Mark S.} and Ahn, {Seong Beom} and Benjamin Heng",

note = "Copyright the Author(s) 2025. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.",

year = "2025",

month = may,

day = "10",

doi = "10.1038/s42004-025-01531-0",

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Krishnamurthy, S , Gunasegaran, B, Paul-Heng, M, Mohamedali, A, P. Klare, W, Pang, CNI, Gluch, L, Shin, JS, Chan, C, Baker, MS , Ahn, SB & Heng, B 2025, 'Recombinant Protein Spectral Library (rPSL) DIA-MS method improves identification and quantification of low-abundance cancer-associated and kynurenine pathway proteins', Communications Chemistry, vol. 8, no. 1, 141, pp. 1-18. https://doi.org/10.1038/s42004-025-01531-0

Recombinant Protein Spectral Library (rPSL) DIA-MS method improves identification and quantification of low-abundance cancer-associated and kynurenine pathway proteins. / Krishnamurthy, Shivani ; Gunasegaran, Bavani; Paul-Heng, Moumita et al.
In: Communications Chemistry, Vol. 8, No. 1, 141, 10.05.2025, p. 1-18.

Research output: Contribution to journal › Article › peer-review

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AU - Krishnamurthy, Shivani

AU - Gunasegaran, Bavani

AU - Paul-Heng, Moumita

AU - Mohamedali, Abidali

AU - P. Klare, William

AU - Pang, C. N. Ignatius

AU - Gluch, Laurence

AU - Shin, Joo Shik

AU - Chan, Charles

AU - Baker, Mark S.

AU - Ahn, Seong Beom

AU - Heng, Benjamin

N1 - Copyright the Author(s) 2025. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

PY - 2025/5/10

Y1 - 2025/5/10

N2 - Data-independent acquisition mass spectrometry (DIA-MS) is a powerful tool for quantitative proteomics, but a well-constructed reference spectral library is crucial to optimize DIA analysis, particularly for low-abundance proteins. In this study, we evaluate the efficacy of a recombinant protein spectral library (rPSL), generated from tryptic digestion of 42 human recombinant proteins, in enhancing the detection and quantification of lower-abundance cancer-associated proteins. Additionally, we generated a combined sample-specific biological-rPSL by integrating the rPSL with a spectral library derived from pooled biological samples. We compared the performance of these libraries for DIA data extraction with standard methods, including sample-specific biological spectral library and library-free DIA methods. Our specific focus was on quantifying cancer-associated proteins, including key enzymes involved in kynurenine pathway, across patient-derived tissues and cell lines. Both rPSL and biological-rPSL-DIA approaches provided significantly improved coverage of lower-abundance proteins, enhancing sensitivity and more consistent protein quantification across matched tumour and adjacent noncancerous tissues from breast and colorectal cancer patients and in cancer cell lines. Overall, our study demonstrates that rPSL and biological-rPSL coupled with DIA-MS workflows, can address the limitations of both biological library-based and library-free DIA methods, offering a robust approach for quantifying low-abundance cancer-associated proteins in complex biological samples.

AB - Data-independent acquisition mass spectrometry (DIA-MS) is a powerful tool for quantitative proteomics, but a well-constructed reference spectral library is crucial to optimize DIA analysis, particularly for low-abundance proteins. In this study, we evaluate the efficacy of a recombinant protein spectral library (rPSL), generated from tryptic digestion of 42 human recombinant proteins, in enhancing the detection and quantification of lower-abundance cancer-associated proteins. Additionally, we generated a combined sample-specific biological-rPSL by integrating the rPSL with a spectral library derived from pooled biological samples. We compared the performance of these libraries for DIA data extraction with standard methods, including sample-specific biological spectral library and library-free DIA methods. Our specific focus was on quantifying cancer-associated proteins, including key enzymes involved in kynurenine pathway, across patient-derived tissues and cell lines. Both rPSL and biological-rPSL-DIA approaches provided significantly improved coverage of lower-abundance proteins, enhancing sensitivity and more consistent protein quantification across matched tumour and adjacent noncancerous tissues from breast and colorectal cancer patients and in cancer cell lines. Overall, our study demonstrates that rPSL and biological-rPSL coupled with DIA-MS workflows, can address the limitations of both biological library-based and library-free DIA methods, offering a robust approach for quantifying low-abundance cancer-associated proteins in complex biological samples.

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Recombinant Protein Spectral Library (rPSL) DIA-MS method improves identification and quantification of low-abundance cancer-associated and kynurenine pathway proteins

Abstract

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