Native Structural and Functional Proteoform Characterization of the Prolyl-Alanyl-Specific Endoprotease EndoPro from Aspergillus niger

Guusje van Schaick; Elena Domínguez-Vega; Christoph Gstöttner; Johanna H van den Berg-Verleg; Olaf Schouten; Michiel Akeroyd; Maurien M A Olsthoorn; Manfred Wuhrer; Albert J R Heck; Nicolas Abello; Vojtech Franc

doi:10.1021/acs.jproteome.1c00663

Native Structural and Functional Proteoform Characterization of the Prolyl-Alanyl-Specific Endoprotease EndoPro from Aspergillus niger

Guusje van Schaick, Elena Domínguez-Vega, Christoph Gstöttner, Johanna H van den Berg-Verleg, Olaf Schouten, Michiel Akeroyd, Maurien M A Olsthoorn, Manfred Wuhrer, Albert J R Heck, Nicolas Abello, Vojtech Franc

Institute of Psychology, Leiden University, Wassenaarseweg 52, 2333 AK, Leiden, The Netherlands; Department of Psychiatry, Leiden University Medical Center, Albinusdreef 2, 2333 ZA Leiden, The Netherlands.
DSM Biotechnology Center

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

Abstract

The prolyl-alanyl-specific endoprotease (EndoPro) is an industrial enzyme produced in Aspergillus niger. EndoPro is mainly used for food applications but also as a protease in proteomics. In-depth characterization of this enzyme is essential to understand its structural features and functionality. However, there is a lack of analytical methods capable of maintaining both the structural and functional integrity of separated proteoforms. In this study, we developed an anion exchange (AEX) method coupled to native mass spectrometry (MS) for profiling EndoPro proteoforms. Moreover, we investigated purified EndoPro proteoforms with complementary MS-based approaches, including released N-glycan and glycopeptide analysis, to obtain a comprehensive overview of the structural heterogeneity. We showed that EndoPro has at least three sequence variants and seven N-glycosylation sites occupied by high-mannose glycans that can be phosphorylated. Each glycosylation site showed high microheterogeneity with ∼20 glycans per site. The functional characterization of fractionated proteoforms revealed that EndoPro proteoforms remained active after AEX-separation and the specificity of these proteoforms did not depend on N-glycan phosphorylation. Nevertheless, our data confirmed a strong pH dependence of EndoPro cleavage activity. Altogether, our study demonstrates that AEX-MS is an excellent tool to characterize complex industrial enzymes under native conditions.

Original language	English
Pages (from-to)	4875–4885
Number of pages	11
Journal	Journal of Proteome Research
Volume	20
Issue number	10
Early online date	13 Sept 2021
DOIs	https://doi.org/10.1021/acs.jproteome.1c00663
Publication status	Published - 1 Oct 2021

Bibliographical note

Funding Information:
The authors would like to thank Agnes L. Hipgrave Ederveen for the initial measurements of the released N-glycans of EndoPro. We acknowledge support from The Netherlands Organization for Scientific Research NWO (SATIN Project, Grant No. 731.017.202).

Publisher Copyright:
© 2021 The Authors. Published by American Chemical Society.

Keywords

anion exchange chromatography
mass spectrometry
native separation
prolyl-alanyl-specific endoprotease
structure-function relationship

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Cite this

van Schaick, G., Domínguez-Vega, E., Gstöttner, C., van den Berg-Verleg, J. H., Schouten, O., Akeroyd, M., Olsthoorn, M. M. A., Wuhrer, M., Heck, A. J. R., Abello, N., & Franc, V. (2021). Native Structural and Functional Proteoform Characterization of the Prolyl-Alanyl-Specific Endoprotease EndoPro from Aspergillus niger. Journal of Proteome Research, 20(10), 4875–4885. https://doi.org/10.1021/acs.jproteome.1c00663

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abstract = "The prolyl-alanyl-specific endoprotease (EndoPro) is an industrial enzyme produced in Aspergillus niger. EndoPro is mainly used for food applications but also as a protease in proteomics. In-depth characterization of this enzyme is essential to understand its structural features and functionality. However, there is a lack of analytical methods capable of maintaining both the structural and functional integrity of separated proteoforms. In this study, we developed an anion exchange (AEX) method coupled to native mass spectrometry (MS) for profiling EndoPro proteoforms. Moreover, we investigated purified EndoPro proteoforms with complementary MS-based approaches, including released N-glycan and glycopeptide analysis, to obtain a comprehensive overview of the structural heterogeneity. We showed that EndoPro has at least three sequence variants and seven N-glycosylation sites occupied by high-mannose glycans that can be phosphorylated. Each glycosylation site showed high microheterogeneity with ∼20 glycans per site. The functional characterization of fractionated proteoforms revealed that EndoPro proteoforms remained active after AEX-separation and the specificity of these proteoforms did not depend on N-glycan phosphorylation. Nevertheless, our data confirmed a strong pH dependence of EndoPro cleavage activity. Altogether, our study demonstrates that AEX-MS is an excellent tool to characterize complex industrial enzymes under native conditions.",

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note = "Funding Information: The authors would like to thank Agnes L. Hipgrave Ederveen for the initial measurements of the released N-glycans of EndoPro. We acknowledge support from The Netherlands Organization for Scientific Research NWO (SATIN Project, Grant No. 731.017.202). Publisher Copyright: {\textcopyright} 2021 The Authors. Published by American Chemical Society.",

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van Schaick, G, Domínguez-Vega, E, Gstöttner, C, van den Berg-Verleg, JH, Schouten, O, Akeroyd, M, Olsthoorn, MMA, Wuhrer, M, Heck, AJR, Abello, N & Franc, V 2021, 'Native Structural and Functional Proteoform Characterization of the Prolyl-Alanyl-Specific Endoprotease EndoPro from Aspergillus niger', Journal of Proteome Research, vol. 20, no. 10, pp. 4875–4885. https://doi.org/10.1021/acs.jproteome.1c00663

Native Structural and Functional Proteoform Characterization of the Prolyl-Alanyl-Specific Endoprotease EndoPro from Aspergillus niger. / van Schaick, Guusje; Domínguez-Vega, Elena; Gstöttner, Christoph et al.
In: Journal of Proteome Research, Vol. 20, No. 10, 01.10.2021, p. 4875–4885.

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

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AU - Domínguez-Vega, Elena

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AU - van den Berg-Verleg, Johanna H

AU - Schouten, Olaf

AU - Akeroyd, Michiel

AU - Olsthoorn, Maurien M A

AU - Wuhrer, Manfred

AU - Heck, Albert J R

AU - Abello, Nicolas

AU - Franc, Vojtech

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N2 - The prolyl-alanyl-specific endoprotease (EndoPro) is an industrial enzyme produced in Aspergillus niger. EndoPro is mainly used for food applications but also as a protease in proteomics. In-depth characterization of this enzyme is essential to understand its structural features and functionality. However, there is a lack of analytical methods capable of maintaining both the structural and functional integrity of separated proteoforms. In this study, we developed an anion exchange (AEX) method coupled to native mass spectrometry (MS) for profiling EndoPro proteoforms. Moreover, we investigated purified EndoPro proteoforms with complementary MS-based approaches, including released N-glycan and glycopeptide analysis, to obtain a comprehensive overview of the structural heterogeneity. We showed that EndoPro has at least three sequence variants and seven N-glycosylation sites occupied by high-mannose glycans that can be phosphorylated. Each glycosylation site showed high microheterogeneity with ∼20 glycans per site. The functional characterization of fractionated proteoforms revealed that EndoPro proteoforms remained active after AEX-separation and the specificity of these proteoforms did not depend on N-glycan phosphorylation. Nevertheless, our data confirmed a strong pH dependence of EndoPro cleavage activity. Altogether, our study demonstrates that AEX-MS is an excellent tool to characterize complex industrial enzymes under native conditions.

AB - The prolyl-alanyl-specific endoprotease (EndoPro) is an industrial enzyme produced in Aspergillus niger. EndoPro is mainly used for food applications but also as a protease in proteomics. In-depth characterization of this enzyme is essential to understand its structural features and functionality. However, there is a lack of analytical methods capable of maintaining both the structural and functional integrity of separated proteoforms. In this study, we developed an anion exchange (AEX) method coupled to native mass spectrometry (MS) for profiling EndoPro proteoforms. Moreover, we investigated purified EndoPro proteoforms with complementary MS-based approaches, including released N-glycan and glycopeptide analysis, to obtain a comprehensive overview of the structural heterogeneity. We showed that EndoPro has at least three sequence variants and seven N-glycosylation sites occupied by high-mannose glycans that can be phosphorylated. Each glycosylation site showed high microheterogeneity with ∼20 glycans per site. The functional characterization of fractionated proteoforms revealed that EndoPro proteoforms remained active after AEX-separation and the specificity of these proteoforms did not depend on N-glycan phosphorylation. Nevertheless, our data confirmed a strong pH dependence of EndoPro cleavage activity. Altogether, our study demonstrates that AEX-MS is an excellent tool to characterize complex industrial enzymes under native conditions.

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KW - mass spectrometry

KW - native separation

KW - prolyl-alanyl-specific endoprotease

KW - structure-function relationship

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Native Structural and Functional Proteoform Characterization of the Prolyl-Alanyl-Specific Endoprotease EndoPro from Aspergillus niger

Abstract

Bibliographical note

Keywords

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