Bioorthogonal Conjugation-Assisted Purification Method for Profiling Cell Surface Proteome

Guopan Liu; Ming Ho Choi; Haiying Ma; Xuejiao Guo; Pui-Chi Lo; Jinyoung Kim; Liang Zhang

doi:10.1021/acs.analchem.1c05187

Bioorthogonal Conjugation-Assisted Purification Method for Profiling Cell Surface Proteome

Guopan Liu, Ming Ho Choi, Haiying Ma, Xuejiao Guo, Pui-Chi Lo, Jinyoung Kim, Liang Zhang^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

8 Citations (Scopus)

Abstract

Surface biotinylation has been widely adapted in profiling the cellular proteome associated with the plasma membrane. However, the workflow is subject to interference from the cytoplasmic biotin-associated proteins that compete for streptavidin-binding during purification. Here we established a that utilizes the Staudinger chemoselective ligation to label and isolate surface-associated proteins while minimizing the binding of endogenous biotin-associated proteins. Label-free quantitative proteomics demonstrated that BCAP is efficient in isolating cell surface proteins with excellent reproducibility. Subsequently, we applied BCAP to compare the surface proteome of proliferating and senescent mouse embryonic fibroblasts (MEFs). Among the results, EHD2 was identified and validated as a novel protein that is enhanced at the cell surface of senescent MEFs. We expect that BCAP will have broad applications in profiling cell surface proteomes in the future.

Original language	English
Pages (from-to)	1901–1909
Journal	Analytical Chemistry
Volume	94
Issue number	3
Online published	12 Jan 2022
DOIs	https://doi.org/10.1021/acs.analchem.1c05187
Publication status	Published - 25 Jan 2022

Funding

This work was supported by grants from the Shenzhen Science and Technology Innovation Commission (Grant JCYJ20180507181659781 to L.Z.) and the Shenzhen-Hong Kong Science and Technology Innovation Cooperation Zone Shenzhen Park Project (Grant HZQB-KCZYZ-2021017 to L.Z.), grants from the The Tung Foundation Biomedical Sciences Centre (Grant 9609301 to L.Z. and Grant 9609310 to J.K.), and grants from the Research Grants Council of Hong Kong (Grants 21101917, 11103318, and R1020-18F to L.Z. and Grant 11101017 to J.K.).

Research Keywords

SENESCENCE
IDENTIFICATION
PROTEINS

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10.1021/acs.analchem.1c05187

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title = "Bioorthogonal Conjugation-Assisted Purification Method for Profiling Cell Surface Proteome",

abstract = "Surface biotinylation has been widely adapted in profiling the cellular proteome associated with the plasma membrane. However, the workflow is subject to interference from the cytoplasmic biotin-associated proteins that compete for streptavidin-binding during purification. Here we established a that utilizes the Staudinger chemoselective ligation to label and isolate surface-associated proteins while minimizing the binding of endogenous biotin-associated proteins. Label-free quantitative proteomics demonstrated that BCAP is efficient in isolating cell surface proteins with excellent reproducibility. Subsequently, we applied BCAP to compare the surface proteome of proliferating and senescent mouse embryonic fibroblasts (MEFs). Among the results, EHD2 was identified and validated as a novel protein that is enhanced at the cell surface of senescent MEFs. We expect that BCAP will have broad applications in profiling cell surface proteomes in the future.",

keywords = "SENESCENCE, IDENTIFICATION, PROTEINS",

author = "Guopan Liu and Choi, {Ming Ho} and Haiying Ma and Xuejiao Guo and Pui-Chi Lo and Jinyoung Kim and Liang Zhang",

year = "2022",

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doi = "10.1021/acs.analchem.1c05187",

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T1 - Bioorthogonal Conjugation-Assisted Purification Method for Profiling Cell Surface Proteome

AU - Liu, Guopan

AU - Choi, Ming Ho

AU - Ma, Haiying

AU - Guo, Xuejiao

AU - Lo, Pui-Chi

AU - Kim, Jinyoung

AU - Zhang, Liang

PY - 2022/1/25

Y1 - 2022/1/25

N2 - Surface biotinylation has been widely adapted in profiling the cellular proteome associated with the plasma membrane. However, the workflow is subject to interference from the cytoplasmic biotin-associated proteins that compete for streptavidin-binding during purification. Here we established a that utilizes the Staudinger chemoselective ligation to label and isolate surface-associated proteins while minimizing the binding of endogenous biotin-associated proteins. Label-free quantitative proteomics demonstrated that BCAP is efficient in isolating cell surface proteins with excellent reproducibility. Subsequently, we applied BCAP to compare the surface proteome of proliferating and senescent mouse embryonic fibroblasts (MEFs). Among the results, EHD2 was identified and validated as a novel protein that is enhanced at the cell surface of senescent MEFs. We expect that BCAP will have broad applications in profiling cell surface proteomes in the future.

AB - Surface biotinylation has been widely adapted in profiling the cellular proteome associated with the plasma membrane. However, the workflow is subject to interference from the cytoplasmic biotin-associated proteins that compete for streptavidin-binding during purification. Here we established a that utilizes the Staudinger chemoselective ligation to label and isolate surface-associated proteins while minimizing the binding of endogenous biotin-associated proteins. Label-free quantitative proteomics demonstrated that BCAP is efficient in isolating cell surface proteins with excellent reproducibility. Subsequently, we applied BCAP to compare the surface proteome of proliferating and senescent mouse embryonic fibroblasts (MEFs). Among the results, EHD2 was identified and validated as a novel protein that is enhanced at the cell surface of senescent MEFs. We expect that BCAP will have broad applications in profiling cell surface proteomes in the future.

KW - SENESCENCE

KW - IDENTIFICATION

KW - PROTEINS

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DO - 10.1021/acs.analchem.1c05187

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SP - 1901

EP - 1909

JO - Analytical Chemistry

JF - Analytical Chemistry

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ER -

Bioorthogonal Conjugation-Assisted Purification Method for Profiling Cell Surface Proteome

Abstract

Funding

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ASDC_Sub: Neural Cell Networking Mediated by Circadian Clocks to Enhance Brain Repair Systems

ASDC_Sub: Screen for Molecular Targets in the Senescence Response of Tumor Cells to Chemotherapy

RIF: Development of an Integrated Microfluidics System for Multi-level High Content Screening of Anti-tumor Drugs

Cite this

Bioorthogonal Conjugation-Assisted Purification Method for Profiling Cell Surface Proteome

Abstract

Funding

Research Keywords

Access Output

Other Access Options

Permanent Link

Other Files and Links

Fingerprint

Projects

ASDC_Sub: Neural Cell Networking Mediated by Circadian Clocks to Enhance Brain Repair Systems

ASDC_Sub: Screen for Molecular Targets in the Senescence Response of Tumor Cells to Chemotherapy

RIF: Development of an Integrated Microfluidics System for Multi-level High Content Screening of Anti-tumor Drugs

Cite this