Profiling of collagen and extracellular matrix deposition from cell culture using in vitro ExtraCellular matrix mass spectrometry imaging (ivECM-MSI)

Stephen C. Zambrzycki; Samaneh Saberi; Rachel Biggs; Najmeh Eskandari; Davide Delisi; Harrison Taylor; Anand S. Mehta; Richard R. Drake; Saverio Gentile; Amy D. Bradshaw; Michael Ostrowski; Peggi M. Angel

doi:10.1016/j.mbplus.2024.100161

Profiling of collagen and extracellular matrix deposition from cell culture using in vitro ExtraCellular matrix mass spectrometry imaging (ivECM-MSI)

Stephen C. Zambrzycki, Samaneh Saberi, Rachel Biggs, Najmeh Eskandari, Davide Delisi, Harrison Taylor, Anand S. Mehta, Richard R. Drake, Saverio Gentile, Amy D. Bradshaw, Michael Ostrowski, Peggi M. Angel

Bioanalytical Mass Spectrometry

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

3 Scopus citations

Abstract

While numerous approaches have been reported towards understanding single cell regulation, there is limited understanding of single cell production of extracellular matrix phenotypes. Collagens are major proteins of the extracellular microenvironment extensively used in basic cell culture, tissue engineering, and biomedical applications. However, identifying compositional regulation of collagen remains challenging. Here, we report the development of In vitro ExtraCellular Matrix Mass Spectrometry Imaging (ivECM-MSI) as a tool to rapidly and simultaneously define collagen subtypes from coatings and basic cell culture applications. The tool uses the mass spectrometry imaging platform with reference libraries to produce visual and numerical data types. The method is highly integrated with basic in vitro strategies as it may be used with conventional cell chambers on minimal numbers of cells and with minimal changes to biological experiments. Applications tested include semi-quantitation of collagen composition in culture coatings, time course collagen deposition, deposition altered by gene knockout, and changes induced by drug treatment. This approach provides new access to proteomic information on how cell types respond to and change the extracellular microenvironment and provides a holistic understanding of both the cell and extracellular response.

Original language	English
Article number	100161
Journal	Matrix Biology Plus
Volume	24
DOIs	https://doi.org/10.1016/j.mbplus.2024.100161
State	Published - Dec 2024

Funding

We are grateful for funding support from the Collagen Sequence Variants in Racial Disparities of Breast Cancer grant (NIH/NCI R01 CA253460, PMA), the MUSC Integrative Training in Oncogenic Signaling Fellowship (NIH/NCI T32 CA193201, SZ), the American Cancer Society Postdoctoral Fellowship (PF-23-1029103-01-MM, SZ), and the shared resource grant for the Bruker scimaX\u2122 Magnetic Resonance Mass Spectrometer (NIH/NIGMS S10 OD030212, PMA). Image facilities were supported in part by the Cell & Molecular Imaging Shared Resource, MUSC Cancer Center Support Grant (P30 CA138313), the SC COBRE in Oxidants, Redox Balance, and Stress Signaling (P20 GM103542), the SC COBRE in Digestive and Liver Diseases (P20 GM130457), the MUSC Digestive Disease Research Cores Center (P30 DK123704,) and the Shared Instrumentation Grants S10 OD018113 and S10 OD028663. The cardiac fibroblasts work was partially supported by the Veteran Administration (T32GM132055, RB). The mouse gene knockout pancreatic cancer associated fibroblast work was partially supported by the MUSC Integrative Training in Oncogenic Signaling Fellowship (NIH/NCI T32 CA193201-6, SS) and the Stromal derived IL-6/STAT3 signaling in the development and progression of PDAC (NIH/NCI P01 CA236778-02, MO). We are also grateful for all our collaborators, colleagues, and research communities that provided discussion during this work.

Keywords

Cell culture
Collagen proline hydroxylation
Collagen proteomics
Extracellular matrix
Mass spectrometry imaging
Rapid profiling

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10.1016/j.mbplus.2024.100161

Cite this

Zambrzycki, S. C., Saberi, S., Biggs, R., Eskandari, N., Delisi, D., Taylor, H., Mehta, A. S., Drake, R. R., Gentile, S., Bradshaw, A. D., Ostrowski, M., & Angel, P. M. (2024). Profiling of collagen and extracellular matrix deposition from cell culture using in vitro ExtraCellular matrix mass spectrometry imaging (ivECM-MSI). Matrix Biology Plus, 24, Article 100161. https://doi.org/10.1016/j.mbplus.2024.100161

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title = "Profiling of collagen and extracellular matrix deposition from cell culture using in vitro ExtraCellular matrix mass spectrometry imaging (ivECM-MSI)",

abstract = "While numerous approaches have been reported towards understanding single cell regulation, there is limited understanding of single cell production of extracellular matrix phenotypes. Collagens are major proteins of the extracellular microenvironment extensively used in basic cell culture, tissue engineering, and biomedical applications. However, identifying compositional regulation of collagen remains challenging. Here, we report the development of In vitro ExtraCellular Matrix Mass Spectrometry Imaging (ivECM-MSI) as a tool to rapidly and simultaneously define collagen subtypes from coatings and basic cell culture applications. The tool uses the mass spectrometry imaging platform with reference libraries to produce visual and numerical data types. The method is highly integrated with basic in vitro strategies as it may be used with conventional cell chambers on minimal numbers of cells and with minimal changes to biological experiments. Applications tested include semi-quantitation of collagen composition in culture coatings, time course collagen deposition, deposition altered by gene knockout, and changes induced by drug treatment. This approach provides new access to proteomic information on how cell types respond to and change the extracellular microenvironment and provides a holistic understanding of both the cell and extracellular response.",

keywords = "Cell culture, Collagen proline hydroxylation, Collagen proteomics, Extracellular matrix, Mass spectrometry imaging, Rapid profiling",

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doi = "10.1016/j.mbplus.2024.100161",

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Zambrzycki, SC, Saberi, S, Biggs, R, Eskandari, N, Delisi, D, Taylor, H, Mehta, AS, Drake, RR, Gentile, S, Bradshaw, AD, Ostrowski, M & Angel, PM 2024, 'Profiling of collagen and extracellular matrix deposition from cell culture using in vitro ExtraCellular matrix mass spectrometry imaging (ivECM-MSI)', Matrix Biology Plus, vol. 24, 100161. https://doi.org/10.1016/j.mbplus.2024.100161

TY - JOUR

T1 - Profiling of collagen and extracellular matrix deposition from cell culture using in vitro ExtraCellular matrix mass spectrometry imaging (ivECM-MSI)

AU - Zambrzycki, Stephen C.

AU - Saberi, Samaneh

AU - Biggs, Rachel

AU - Eskandari, Najmeh

AU - Delisi, Davide

AU - Taylor, Harrison

AU - Mehta, Anand S.

AU - Drake, Richard R.

AU - Gentile, Saverio

AU - Bradshaw, Amy D.

AU - Ostrowski, Michael

AU - Angel, Peggi M.

PY - 2024/12

Y1 - 2024/12

N2 - While numerous approaches have been reported towards understanding single cell regulation, there is limited understanding of single cell production of extracellular matrix phenotypes. Collagens are major proteins of the extracellular microenvironment extensively used in basic cell culture, tissue engineering, and biomedical applications. However, identifying compositional regulation of collagen remains challenging. Here, we report the development of In vitro ExtraCellular Matrix Mass Spectrometry Imaging (ivECM-MSI) as a tool to rapidly and simultaneously define collagen subtypes from coatings and basic cell culture applications. The tool uses the mass spectrometry imaging platform with reference libraries to produce visual and numerical data types. The method is highly integrated with basic in vitro strategies as it may be used with conventional cell chambers on minimal numbers of cells and with minimal changes to biological experiments. Applications tested include semi-quantitation of collagen composition in culture coatings, time course collagen deposition, deposition altered by gene knockout, and changes induced by drug treatment. This approach provides new access to proteomic information on how cell types respond to and change the extracellular microenvironment and provides a holistic understanding of both the cell and extracellular response.

AB - While numerous approaches have been reported towards understanding single cell regulation, there is limited understanding of single cell production of extracellular matrix phenotypes. Collagens are major proteins of the extracellular microenvironment extensively used in basic cell culture, tissue engineering, and biomedical applications. However, identifying compositional regulation of collagen remains challenging. Here, we report the development of In vitro ExtraCellular Matrix Mass Spectrometry Imaging (ivECM-MSI) as a tool to rapidly and simultaneously define collagen subtypes from coatings and basic cell culture applications. The tool uses the mass spectrometry imaging platform with reference libraries to produce visual and numerical data types. The method is highly integrated with basic in vitro strategies as it may be used with conventional cell chambers on minimal numbers of cells and with minimal changes to biological experiments. Applications tested include semi-quantitation of collagen composition in culture coatings, time course collagen deposition, deposition altered by gene knockout, and changes induced by drug treatment. This approach provides new access to proteomic information on how cell types respond to and change the extracellular microenvironment and provides a holistic understanding of both the cell and extracellular response.

KW - Cell culture

KW - Collagen proline hydroxylation

KW - Collagen proteomics

KW - Extracellular matrix

KW - Mass spectrometry imaging

KW - Rapid profiling

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Profiling of collagen and extracellular matrix deposition from cell culture using in vitro ExtraCellular matrix mass spectrometry imaging (ivECM-MSI)

Abstract

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Keywords

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