Robust, Sensitive, and Automated Phosphopeptide Enrichment Optimized for Low Sample Amounts Applied to Primary Hippocampal Neurons

Publication date

2017-02-03

Authors

Post, HarmISNI 0000000419480729
Penning, RenskeISNI 0000000506036618
Fitzpatrick, MartinISNI 0000000459946140
Garrigues, LucISNI 0000000506581931
Wu, WeiISNI 0000000107490485
MacGillavry, Harold D.ISNI 0000000390498692
Hoogenraad, CasperISNI 0000000396512854
Heck, Albert J RORCID 0000-0002-2405-4404ISNI 0000000393921118
Altelaar, MaartenORCID 0000-0001-5093-5945ISNI 0000000393438329

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

taverne

Abstract

Because of the low stoichiometry of protein phosphorylation, targeted enrichment prior to LC–MS/MS analysis is still essential. The trend in phosphoproteome analysis is shifting toward an increasing number of biological replicates per experiment, ideally starting from very low sample amounts, placing new demands on enrichment protocols to make them less labor-intensive, more sensitive, and less prone to variability. Here we assessed an automated enrichment protocol using Fe(III)-IMAC cartridges on an AssayMAP Bravo platform to meet these demands. The automated Fe(III)-IMAC-based enrichment workflow proved to be more effective when compared to a TiO2-based enrichment using the same platform and a manual Ti(IV)-IMAC-based enrichment workflow. As initial samples, a dilution series of both human HeLa cell and primary rat hippocampal neuron lysates was used, going down to 0.1 μg of peptide starting material. The optimized workflow proved to be efficient, sensitive, and reproducible, identifying, localizing, and quantifying thousands of phosphosites from just micrograms of starting material. To further test the automated workflow in genuine biological applications, we monitored EGF-induced signaling in hippocampal neurons, starting with only 200 000 primary cells, resulting in ∼50 μg of protein material. This revealed a comprehensive phosphoproteome, showing regulation of multiple members of the MAPK pathway and reduced phosphorylation status of two glutamate receptors involved in synaptic plasticity.

Keywords

phosphoproteomics, quantification, Fe(III)-IMAC, Ti(IV)-IMAC, TiO2, BRAVO AssayMap, phosphopeptide enrichment, sensitivity, EGF, hippocampal neurons, Taverne

Citation

Post, H, Penning, R, Fitzpatrick, M, Garrigues, L B, Wu, W, Mac Gillavry, H D, Hoogenraad, C C, Heck, A J R & Altelaar, A F M 2017, 'Robust, Sensitive, and Automated Phosphopeptide Enrichment Optimized for Low Sample Amounts Applied to Primary Hippocampal Neurons', Journal of Proteome Research, vol. 16, no. 2, pp. 728-737. https://doi.org/10.1021/acs.jproteome.6b00753