Cell surface proteins (CSPs) are valuable targets for
therapeutic
agents, but achieving highly selective CSP enrichment in cellular
physiology remains a technical challenge. To address this challenge,
we propose a newly developed sulfo-pyridinium ester (SPE) cross-linking
probe, followed by two-step imaging and enrichment. The SPE probe
showed higher efficiency in labeling proteins than similar NHS esters
at the level of cell lysates and demonstrated specificity for Lys
in competitive experiments. More importantly, this probe could selectively
label the cell membranes in cell imaging with only negligible labeling
of the intracellular compartment. Moreover, we successfully performed
this strategy on MCF-7 live cells to label 425 unique CSPs from 1162
labeled proteins. Finally, we employed our probe to label the CSPs
of insulin-cultured MCF-7, revealing several cell surface targets
of key functional biomarkers and insulin-associated pathogenesis.
The above results demonstrate that the SPE method provides a promising
tool for the selective labeling of cell surface proteins and monitoring
transient cell surface events.