Mass cytometry (MC) is a powerful tool for studying heterogeneous cell populations. In previous work, our laboratory has developed an MC probe for hypoxia bearing a methyl telluride mass tag. The methyl telluride was unoptimized, displaying stability and toxicity limitations. Here, we investigate three classes of organotelluriums as MC mass tags: methyl tellurides, trifluoromethyl tellurides and 2-alkyl-tellurophenes. NMR was used to compare the stability of these compounds in aqueous and organic solutions and the compounds were analysed for toxicity in Jurkat cells. The methyl tellurides were moderately stable to aerobic oxidation in organic solution under dry ambient conditions. The trifluoromethyl tellurides were stable to aerobic oxidation in organic solution but decomposed in aqueous solution. The 2-alkyl-tellurophenes proved to be stable in both organic and aqueous solutions under ambient conditions and showed limited toxicity (IC50 > 200 μM) in cell based assays. The synthetic feasibility, chemically stability, and limited toxicity of tellurophenes suggests these groups will be good choices for MC reagent development.
Mass cytometry (MC) is a powerful method that combines the cellular resolution of flow cytometry with the isotopic resolution of inductively coupled plasma mass spectrometry (ICP-MS). This combination theoretically allows for the simultaneous quantification of >80 different parameters at the single cell level, in turn allowing for the deep profiling of heterogeneous cell populations. The majority of available reagents for MC are antibodies labeled with heavy metal isotopes, allowing for the quantification of static biomarkers. To complement these reagents, we aim to develop small molecule reporters of cellular metabolism that are compatible with MC. Here we report a probe of β-galactosidase activity capable of detecting cellular senescence. The galactoside probe contains a tellurophene reporter group and, when hydrolyzed, generates a quinone alkide. This reactive alkylating agent forms covalent tellurophene bearing conjugates with local nucleophiles, allowing for the quantification of β-galactosidase activity in individual cells. Difluoromethyl and monofluoroethyl quinone alkide generating warheads were examined for their activities and compared in vitro and in vivo. We showed that the difluoromethyl derivative gave higher tellurium labelling in vitro and that the quinone methide was more reactive towards thiols than amines. In vivo the difluoromethyl derivative successfully labeled senescent cells with comparable selectivity to the commonly used fluorescent senescence probe CFDG.
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