L.D. Pogson scite author profile

Background: Biological roles for intracellular dipeptidyl peptidases 8 and 9 are unknown.Results: By degradomics, 29 new in vivo substrates were identified (nine validated) for DP8/DP9, including adenylate kinase 2 and calreticulin.Conclusion: These substrates indicate roles for DP8 and DP9 in metabolism and energy homeostasis.Significance: Being the first proteomics screen for DP8/DP9 substrates, unexpected new cellular roles were revealed.

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Mapping insoluble indole metabolites in the gastrointestinal environment of a murine colorectal cancer model using desorption/ionisation on porous silicon imaging

Rudd

Benkendorff

Chahal

et al. 2019

Sci Rep

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Indole derivatives are a structurally diverse group of compounds found in food, toxins, medicines, and produced by commensal microbiota. On contact with acidic stomach conditions, indoles undergo condensation to generate metabolites that vary in solubility, activity and toxicity as they move through the gut. Here, using halogenated ions, we map promising chemo-preventative indoles, i) 6-bromoisatin (6Br), ii) the mixed indole natural extract (NE) 6Br is found in, and iii) the highly insoluble metabolites formed in vivo using desorption/ionisation on porous silicon-mass spectrometry imaging (DIOS-MSI). The functionalised porous silicon architecture allowed insoluble metabolites to be detected that would otherwise evade most analytical platforms, providing direct evidence for identifying the therapeutic component, 6Br, from the mixed indole NE. As a therapeutic lead, 0.025 mg/g 6Br acts as a chemo-preventative compound in a 12 week genotoxic mouse model; at this dose 6Br significantly reduces epithelial cell proliferation, tumour precursors (aberrant crypt foci; ACF); and tumour numbers while having minimal effects on liver, blood biochemistry and weight parameters compared to controls. The same could not be said for the NE where 6Br originates, which significantly increased liver damage markers. DIOS-MSI revealed a large range of previously unknown insoluble metabolites that could contribute to reduced efficacy and increased toxicity.

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Thermal tolerance in juvenile King George whiting (Sillaginodes punctata) reduces as fish age and this reduction coincides with migration to deeper colder water

Meakin

Qin

Pogson

et al. 2014

Comparative Biochemistry and Physiology Part A: Molecular &

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L.D. Pogson

Identifying Natural Substrates for Dipeptidyl Peptidases 8 and 9 Using Terminal Amine Isotopic Labeling of Substrates (TAILS) Reveals in Vivo Roles in Cellular Homeostasis and Energy Metabolism

Mapping insoluble indole metabolites in the gastrointestinal environment of a murine colorectal cancer model using desorption/ionisation on porous silicon imaging

Thermal tolerance in juvenile King George whiting (Sillaginodes punctata) reduces as fish age and this reduction coincides with migration to deeper colder water

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