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Literature DB >> 27373151

NeuCode Proteomics Reveals Bap1 Regulation of Metabolism.

Joshua M Baughman¹, Christopher M Rose², Ganesh Kolumam³, Joshua D Webster⁴, Emily M Wilkerson², Anna E Merrill², Timothy W Rhoads⁵, Rajkumar Noubade⁶, Paula Katavolos⁷, Justin Lesch⁸, Donald S Stapleton⁹, Mary E Rabaglia⁹, Kathy L Schueler⁹, Raymond Asuncion¹⁰, Melanie Domeyer¹⁰, Jose Zavala-Solorio³, Michael Reich¹¹, Jason DeVoss⁸, Mark P Keller⁹, Alan D Attie⁹, Alexander S Hebert⁵, Michael S Westphall⁵, Joshua J Coon¹², Donald S Kirkpatrick¹³, Anwesha Dey¹⁴.

Abstract

We introduce neutron-encoded (NeuCode) amino acid labeling of mice as a strategy for multiplexed proteomic analysis in vivo. Using NeuCode, we characterize an inducible knockout mouse model of Bap1, a tumor suppressor and deubiquitinase whose in vivo roles outside of cancer are not well established. NeuCode proteomics revealed altered metabolic pathways following Bap1 deletion, including profound elevation of cholesterol biosynthetic machinery coincident with reduced expression of gluconeogenic and lipid homeostasis proteins in liver. Bap1 loss increased pancreatitis biomarkers and reduced expression of mitochondrial proteins. These alterations accompany a metabolic remodeling with hypoglycemia, hypercholesterolemia, hepatic lipid loss, and acinar cell degeneration. Liver-specific Bap1 null mice present with fully penetrant perinatal lethality, severe hypoglycemia, and hepatic lipid deficiency. This work reveals Bap1 as a metabolic regulator in liver and pancreas, and it establishes NeuCode as a reliable proteomic method for deciphering in vivo biology.

Entities: CellLine Chemical Disease Gene Species

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Year: 2016 PMID： 27373151 PMCID： PMC5546211 DOI： 10.1016/j.celrep.2016.05.096

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

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