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12 results on '"Wehrfritz, Cameron"'

1. Coenzyme A binding sites induce proximal acylation across protein families.

Author

Carrico, Chris, Cruz, Andrew, Walter, Marius, Meyer, Jesse, Wehrfritz, Cameron, Shah, Samah, Wei, Lei, Schilling, Birgit, and Verdin, Eric

Subjects
Lysine, Acylation, Acetylation, Acyl Coenzyme A, Protein Processing, Post-Translational, Binding Sites
Abstract

Lysine Nɛ-acylations, such as acetylation or succinylation, are post-translational modifications that regulate protein function. In mitochondria, lysine acylation is predominantly non-enzymatic, and only a specific subset of the proteome is acylated. Coenzyme A (CoA) can act as an acyl group carrier via a thioester bond, but what controls the acylation of mitochondrial lysines remains poorly understood. Using published datasets, here we found that proteins with a CoA-binding site are more likely to be acetylated, succinylated, and glutarylated. Using computational modeling, we show that lysine residues near the CoA-binding pocket are highly acylated compared to those farther away. We hypothesized that acyl-CoA binding enhances acylation of nearby lysine residues. To test this hypothesis, we co-incubated enoyl-CoA hydratase short chain 1 (ECHS1), a CoA-binding mitochondrial protein, with succinyl-CoA and CoA. Using mass spectrometry, we found that succinyl-CoA induced widespread lysine succinylation and that CoA competitively inhibited ECHS1 succinylation. CoA-induced inhibition at a particular lysine site correlated inversely with the distance between that lysine and the CoA-binding pocket. Our study indicated that CoA acts as a competitive inhibitor of ECHS1 succinylation by binding to the CoA-binding pocket. Together, this suggests that proximal acylation at CoA-binding sites is a primary mechanism for lysine acylation in the mitochondria.

Published
2023

3. Ketogenic diet administration later in life improves memory by modifying the synaptic cortical proteome via the PKA signaling pathway in aging mice

Author

Acuña-Catalán, Diego, Shah, Samah, Wehrfritz, Cameron, Nomura, Mitsunori, Acevedo, Alejandro, Olmos, Cristina, Quiroz, Gabriel, Huerta, Hernán, Bons, Joanna, Ampuero, Estibaliz, Wyneken, Ursula, Sanhueza, Magdalena, Arancibia, Felipe, Contreras, Darwin, Cárdenas, Julio César, Morales, Bernardo, Schilling, Birgit, Newman, John C., and González-Billault, Christian

Published
2024
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4. Comprehensive proteomic quantification of bladder stone progression in a cystinuric mouse model using data-independent acquisitions

Author

Rose, Jacob, Basisty, Nathan, Zee, Tiffany, Wehrfritz, Cameron, Bose, Neelanjan, Desprez, Pierre-Yves, Kapahi, Pankaj, Stoller, Marshall, and Schilling, Birgit

Subjects
Medical Biochemistry and Metabolomics, Biomedical and Clinical Sciences, Urologic Diseases, Biotechnology, 2.1 Biological and endogenous factors, Aetiology, Animals, Cystine, Cystinuria, Male, Mice, Proteomics, Urinary Bladder Calculi, X-Ray Microtomography, General Science & Technology
Abstract

Cystinuria is one of various disorders that cause biomineralization in the urinary system, including bladder stone formation in humans. It is most prevalent in children and adolescents and more aggressive in males. There is no cure, and only limited disease management techniques help to solubilize the stones. Recurrence, even after treatment, occurs frequently. Other than a buildup of cystine, little is known about factors involved in the formation, expansion, and recurrence of these stones. This study sought to define the growth of bladder stones, guided by micro-computed tomography imaging, and to profile dynamic stone proteome changes in a cystinuria mouse model. After bladder stones developed in vivo, they were harvested and separated into four developmental stages (sand, small, medium and large stone), based on their size. Data-dependent and data-independent acquisitions allowed deep profiling of stone proteomics. The proteomic signatures and pathways illustrated major changes as the stones grew. Stones initiate from a small nidus, grow outward, and show major enrichment in ribosomal proteins and factors related to coagulation and platelet degranulation, suggesting a major dysregulation in specific pathways that can be targeted for new therapeutic options.

Published
2022

7. Ketogenic diet administration later in life improves memory and regulates the synaptic cortical proteome through the cAMP/PKA signaling pathway in aging mice

Author

Acuña-Catalán, Diego, primary, Shah, Samah, additional, Wehrfritz, Cameron, additional, Nomura, Mitsunori, additional, Acevedo, Alejandro, additional, Olmos, Cristina, additional, Quiroz, Gabriel, additional, Huerta, Hernán, additional, Bons, Joanna, additional, Ampuero, Estibaliz, additional, Wyneken, Ursula, additional, Sanhueza, Magdalena, additional, Arancibia, Felipe, additional, Contreras, Darwin, additional, Cárdenas, Julio César, additional, Morales, Bernardo, additional, Schilling, Birgit, additional, Newman, John C., additional, and González-Billault, Christian, additional

Published
2023
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8. TurnoveR: A Skyline External Tool for Analysis of Protein Turnover in Metabolic Labeling Studies

Author

Basisty, Nathan, primary, Shulman, Nicholas, additional, Wehrfritz, Cameron, additional, Marsh, Alexandra N., additional, Shah, Samah, additional, Rose, Jacob, additional, Ebert, Scott, additional, Miller, Matthew, additional, Dai, Dao-Fu, additional, Rabinovitch, Peter S., additional, Adams, Christopher M., additional, MacCoss, Michael J., additional, MacLean, Brendan, additional, and Schilling, Birgit, additional

Published
2022
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10. Proteomic Analysis of Huntington’s Disease Medium Spiny Neurons Identifies Alterations in Lipid Droplets

Author

Tshilenge, Kizito-Tshitoko, primary, Aguirre, Carlos Galicia, additional, Bons, Joanna, additional, Basisty, Nathan, additional, Song, Sicheng, additional, Rose, Jacob, additional, Lopez-Ramirez, Alejandro, additional, Gerencser, Akos, additional, Naphade, Swati, additional, Loureiro, Ashley, additional, Wehrfritz, Cameron, additional, Holtz, Anja, additional, Mooney, Sean, additional, Schilling, Birgit, additional, and Ellerby, Lisa M., additional

Published
2022
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