David R. Colquhoun scite author profile

Background: Exosomes/microvesicles (EMVs) transport protein cargo between cells effecting cell-cell communication.Results: Alteration of N-link glycans controls recruitment of specific proteins (e.g. EWI-2) into EMVs. Conclusion: N-Linked glycosylation is a key determinant of glycoprotein sorting into EMVs.Significance: This is the first demonstration that N-linked glycans mediate protein sorting to EMVs.

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Site-Specific Introduction of an Acetyl-Lysine Mimic into Peptides and Proteins by Cysteine Alkylation

Huang

et al. 2010

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Protein acetylation on Lys residues is recognized as a significant post-translational modification in cells, but it is often difficult to discern the direct structural and functional effects of individual acetylation events. Here we describe a new tool, methylthiocarbonyl-aziridine, to install acetylLys mimics site-specifically into peptides and proteins by alkylation of Cys residues. We demonstrate that the resultant thiocarbamate modification can be recognized by the Brdt bromodomain and site-specific anti-acetyl-Lys antibodies, is resistant to histone deacetylase cleavage, and can confer activation of the histone acetyltransferase Rtt109 by simulating autoacetylation. We also use this approach to obtain functional evidence that acetylation of CK2 protein kinase on Lys102 can stimulate its catalytic activity.Reversible acetylation of histones catalyzed by histone acetyltransferases (HATs) and histone deacetylases (HDACs) is recognized as a central mechanism of chromatin regulation. Beyond histones, Lys acetylation has been observed in more than 2500 mammalian proteins on more than 4000 sites and has been shown to govern many biological processes.1 Several approaches are available to explore the structural and functional consequences of protein acetylation. Traditional site-directed mutagenesis is used to replace Lys with Arg or Gln to provide indirect insights into Lys acetylation. Expressed protein ligation and unnatural amino acid mutagenesis via nonsense suppression can install acetylLys (AcK) at desired protein sites but have various technical limitations.2 pcole@jhmi.edu. Supporting Information Available. Detailed experimental procedures and Figures S1-S10. This material is available free of charge via the Internet at http://pubs.acs.org. NIH Public AccessAuthor Manuscript J Am Chem Soc. Author manuscript; available in PMC 2011 July 28. NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author ManuscriptAs an analog of methyl-Lys, methyl-thiaLys can be introduced at targeted protein locations via a relatively simple strategy involving Cys alkylation with N-methyl-aminoethylbromide derivatives.3 To create an acetyl-thiaLys analog (Figure 1a), we attempted to use the corresponding acetamide reagent with Cys-containing peptide; however, no significant conversion was observed. We hypothesized that the reduced ability of the amide compounds to form three-membered ring intermediates and/or intramolecular imidate formation led to diminished activity of N-acetyl-aminoethylbromide. We then explored the reaction of Nacetyl-aziridine and a Cys-containing peptide (Figure 1b). The predominant product observed by mass spectrometry was M+42 suggesting that acetyl-aziridine treatment led to an undesired acetyl transfer by nucleophilic attack at the carbonyl rather than the aziridine methylene ( Figure S1).To reduce reactivity at the carbonyl, we explored methylthiocarbonyl-aziridine (MTCA) (Figure 1b).4 Cys alkylation with this reagent was proposed to provide methylthiocarbonylthiaLys (MTCTK), a thiocarbama...

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David R. Colquhoun

Complex N-Linked Glycans Serve as a Determinant for Exosome/Microvesicle Cargo Recruitment

Site-Specific Introduction of an Acetyl-Lysine Mimic into Peptides and Proteins by Cysteine Alkylation

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