45 research outputs found
Design of alpha-S-Neoglycopeptides derived from MUC1 with a flexible and solvent-exposed sugar moiety
The use of vaccines based on MUC1 glycopeptides is a promising approach to treat cancer. We present herein several sulfa-Tn antigens incorporated in MUC1 sequences that possess a variable linker between the carbohydrate (GalNAc) and the peptide backbone. The main conformations of these molecules in solution have been evaluated by combining NMR experiments and molecular dynamics simulations. The linker plays a key role in the modulation of the conformation of these compounds at different levels, blocking a direct contact between the sugar moiety and the backbone, promoting a helix-like conformation for the glycosylated residue and favoring the proper presentation of the sugar unit for molecular recognition events. The feasibility of these novel compounds as mimics of MUC1 antigens has been validated by the X-ray diffraction structure of one of these unnatural derivatives complexed to an anti-MUC1 monoclonal antibody. These features, together with potential lack of immune suppression, render these unnatural glycopeptides promising candidates for designing alternative therapeutic vaccines against cancer
Quaternization of Vinyl/Alkynyl Pyridine enables ultrafast cysteine‐selective protein modification and charge modulation
© 2019 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.Quaternized vinyl- and alkynyl-pyridine reagents were shown to react in an ultrafast and selective manner with several cysteine-tagged proteins at near-stoichiometric quantities. We have demonstrated that this method can effectively create a homogenous antibody-drug conjugate that features a precise drug-to-antibody ratio of 2, which was stable in human plasma and retained its specificity towards Her2+ cells. Finally, the developed warhead introduces a +1 charge to the overall net charge of the protein, which enabled us to show that the electrophoretic mobility of the protein may be tuned through the simple attachment of a quaternized vinyl pyridinium reagent at the cysteine residues. We anticipate the generalized use of quaternized vinyl- and alkynyl-pyridine reagents not only for bioconjugation, but also as warheads for covalent inhibition and as tools to profile cysteine reactivity.Funded under the EU Horizon 2020 Programme, Marie Skłodowska-Curie ITN GA No. 675007, the Royal Society (UF110046 and URF\R\180019 to G.J.L.B.), FCT Portugal (iFCT IF/00624/2015 to G.J.L.B. and PhD studentship SFRH/BD/115932/2016 to A.G.), Xunta de Galicia (Galician Plan of research, innovation and growth 2011–2015, ED481B 2014/086-0 and ED481B 2018/007 to M.J.M.), D.G.I. MINECO/FEDER (grants CTQ2015-70524-R and RYC-2013–14706 to G.J.-O. and C.D.N and CTQ2015-67727-R to F.C.), Universidad de la Rioja (FPI PhD studentship to I.C.), FAPESP (BEPE 2015/07509-1 and 2017/13168-8 to B.B.), and by an ERC StG (GA No. 676832).info:eu-repo/semantics/publishedVersio
Deciphering the Non-Equivalence of Serine and Threonine O-Glycosylation Points: Implications for Molecular Recognition of the Tn Antigen by an anti-MUC1 Antibody
© 2015 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA. The structural features of MUC1-like glycopeptides bearing the Tn antigen (α-O-GalNAc-Ser/Thr) in complex with an anti MUC-1 antibody are reported at atomic resolution. For the α-O-GalNAc-Ser derivative, the glycosidic linkage adopts a high-energy conformation, barely populated in the free state. This unusual structure (also observed in an α-S-GalNAc-Cys mimic) is stabilized by hydrogen bonds between the peptidic fragment and the sugar. The selection of a particular peptide structure by the antibody is thus propagated to the carbohydrate through carbohydrate/peptide contacts, which force a change in the orientation of the sugar moiety. This seems to be unfeasible in the α-O-GalNAc-Thr glycopeptide owing to the more limited flexibility of the side chain imposed by the methyl group. Our data demonstrate the non-equivalence of Ser and Thr O-glycosylation points in molecular recognition processes. These features provide insight into the occurrence in nature of the APDTRP epitope for anti-MUC1 antibodies.Peer Reviewe
Structural and mechanistic insights into the catalytic-domain-mediated short-range glycosylation preferences of GalNAc-T4
17 pags, 4 figs, 2 tabsMucin-type O-glycosylation is initiated by a family of polypeptide GalNAc-transferases (GalNAc-Ts) which are type-II transmembrane proteins that contain Golgi luminal catalytic and lectin domains that are connected by a flexible linker. Several GalNAc-Ts, including GalNAc-T4, show both long-range and short-range prior glycosylation specificity, governed by their lectin and catalytic domains, respectively. While the mechanism of the lectin-domain-dependent glycosylation is well-known, the molecular basis for the catalytic-domain-dependent glycosylation of glycopeptides is unclear. Herein, we report the crystal structure of GalNAc-T4 bound to the diglycopeptide GAT GAGAGAGT TPGPG (containing two α-GalNAc glycosylated Thr (T ), the PXP motif and a "naked" Thr acceptor site) that describes its catalytic domain glycopeptide GalNAc binding site. Kinetic studies of wild-type and GalNAc binding site mutant enzymes show the lectin domain GalNAc binding activity dominates over the catalytic domain GalNAc binding activity and that these activities can be independently eliminated. Surprisingly, a flexible loop protruding from the lectin domain was found essential for the optimal activity of the catalytic domain. This work provides the first structural basis for the short-range glycosylation preferences of a GalNAc-T.We thank synchrotron radiation sources DLS (Oxford) and in particular beamline I03 (experiment number MX10121-15). We thank ARAID, MEC (CTQ2013-44367-C2-2-P, BFU2016-75633-P, CTQ2015-67727-R, CTQ2015-70524-R, and CTQ2017-85496-P), AGAUR (SGR2017-1189), the National Institutes of Health (R01-GM113534, and instrument Grant GM113534-01S to T. A. Gerken), the Danish National Research Foundation (DNRF107), the FCT-Portugal [UID/Multi/04378/2013 cofinanced by the FEDER (POCI- 01-0145-FEDER-007728)], and the DGA (E34_R17) for financial support. I. Compañón thanks Universidad de La Rioja for the FPI grant. F. Marcelo thanks FCT-Portugal for IF Investigator grant (IF/00780/2015) and PTNMR supported by Project 022161. E. Lira-Navarrete acknowledges her postdoctoral EMBO fellowship ALTF 1553-2015 cofunded by the European Commission (LTFCOFUND2013, GA-2013-609409) and Marie Curie Actions. H. Coelho and J. Jiménez-Barbero thank EU for the TOLLerant project. The research leading to these results has also received funding from the FP7 (2007−2013) under BioStruct-X (Grant agreement 283570 and BIOSTRUCTX_5186). We would also like to acknowledge the assistance of Juwan Lee in obtaining the GalNAc-T4 random peptide motif
The use of fluoroproline in MUC1 antigen enables efficient detection of antibodies in patients with prostate cancer
A structure-based design of a new generation of tumor-associated glycopeptides with improved affinity against two anti-MUC1 antibodies is described. These unique antigens feature a fluorinated proline residue, such as a (4S)-4-fluoro-l-proline or 4,4-difluoro-l-proline, at the most immunogenic domain. Binding assays using biolayer interferometry reveal 3-fold to 10-fold affinity improvement with respect to the natural (glyco)peptides. According to X-ray crystallography and MD simulations, the fluorinated residues stabilize the antigen-antibody complex by enhancing key CH/π interactions. Interestingly, a notable improvement in detection of cancer-associated anti-MUC1 antibodies from serum of patients with prostate cancer is achieved with the non-natural antigens, which proves that these derivatives can be considered better diagnostic tools than the natural antigen for prostate cancer.We thank the Ministerio de Economía y Competitividad (projects CTQ2015-67727-R, UNLR13-4E-1931, CTQ2013-44367-C2-2-P, CTQ2015-64597-C2-1P, and BFU2016-75633-P). I.A.B. thanks the Asociación Española Contra el Cancer en La Rioja for a grant. I.S.A. and G.J.L.B. thank FCT Portugal (Ph.D. studentship and FCT Investigator, respectively) and EPSRC. G.J.L.B. holds a Royal Society URF and an ERC StG (TagIt). F.C. and G.J.L.B thank the EU (Marie-Sklodowska Curie ITN, Protein Conjugates). R.H-G. thanks Agencia Aragonesa para la Investigación y Desarrollo (ARAID) and the Diputación General de Aragón (DGA, B89) for financial support. The research leading to these results has also received funding from the FP7 (2007-2013) under BioStruct-X (grant agreement no. 283570 and BIOSTRUCTX_5186). We thank synchrotron radiation source DIAMOND (Oxford) and beamline I04 (number of experiment mx10121-19). The Hokkaido University group acknowledges JSPS KAKENHI grant no. 25220206 and JSPS Wakate B KAKENHI grant no. 24710242. We also thank CESGA (Santiago de Compostela) for computer support.Peer reviewedPeer Reviewe
Structural and mechanistic insights into the cleavage of clustered O-glycan patches-containing glycoproteins by mucinases of the human gut
Mucinases of human gut bacteria cleave peptide bonds in mucins strictly depending on the presence of neighboring O-glycans. The Akkermansia muciniphila AM0627 mucinase cleaves specifically in between contiguous (bis) O-glycans of defined truncated structures, suggesting that this enzyme may recognize clustered O-glycan patches. Here, we report the structure and molecular mechanism of AM0627 in complex with a glycopeptide containing a bis-T (Galβ1-3GalNAcα1-O-Ser/Thr) O-glycan, revealing that AM0627 recognizes both the sugar moieties and the peptide sequence. AM0627 exhibits preference for bis-T over bis-Tn (GalNAcα1-O-Ser/Thr) O-glycopeptide substrates, with the first GalNAc residue being essential for cleavage. AM0627 follows a mechanism relying on a nucleophilic water molecule and a catalytic base Glu residue. Structural comparison among mucinases identifies a conserved Tyr engaged in sugar-π interactions in both AM0627 and the Bacteroides thetaiotaomicron BT4244 mucinase as responsible for the common activity of these two mucinases with bis-T/Tn substrates. Our work illustrates how mucinases through tremendous flexibility adapt to the diversity in distribution and patterns of O-glycans on mucins