Your search keyword '"Millet, Oscar"' showing total 9 results

1. A glutamine-based single α-helix scaffold to target globular proteins.

Author

Escobedo, Albert, Piccirillo, Jonathan, Aranda, Juan, Diercks, Tammo, Mateos, Borja, Garcia-Cabau, Carla, Sánchez-Navarro, Macarena, Topal, Busra, Biesaga, Mateusz, Staby, Lasse, Kragelund, Birthe B., García, Jesús, Millet, Oscar, Orozco, Modesto, Coles, Murray, Crehuet, Ramon, and Salvatella, Xavier

Subjects

SMALL molecules, PEPTIDES, PHARMACEUTICAL chemistry, PROTEIN engineering, AMINO acids, GLOBULAR proteins

Abstract

The binding of intrinsically disordered proteins to globular ones can require the folding of motifs into α-helices. These interactions offer opportunities for therapeutic intervention but their modulation with small molecules is challenging because they bury large surfaces. Linear peptides that display the residues that are key for binding can be targeted to globular proteins when they form stable helices, which in most cases requires their chemical modification. Here we present rules to design peptides that fold into single α-helices by instead concatenating glutamine side chain to main chain hydrogen bonds recently discovered in polyglutamine helices. The resulting peptides are uncharged, contain only natural amino acids, and their sequences can be optimized to interact with specific targets. Our results provide design rules to obtain single α-helices for a wide range of applications in protein engineering and drug design. Targeting biomedically relevant protein-protein interactions is a long-lasting challenge in medicinal chemistry. Here, the authors develop a single α-helical peptide scaffold that can be tailored to target globular proteins of biomedical interest. [ABSTRACT FROM AUTHOR]

Published

2022

2. Depletion of mitochondrial methionine adenosyltransferase α1 triggers mitochondrial dysfunction in alcohol-associated liver disease.

Author

Barbier-Torres, Lucía, Murray, Ben, Yang, Jin Won, Wang, Jiaohong, Matsuda, Michitaka, Robinson, Aaron, Binek, Aleksandra, Fan, Wei, Fernández-Ramos, David, Lopitz-Otsoa, Fernando, Luque-Urbano, Maria, Millet, Oscar, Mavila, Nirmala, Peng, Hui, Ramani, Komal, Gottlieb, Roberta, Sun, Zhaoli, Liangpunsakul, Suthat, Seki, Ekihiro, and Van Eyk, Jennifer E.

Subjects

ISOMERASES, LIVER diseases, MITOCHONDRIA, MITOCHONDRIAL proteins, METHIONINE, OXIDATIVE phosphorylation

Abstract

MATα1 catalyzes the synthesis of S-adenosylmethionine, the principal biological methyl donor. Lower MATα1 activity and mitochondrial dysfunction occur in alcohol-associated liver disease. Besides cytosol and nucleus, MATα1 also targets the mitochondria of hepatocytes to regulate their function. Here, we show that mitochondrial MATα1 is selectively depleted in alcohol-associated liver disease through a mechanism that involves the isomerase PIN1 and the kinase CK2. Alcohol activates CK2, which phosphorylates MATα1 at Ser114 facilitating interaction with PIN1, thereby inhibiting its mitochondrial localization. Blocking PIN1-MATα1 interaction increased mitochondrial MATα1 levels and protected against alcohol-induced mitochondrial dysfunction and fat accumulation. Normally, MATα1 interacts with mitochondrial proteins involved in TCA cycle, oxidative phosphorylation, and fatty acid β-oxidation. Preserving mitochondrial MATα1 content correlates with higher methylation and expression of mitochondrial proteins. Our study demonstrates a role of CK2 and PIN1 in reducing mitochondrial MATα1 content leading to mitochondrial dysfunction in alcohol-associated liver disease. Lower activity of MATα1, which catalyzes the synthesis of the methyl donor S-adenosylmethionine, and mitochondrial dysfunction occur in alcohol-associated liver disease (ALD). Here the authors report that the peptidyl-prolyl cis/trans isomerase PIN1 mediates a selective depletion of MATα1 in the mitochondria, which contributes to mitochondrial dysfunction and fat accumulation, in mouse models of ALD. [ABSTRACT FROM AUTHOR]

Published

2022

3. The Use of Dansyl-Calmodulin to Study Interactions with Channels and Other Proteins.

Author

Alaimo, Alessandro, Malo, Covadonga, Areso, Pilar, Aloria, Kerman, Millet, Oscar, and Villarroel, Alvaro

Published

2013

4. Backbone chemical shifts assignments of d-allose binding protein in the free form and in complex with d-allose.

Author

Castaño, David and Millet, Oscar

Abstract

d-allose binding protein (ALBP) belongs to the family of perisplamic receptors of the bacterial ABC transporter system. ALBP experiences a significant conformational rearrangement upon binding to the sugar. Here, we report the sequential backbone assignment for the ALBP from Escherichia coli in the free form (BMRB no. 16982) and in complex with d-allose (BMRB no. 16984). [ABSTRACT FROM AUTHOR]

Published

2011

5. Intrinsic dynamics of an enzyme underlies catalysis.

Author

Eisenmesser, Elan Z., Millet, Oscar, Labeikovsky, Wladimir, Korzhnev, Dmitry M., Wolf-Watz, Magnus, Bosco, Daryl A., Skalicky, Jack J., Kay, Lewis E., and Kern, Dorothee

Subjects

*CATALYSIS, *PROTEIN folding, *ENZYME regulation, *CHEMICAL reactions, *CHEMICAL processes, *BIOCHEMISTRY, *PHYSICAL & theoretical chemistry

Abstract

A unique feature of chemical catalysis mediated by enzymes is that the catalytically reactive atoms are embedded within a folded protein. Although current understanding of enzyme function has been focused on the chemical reactions and static three-dimensional structures, the dynamic nature of proteins has been proposed to have a function in catalysis. The concept of conformational substates has been described; however, the challenge is to unravel the intimate linkage between protein flexibility and enzymatic function. Here we show that the intrinsic plasticity of the protein is a key characteristic of catalysis. The dynamics of the prolyl cis–trans isomerase cyclophilin A (CypA) in its substrate-free state and during catalysis were characterized with NMR relaxation experiments. The characteristic enzyme motions detected during catalysis are already present in the free enzyme with frequencies corresponding to the catalytic turnover rates. This correlation suggests that the protein motions necessary for catalysis are an intrinsic property of the enzyme and may even limit the overall turnover rate. Motion is localized not only to the active site but also to a wider dynamic network. Whereas coupled networks in proteins have been proposed previously, we experimentally measured the collective nature of motions with the use of mutant forms of CypA. We propose that the pre-existence of collective dynamics in enzymes before catalysis is a common feature of biocatalysts and that proteins have evolved under synergistic pressure between structure and dynamics. [ABSTRACT FROM AUTHOR]

Published

2005

6. A graphical method for the analysis of anisotropic rotational diffusion in proteins.

Author

Millet, Oscar and Pons, Miquel

Subjects

PROTEINS, ANISOTROPY, PROPERTIES of matter, BIOMOLECULES, DIFFUSION, CRYSTALLOGRAPHY

Abstract

A graphical method for the analysis of relaxation data is presented. It allows a fast estimation of the range of values of the components of the axially symmetric rotational diffusion tensor that are compatible with the experimental relaxation data. The graphical method clearly shows the contribution of different experimental relaxation parameters to the measured anisotropy. In particular, for proteins with moderate anisotropy, data from at least two N-H bonds forming angles close to 0° and 90° with respect to the principal axis of the rotational diffusional tensor are needed. For very anisotropic systems, combination of different relaxation parameters from a single residue is enough to characterize the local anisotropy. [ABSTRACT FROM AUTHOR]

Published

2001

7. An easy NMR method to study the formation of parallel β-sheets in peptide aggregates.

Author

Millet, Oscar, Pérez, Juan, and Pons, Miquel

Abstract

There is currently great interest in the study of peptide aggregation by β-sheet formation because of its relevance in pathological states or in the design of self-assembling systems of technological interest. NMR studies of β-sheet aggregates are difficult because of their long correlation times and spectral degeneracy. In this communication we demonstrate the combination of a semiselective TOCSY-NOESY experiment with partial deuterium exchange of labile protons to assign inter-molecular NOE cross peaks and prove the presence of a soluble parallel β-sheet in fast exchange with monomeric Ac-ASTTTNYT-NH (Ac-T-NH) in solution. [ABSTRACT FROM AUTHOR]

Published

1999

8. NMR-based newborn urine screening for optimized detection of inherited errors of metabolism.

Author

Embade, Nieves, Cannet, Claire, Diercks, Tammo, Gil-Redondo, Rubén, Bruzzone, Chiara, Ansó, Sara, Echevarría, Lourdes Román, Ayucar, M. Mercedes Martinez, Collazos, Laura, Lodoso, Blanca, Guerra, Eneritz, Elorriaga, Izaskun Asla, Kortajarena, Miguel Ángel, Legorburu, Alberto Pérez, Fang, Fang, Astigarraga, Itziar, Schäfer, Hartmut, Spraul, Manfred, and Millet, Oscar

Subjects

NUCLEAR magnetic resonance, URINALYSIS, INBORN errors of metabolism, METABOLITES, TRIMETHYLAMINURIA

Abstract

Inborn errors of metabolism (IEMs) are rare diseases produced by the accumulation of abnormal amounts of metabolites, toxic to the newborn. When not detected on time, they can lead to irreversible physiological and psychological sequels or even demise. Metabolomics has emerged as an efficient and powerful tool for IEM detection in newborns, children, and adults with late onset. In here, we screened urine samples from a large set of neonates (470 individuals) from a homogeneous population (Basque Country), for the identification of congenital metabolic diseases using NMR spectroscopy. Absolute quantification allowed to derive a probability function for up to 66 metabolites that adequately describes their normal concentration ranges in newborns from the Basque Country. The absence of another 84 metabolites, considered abnormal, was routinely verified in the healthy newborn population and confirmed for all but 2 samples, of which one showed toxic concentrations of metabolites associated to ketosis and the other one a high trimethylamine concentration that strongly suggested an episode of trimethylaminuria. Thus, a non-invasive and readily accessible urine sample contains enough information to assess the potential existence of a substantial number (>70) of IEMs in newborns, using a single, automated and standardized 1H- NMR-based analysis. [ABSTRACT FROM AUTHOR]

Published

2019

9. Side chain to main chain hydrogen bonds stabilize a polyglutamine helix in a transcription factor.

Author

Escobedo, Albert, Topal, Busra, Kunze, Micha B. A., Aranda, Juan, Chiesa, Giulio, Mungianu, Daniele, Bernardo-Seisdedos, Ganeko, Eftekharzadeh, Bahareh, Gairí, Margarida, Pierattelli, Roberta, Felli, Isabella C., Diercks, Tammo, Millet, Oscar, García, Jesús, Orozco, Modesto, Crehuet, Ramon, Lindorff-Larsen, Kresten, and Salvatella, Xavier

Abstract

Polyglutamine (polyQ) tracts are regions of low sequence complexity frequently found in transcription factors. Tract length often correlates with transcriptional activity and expansion beyond specific thresholds in certain human proteins is the cause of polyQ disorders. To study the structural basis of the association between tract length, transcriptional activity and disease, we addressed how the conformation of the polyQ tract of the androgen receptor, associated with spinobulbar muscular atrophy (SBMA), depends on its length. Here we report that this sequence folds into a helical structure stabilized by unconventional hydrogen bonds between glutamine side chains and main chain carbonyl groups, and that its helicity directly correlates with tract length. These unusual hydrogen bonds are bifurcate with the conventional hydrogen bonds stabilizing α-helices. Our findings suggest a plausible rationale for the association between polyQ tract length and androgen receptor transcriptional activity and have implications for establishing the mechanistic basis of SBMA. Polyglutamine (polyQ) tracts are low-complexity regions and their expansion is linked to certain neurodegenerative diseases. Here the authors combine experimental and computational approaches to find that the length of the androgen receptor polyQ tract correlates with its helicity and show that the polyQ helical structure is stabilized by hydrogen bonds between the Gln side chains and main chain carbonyl groups. [ABSTRACT FROM AUTHOR]

Published

2019