Nature versus design: the conformational propensities of D-amino acids and the importance of side chain chirality

Towse, Clare-Louise, Hopping, G.G., Vulovic, I.M., Daggett, V.

18 September 2014

No / D-amino acids are useful building blocks for de novo peptide design and they play a role in aging-related diseases associated with gradual protein racemization. For amino acids with achiral side chains, one should be able to presume that the conformational propensities of L- and D-amino acids are a reflection of one another due to the straightforward geometric inversion at the Cα atom. However, this presumption does not account for the directionality of the backbone dipole and the inverted propensities have never been definitively confirmed in this context. Furthermore, there is little known of how alternative side chain chirality affects the backbone conformations of isoleucine and threonine. Using a GGXGG host-guest pentapeptide system, we have completed exhaustive sampling of the conformational propensities of the D-amino acids, including D-allo-isoleucine and D-allo-threonine, using atomistic molecular dynamics simulations. Comparison of these simulations with the same systems hosting the cognate L-amino acids verifies that the intrinsic backbone conformational propensities of the D-amino acids are the inverse of their cognate L-enantiomers. Where amino acids have a chiral center in their side chain (Thr, Ile) the β-configuration affects the backbone sampling, which in turn can confer different biological properties. / NIH

Enzymes as catalysts in synthesis of enantiomerically pure building blocks : secondary alcohols bearing two vicinal stereocenters

Liu, Rong

January 2005

Enzymes as tools in organic synthesis have provided enormous advantages. This thesis deals with the applications of enzymes in the kinetic resolutions of racemic compounds. The stereochemistry of chiral compounds and the kinetics of α/β hydrolase lipases are presented. From a practical point of view, the handling of a large number of parameters that influences the kinetic resolutions, especially enantioselectivity (E-value) are systematically described. A variety of approaches employed for raising the yields to over 50% are additionally discussed. Methods for the preparation of synthetically useful chiral building blocks were developed in this thesis. Thus, resolution of secondary alcohols bearing two vicinal stereocentres are studied. These building blocks can serve as starting materials for the synthesis of various enantiomerically pure compounds for agrochemistry, pharmaceuticals, chemical industry, and particularly for the total synthesis of pheromones. Racemic 3-substitued 2-hydroxybutane derivatives were produced in fairly high diastereomeric purities by a variety of chemical approaches, such as epimerization, metal-catalysed asymmetric addition etc. Kinetic resolution of these racemates was achieved by enzyme-catalysed reactions. Two lipases, Candida antarctica lipase B and Pseudomonas cepacia lipase were found to be useful in acylations as well as hydrolyses. In the biotransformations studied, the presence and nature of the second vicinal stereocentre in the chiral secondary alcohols investigated seemed to be important, e.g. in terms of the efficiencies of sequential kinetic resolutions, and altering the selectivities as well. / QC 20101020

enzyme

kinetic resolution

enantioselectivity

lipase

diastereoselectivity

epimerisation

metal-catalysed transformation

intramolecular alkylation.

Chemistry

Kemi

Enzymes as catalysts in synthesis of enantiomerically pure building blocks : secondary alcohols bearing two vicinal stereocenters

Liu, Rong

January 2005

<p>Enzymes as tools in organic synthesis have provided enormous advantages. This thesis deals with the applications of enzymes in the kinetic resolutions of racemic compounds. The stereochemistry of chiral compounds and the kinetics of α/β hydrolase lipases are presented. From a practical point of view, the handling of a large number of parameters that influences the kinetic resolutions, especially enantioselectivity (E-value) are systematically described. A variety of approaches employed for raising the yields to over 50% are additionally discussed.</p><p>Methods for the preparation of synthetically useful chiral building blocks were developed in this thesis. Thus, resolution of secondary alcohols bearing two vicinal stereocentres are studied. These building blocks can serve as starting materials for the synthesis of various enantiomerically pure compounds for agrochemistry, pharmaceuticals, chemical industry, and particularly for the total synthesis of pheromones.</p><p>Racemic 3-substitued 2-hydroxybutane derivatives were produced in fairly high diastereomeric purities by a variety of chemical approaches, such as epimerization, metal-catalysed asymmetric addition etc. Kinetic resolution of these racemates was achieved by enzyme-catalysed reactions. Two lipases, Candida antarctica lipase B and Pseudomonas cepacia lipase were found to be useful in acylations as well as hydrolyses. In the biotransformations studied, the presence and nature of the second vicinal stereocentre in the chiral secondary alcohols investigated seemed to be important, e.g. in terms of the efficiencies of sequential kinetic resolutions, and altering the selectivities as well.</p>

enzyme

kinetic resolution

enantioselectivity

lipase

diastereoselectivity

epimerisation

metal-catalysed transformation

intramolecular alkylation.

Chemistry

Kemi

Nouvelle voie d'accès à des dérivés de l'acide L-iduronique / New route to L-iduronic acid derivatives

Salamone, Stéphane

05 July 2010

Le but de ce travail est la mise au point d'une nouvelle voie de synthèse de dérivés de l'acide L-iduronique, une sous-unité saccharidique constitutive des glycosaminoglycanes comme l'héparine. Les substrats de départ utilisés pour cette synthèse sont des dérivés du glucose, un sucre abondant et bon marché. Nous avons étudié, l'inversion de configuration en C-5 permettant de passer d'un dérivé D-gluco à un dérivé L-ido. La première partie de ce travail porte donc sur les différentes étapes conduisant à l'inversion de configuration. La seconde partie est consacrée à l'obtention de divers dérivés d'acide L-iduronique obtenus par la suite de réactions précédemment mises au point, ainsi qu'à une optimisation des rendements de la synthèse mise au point. / The aim of this work is the conception of a new synthetic approach to L-iduronic acid derivatives, a saccharidic sub-unit part of glycosaminoglycans like heparin. The starting materials used for this synthesis are glucose derivatives, a cheap and abundant sugar. The strategy of the synthesis was to obtain an L-ido derivative from a D-gluco one, by performing an inversion of configuration at position 5. The first part of this work deals with the different reactions leading to the inversion of configuration. The second part concerns the way to obtain L-iduronic acid derivatives by the above studied reactions along with synthesis optimisation

Héparine

Pentasaccharide

Acide L-iduronique

Épimérisation

Heparin

Pentasaccharide

L-iduronic acid

Epimerisation

Nouvelles méthodologies pour la synthèse asymétrique de peptides aldéhydiques β3-C-terminaux et de dérivés d’acides aminés disubstitués via hétérocycloaddition / New methodologies for the asymmetric synthesis of peptides β3-cterminal aldehydes and disubstituted amino acid derivatives via heterocycloaddition

Shpak-Kraievskyi, Pavlo

09 January 2013

Les peptides aldéhydes sont connus comme inhibiteurs de protéases et précurseurs de différentes classes de composés biologiquement actifs. Les méthodes pour leur synthèse impliquent classiquement la transformation d'un précurseur (amide de Weinreb, ester, alcool, acétal) en aldéhyde en étape finale pour éviter l'épimérisation du stéréocentre en position α de l'aldéhyde. En revanche, les β-peptides aldéhydes, plus stables à l’épimérisation, ont été relativement peu explorés. Ils sont généralement obtenus par homologation de l'acide aminé correspondant malgré les faibles rendements, les problèmes d’épimérisation et de nombreuses étapes. Par conséquent, un nouvel accès synthétique aux β-peptides aldéhydes reste toujours un challenge difficile. Sur la base des travaux antérieurs dans notre équipe en hétérocycloaddition diastéréosélective [4+2] et [3+2], nous avons développé au cours de ce doctorat de nouvelles stratégies pour l'accès asymétrique à ces dérivés de β-aminoacides par deux voies complémentaires :1) Une voie utilisant les hétérocycles à six chaînons de type 6-ATO (6-alcoxytétrahydrooxazinone) qui ont été préparés par une réaction d’hétérocycloaddition hautement stéréosélective avec de bons rendements et ed. Ces cycloadduits ont été transformés par transacétalisation vers les aminoacétals intermédiaires «mixtes» ou «symétriques». Ces nouveaux acétals sont des intermédiaires parfaits pour la N-élongation par couplage peptidique, conduisant finalement aux aldéhydes peptidiques β3-C-terminaux monosubstitués. 2) Sur une autre approche, les hétérocycles à cinq chaînons 5-AISO (3,3'-disubstitué 5-alcoxy-isoxazolidines) ont été obtenus par cycloaddition dipolaire-1,3 entre des cétonitrones esters et des éthers vinyliques. Ces composés ont été utilisés avec succès en tant que précurseurs d'aminoaldéhydes β3-disubstitués après l’étape de transprotection de l'atome d'azote, suivie par la copure de la liaison N-O. L’extension asymétrique de l'étape de cycloaddition a été étudiée par des voies énantiosélective et diastéréosélective, ouvrant ainsi l'entrée vers les peptides aldéhydiques β3-disubstitués-C-terminaux énantioenrichis. / Peptide aldehydes are known as protease inhibitors and precursors for many biologically active compounds. Methods for their synthesis involve classically the transformation of a precursor (Weinreb amide, ester, alcohol, acetal) into an aldehyde as one of the final steps to prevent epimerization of the carbon α to the aldehyde. By contrast, β-peptide aldehydes, more stable to epimerization, have been relatively unexplored. They are usually obtained by homologation of the corresponding amino acid despite low yielding steps, an epimerization problem and low number of accessible amino acids. Therefore, new synthetic access to β-peptide aldehydes is still a challenging problem. On the basis of previous work in our team concerning [4+2] and [3+2] diastereoselective cycloadditions, we have developed during this PhD thesis new strategies for the asymmetric access of β-amino acid derivatives by two complementary ways :1) Original six-membered heterocycles 6-ATO (6-alkoxy-tetrahydrooxazinone ) were prepared by a highly stereoselective heterocycloaddition reaction with good yields and de. These cycloadducts were transformed via transacetalisation into both «mixed» and «symmetrical» aminoacetals. Moreover, these new acetals are ideal intermediates for further peptide coupling, leading ultimately to monosubstituted β3-C-terminal peptide aldehydes. 2) By another approach five-membered heterocycles 5-AISO (3,3’-disubstituted 5-alkoxy-isoxazolidines) were obtained via 1,3-dipolar cycloaddition between α-keto ester nitrones and vinyl ether. These compounds were successfully used as precursors of disubstituted β-amino aldehydes after transprotection of the nitrogen atom and N-O cleavage of the isoxazolidine ring. Asymmetric extension of the cycloaddition step was studied by enantioselective and diastereoselective pathways, thus opening unprecedented entry to enantioenriched disubstituted β3,β3-C-terminal peptide aldehydes.

Β-aminoaldéhyde

Épimérisation

Synthèse peptidique

Oxazinone

6-ATO

Transacétalisation

Cycloaddition dipolaire-1,3

Nitrone

Isoxazolidine

Stéréosélective

Organocatalyseur

Couplage peptidique encombré

Β-aminoaldehyde

Epimerisation

Peptide synthesis

Oxazinone

6-ATO

Transacetalisation

1,3-dipolar cycloaddition

Nitrone

Isoxazolidine

Stereoselective

Organocatalyst

Hindered peptide coupling