Solution conformation and hydrolytic activity of cyclo(D-leu-L-His)

It has been reported previously that a cyclic dipeptide, cyclo(D -Leu-L -His), showed a high hydrolytic activity toward a hydrophobic ester, p-nitrophenyl laurate. In order to determine the reason for the high catalytic activity, the conformation of cyclo(D -Leu-L -His) in aqueous solution was investigated by nuclear magnetic resonance and circular dichroism spectroscopy and compared with the conformation of cyclo(L -Leu-L -His), which was nearly inactive in otherwise the same conditions for the hydrolysis. It was demonstrated that the spatial arrangement of the hydrophobic isobutyl group of the D -leucyl residue and of the nucleophilic imidazolyl group of the L -histidyl residue in cyclo(D -Leu-L -His) matches very well with the long acyl chain and the active ester function of p-nitrophenyl laurate. On the other hand, in cyclo(L -Leu-L -His) the hydrophobic and the nucleophilic pendant groups are too close with each other to cooperate intramolecularly for the hydrolysis. It was concluded that the different steric structures of the diastereomers can explain the large difference of the catalytic activities.     

Conformation of oligopeptides with L-leucyl-L-leucyl-L-alanyl and L-methionyl-L-methionyl-L-leucyl repeating units

The conformation of oligopeptides with hydrophobic side chains, Nps-(L -Leu-L -Leu-L -Ala)_n-OEt and Nps-(L -Met-L -Met-L -Leu)_n-OEt(n = 1–6), in the solid state, obtained either by evaporation of the solvent or by precipitation with diethyl ether from a 1,1,1,3,3,3-hexafluoropropan-2-ol (HFIP) solution, has been studied with ir spectroscopy and x-ray powder-diffraction measurements. The conformation of these peptides in the HFIP solution has been studied by CD spectroscopy. Due to a strong preference of the amino acids to form an α helix, the peptides begin forming α helices at the dodecapeptide in the HFIP solution, and in the solid state by evaporation. In the solid state, with precipitation, the α-helical conformation is first observed at the octadecapeptide and the lower peptides assume a β structure. The conformational change, from the α helix to the β structure of the peptides with 12 to 15 amino acid residues, during the precipitation process, is due to a strong tendency of the amino acids to form the β-structure in rather short peptide lengths.     

Histidine-containing cyclic dipeptides as catalysts in the hydrolysis of carbonic acid p-nitrophenyl esters

A histidine-containing cyclic dipeptide, cyclo(D -Leu-L -His), was almost 20 times as efficient a catalyst as imidazole in the hydrolysis of p-nitrophenyl laurate. The effect of dioxane on the hydrolysis showed that hydrophobic interaction between the cyclic dipeptide and the ester is very important. This reaction obeyed the Michaelis-Menten kinetics, and the Michaelis constant K_m was as low as 9.98 × 10^?5M. Since the linear dipeptide having D -Leu-L -His sequence was nearly inactive in the hydrolysis, the functional groups of cyclo(D -Leu-L -His) in a specific arrangement held by the rigid backbone must have cooperated in the fast hydrolysis. Very weak catalysis by the diasteremeric cyclic dipeptide, cyclo(L -Leu-L -His), in the hydrolysis supported the above view.     

Conformational studies of heterochiral peptides with diastereoisomeric residues: Crystal and molecular structures of linear dipeptides derived from leucine,isoleucine, and allo-isoleucine

The x-ray diffraction analyses of three N- and C-terminally blocked L , D dipeptides, namely t-Boc-D -Leu-L -Leu-OMe ( 1 ), t-Boc-L -Ile-D -alle-OMe ( 2 ), and t-Boc-D -aIle-L -Ile-OMe (3) containing enantiomeric or diastereomeric amino acid residues have been carried out. The structures were determined by direct methods and refined anisotropically to final R factors of 0.077. 0.058. and 0.072 for ( 1 ) ( 2 ) and ( 3 ), respectively. Peptides 1–3 all assume a similar U-shaped structure with ? and ψ torsion angles cosrresponding to one of the possible calculated minimum energy regions (regions E and G for L residues, and F*. D* and H* for D residues). The peptide backbones of 1-3 are almost super-imposable [provided that the appropriate inversion of the chiral centers of ( 2 ) is made]. Side-chain conformations of Leu residues in peptide ( 1 ) are g^? (tg^?) for the L -Leu residue and the mirrored g⁺ (tg⁺) for the D -Leu residue; however, in peptides ( 2 ) and ( 3 ) the conformations of the isoconfiguralional side chains of the Ile or allo-Ile residues are (g^?t) t and (tg⁺) tfor the L -Ile and the D -allo-Ile moieties, respectively. In all cases, these conformations correspond to the more populated conformers of β-branched residues statistically found in crystal structures of small peptides. The results seem to indicate that, at least in short peptides with enantiomeric or diastereoisomeric residues, the change in chirality in the main-chain atoms perturbs the backbone conformation to a lesser extent and the side chain conformation to a greater extent. © 1995 John Wiley & Sons, Inc.     

Synthesis and conformational study of poly(0,0′-dicarbobenzoxy-L-β-3,4-dihydroxyphenyl-α-alanine)

High-molecular-weight poly(0,0′-dicarbobenzoxy-L -β-3,4-dihydroxyphenyl-α-alanine) was prepared by the N-carboxyanhydride method. From the results obtained by a study of the optical rotation, nuclear magnetic resonance, and solution infrared absorption, the conformation of poly(0,0′-dicarbobenzoxy-L -β-3,4-dihydroxyphenyl-α-alanine) depended greatly on the solvent taking a right-handed helix with [θ]₂₂₅ = ?13,600 ～ ?18,900 in alkyl halides, a left-handed helix with [θ]₂₂₈ = 22,100 ～ 24,800 in cyclic ethers or trimethylphosphate, and a random coil structure in dichloroacetic acid, trifluoroacetic acid, or hexafluoroacetone sesquihydrate. The polypeptide underwent a right-handed helix-coil transition in chloroform/dichloroacetic acid (or trifluoroacetic acid) mixed solvents and a left-handed helix-coil transition in dioxane/dichloroacetic acid (or trifluoroacetic acid) mixed solvents. The results were compared with those of poly(0-carbobenzoxy-L -tyrosine).     

Conformationally constrained D,L-alternating oligopeptides

The possibility of selectively reducing the number of β-helical structures theoretically possible for a D ,L -alternating peptide by using a N-methyl group as conformational constraint is considered. Some ¹H-nmr data regarding Boc(L -Nle-D -Nle)₃-L -Nle-D -MeNle -L -Nle-D -Nle-L -Nle-OMe (I), its formyl analogue (II), and the pentadecapeptide Boc(D -Leu-L -Leu)₅-D -MeLeu -(L -Leu-D -Leu)₂-OMe (III) are presented. It is shown that these alternating stereocooligopeptides with a N-methyl group in the (n ? 3) (I and II) or (n ? 4) position (III) differ drastically in their behavior from the corresponding nonmethylated compounds. In chloroform, I and II form predominantly ↑↓ β^7.2-helices and III forms almost exclusively ↑↓ β^5.6 or ↑↓ β^7.2-helices. The helices are in every case those having the maximum possible number of interchain H bonds.     

Crystal structures of diketopiperazines containing α-aminoisobutyric acid: Cyclo(Aib-Aib) and cyclo(Aib-L-Ile)

The crystal and molecular structures of two α-aminoisobutyric acid (Aib)-containing diketopiperazines, cyclo(Aib-Aib) 1 and cyclo(Aib-L -Ile) 2 , are reported. Cyclo(Aib-Aib) crystallizes in the space group P1 with a = 5.649(3), b = 5.865(2), c = 8.363(1), α = 69.89(6), β = 113.04(8), γ = 116.0(3), and Z = 1, while 2 occurs in the space group P2₁2₁2₁ with a = 6.177(1), b = 10.791(1), c = 16.676(1), and Z = 4. The structures of 1 and 2 have been refined to final R factors of 0.085 and 0.086, respectively. In both structures the diketopiperazine ring shows small but significant deviation from planarity. A very flat chair conformation is adopted by 1, in which the C^α atoms are displaced by 0.07 Å on each side of the mean plane, passing through the other four atoms of the ring. Cyclo(Aib-Ile) favors a slight boat conformation, with Aib C^α and Ile C^α atoms displaced by 0.11 and 0.05 Å on the same side of the mean plane formed by the other ring atoms. Structural features in these two molecules are compared with other related diketopiperazines.     

Formation of Dendrolasin,Sesquirosefuran, Perillene and Rosefuran by Biomimetic Autooxidation

To estimate the steric distance between the bitter taste determinant sites in peptides, some cyclic dipeptides, amino acid anilides, amino acid cyclohexylamides, and benzoyl amino acids were synthesized and their tastes were evaluated. The diketopiperazine ring of cyclic dipeptides acted as a bitter taste determinant site due to its hydrophobicity. The steric distance between 2 sites was estimated as 4.1 Å from the molecule models of cyclic dipeptides composed of typical amino acids in the bitter peptides. Due to the hypothesis of two bitter taste determinant sites, which bind with the bitter taste receptor via a “binding unit” and a “stimulating unit,” a mechanism for the bitterness in peptides was postulated.     

Synthesis of oligopeptides consisting of L-leucyl-L-leucyl-L-ananyl and L-methionyl-L-methionyl-L-leucyl repeating units with an improved preparation of Nps-amino acids

Two series of peptides with hydrophobic side chains, Nps-(L -Leu-L -Leu-L -Ala)_n-OEt and Nps-(L -Met-L -Met-L Leu)_n-OEt (n = 1–6), were synthesized by the fragment condensation method using dicyclohexylcarbodiimide in the presence of N-hydroxysuccinimide. The tripeptide fragments were prepared stepwise by dicyclohexylcarbodiimide-mediated reaction of Nps-amino acids, which were synthesized by an improved rapid procedure.     

Influence of D and L amino-acid residues on the conformation of peptides in solution: A carbon-13 nuclear magnetic resonance study of cyclo(prolyl-leucyl)

The ¹³C chemical shifts and spin-lattice relaxation times are reported for cyclo(L -Pro-L -Leu) and cyclo(L -Pro-D -Leu). The chemical shifts of the D and L leucyl residues in the cyclic peptides differ from each other by 1.8 and 3.6 parts per million for the α and β carbons, respectively. The α-carbons of the prolyl residues differ by 1.0 ppm as a consequence of proximity to a D or an L leucyl residue. The ¹³C spin-lattic relaxation time(T₁) of the prolyl residues, but not the leucyl residues, in both compounds are indicative of difference in conformational equilibria within the pyrrolidine ring in the L -L isomer as compared to the L -D isomer. Anisotropic overall molecular reorientation is not responsible for the differences observed in the T₁ values. The differences in T₁ values and chemical shifts between cyclo(L -Pro-L -Leu) and cyclo(L -Pro-D -Leu) appear to result from a difference in conformations of the two diketopiperazine rings.     

15N-nmr spectroscopy. 33. Assignments of isotactic and syndiotactic sequences in poly(D,L-amino acids)

¹⁵N-enriched (D ,L -Leu)_n, (γ-OMe-D ,L -Glu)_n, (D ,L -Val)_n, and (D ,L -Phe)_n were prepared, 40.55-MHz ¹⁵N-nmr spectra were measured in various solvents. The signal patterns depend strongly on the nature of the solvent, yet in most cases at least four signals are resolved, representing the four enantiomeric pairs of triads L -L -L (D -D -D ), L -D -L (D -L -D ), L -L -D (D -D -L ), and D -L -L (L -D -D ). Numerous copolypeptides of the general structure (A)_n-B*-(A)_m (the asterisk denotes 40–50% ¹⁵N enrichment) were synthesized and measured as models for syndiotactic sequences in the spectra of poly(D ,L -amino acids). In this way unambiguous assignments for both isotactic and syndiotactic trials were obtained. A spectroscopic rule was established: “isotactic sequences absorb downfield of syndiotactic ones.” Furthermore, the spectra of various types of stereocopolypeptides such as (L -Leu/L -Val)_n and (L -Leu/D -Val)_n were investigated, including the ternary systems (L -Leu/L -Ala/D -Ala)_n (L -Leu/L -Ala/Gly)_n, (L -Leu/D -Ala/Gly)_n, (L -Val/L -Ala/Gly)_n, and (L -Val/D -Ala/Gly)_n. All copolymerization of D - and L -amino acid NCAs investigated in this work showed a low degree of stereoselectivity.     

A 13C spin-lattice relaxation study of dipeptides containing glycine and proline: mobility of the cyclic proline side chain.

Molecular dynamics of the cyclic dipeptides cyclo(Gly-L -Pro), cyclo-(L-Pro-L -Pro), and cyclo(L-Pro-D-Pro) and the linear dipeptides L-Pro-Gly and cis and trans Gly-L -Pro were studied in neutral aqueous solution by ¹³C nuclear magnetic resonance. Spinlattice relaxation times (T₁) were determined for each individual carbon atom. The correlation times, τ, were derived from a semiquantitative analysis of the T₁ data. The correlation times of the proline ring carbons, β, γ, and δ suggest that the cyclic dipeptides have more restriction of conformational freedom in the proline ring than the linear dipeptides. This effect is most pronounced on the γ carbon.     

Conformational energy studies of linear dipeptides H-X-L-Pro-OH

Empirical conformational energy calculations with the use of ECEPP energy functions have been carried out for linear dipeptides H-X-L -Pro-OH, with X = Gly, L -Ala, D -Ala, L -Leu, D -Leu, L -Phe, and D -Phe, in different states of protonation of the end groups. The results of these calculations are compared with the previously reported experimental equilibrium populations for the cis and trans isomers of the X-Pro bond in the different species. For all the protonation states of the seven dipeptides, the calculated nonbonded interactions and the conformational entropy term lead to a preference of the trans forms over the cis isomers by at least 1 kcal/mol. The electrostatic interactions stabilize the cis conformations in all species except the cationic forms of the D ,L -peptides, and it could further be shown that only the carbonyl group of X and the two end groups contribute significantly to the total electrostatic energy. One of the principal results of the experimental studies, i.e., the occurrence of 5–15% cis-proline in all the peptides with an uncharged C-terminus, was corroborated by our investigation of the cationic species. A detailed assessment of the electrostatic contribution to the total energy of the different conformations of H-Gly-L -Pro-OH indicates that the standard ECEPP parameters tend to overestimate the electrostatic interactions in aqueous solutions of the X-Pro dipeptides.     

Cyclo(D-Pro-L-Pro-D-Pro-L-Pro): Structural properties and cis/trans isomerization of the cyclotetrapeptide backbone

Combinations of L - and D -proline residues are useful compounds for finding new structures and properties of cyclic peptides. This is demonstrated with one striking example, the cyclic tetrapeptide c(D -Pro-L -Pro-D -Pro-L -Pro). For this molecule composed of strictly alternating D - and L -configurated residues, a highly symmetrical structure is expected, which should be an optically inactive meso-form. Cyclization of the enantiomeric pure linear precursor D -Pro-L -Pro-D -Pro-L -Pro, however, yields a racemic mixture of two enantiomeric cyclotetrapeptides, both with twofold symmetry and a cis–trans–cis–trans sequence of the peptide bonds. Remarkably, this formation of a racemate was not caused by racemization, but by cis/trans isomerization of all peptide bonds in the ring. This process may occur in the linear precursor during the ring formation (cyclization of conformers with trans–cis–trans or cis–trans–cis arrangement of the amide bonds) as well as in the enantiomeric pure cyclic tetrapeptide at higher temperature. In the latter case, an all-cis structure should exist as the intermediate, which can form a cis–trans–cis–trans sequence in two equivalent ways, leading finally to two enantiomeric cyclotetrapeptides. In the first one, the cis peptide bonds are attributed to the L -residues and the trans peptide bonds to the D -residues; in the second one, the cis bonds belong to the D and the trans bonds to the L -residues. The mixture of these two enantiomers does not crystallize in the racemic form, but in enantiomeric pure separate crystals. The structural properties could be proved by ¹H- and ¹³C-nmr spectroscopy and x-ray analysis. The cis/trans isomerization process was confirmed by optical rotation measurements and CD spectroscopy, as well as DREIDING model studies. Calorimetric measurements in the solid state suggest the existence of the expected all-cis intermediate. The backbone conformation of the 12-membered medium-sized ring shows only slight deviations—up to 6° —from the planarity of the peptide bonds. On the other hand, the four pyrrolidine rings show different types of puckering of the C_γ or the C_β atoms.     

The biological activity of the histidine-containing diketopiperazines cyclo(His-Ala) and cyclo(His-Gly)

Two cyclic dipeptides, cyclo(His-Ala) and cyclo(His-Gly,) were synthesized from their linear counterparts and their structures elucidated using standard elucidation techniques. Molecular modeling and predictive NMR results indicated that the majority of energetically favourable conformers adopted a boat conformation with respect to the diketopiperazine ring. Cyclo(His-Ala), at concentrations of 100 microM inhibited the growth, in vitro, of various cancer cell lines, including HT-29, MCF-7 and HeLa carcinoma cells while cyclo(His-Gly) inhibited the growth of MCF-7 cells. While the antibacterial potential of these two compounds was limited, both cyclic dipeptides significantly inhibited the growth of C. albicans. Both compounds at a concentration of 100 microM resulted in a decrease in heart rate, coronary flow rate and left ventricular systolic pressure in the isolated rat heart. Inhibition of thrombin, amounting to a 63.3% and 36.7% reduction in the rate of fibrin formation, was noted for cyclo(His-Ala) and cyclo(His-Gly), respectively. While cyclo(His-Ala) showed no notable effects on platelet aggregation, cyclo(His-Gly) significantly inhibited both pathways tested with greatest effects on thrombin-induced platelet aggregation, yielding an IC(50) of 0.0662 mM (R(2)=0.989). The results of the anticancer and hematological studies indicate that histidine-containing diketopiperazines have potential as a novel group of cytotoxic agents with antithrombotic effects.     

Increasing structure diversity of prenylated diketopiperazine derivatives by using a 4-dimethylallyltryptophan synthase

To create structural diversity of prenylated diketopiperazine derivatives, acceptance of cyclic dipeptides was tested using FgaPT2, a prenyltransferase from Aspergillus fumigatus, which catalyses the conversion of l-tryptophan to 4-dimethylallyl-l-tryptophan. It could be shown that seven tryptophan-containing cyclic dipeptides were accepted by FgaPT2 at high protein concentrations and regiospecifically converted to their C4 prenylated derivatives. The structures of the enzymatic products were elucidated by NMR and LC-MS analyses. This substrate promiscuity of a dimethylallyltryptophan synthase towards cyclic dipeptides increases the potential of the fungal indole prenyltransferases as tools for the production of biologically active compounds. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

A study of the reactivity of (methyl 2-acetamidoacrylate)-tricarbonyliron(0) leading to a novel synthesis of β,β,β-trialkyl α-amino acids

(Methyl 2-acetamidoacrylate)tricarbonyliron(0) (3) reacts with 2 equivalents of methyllithium to give methyl N-acetylalaninate (4) and 2-acetamido-4-oxopentanoate (5) when the reaction is quenched with trifluoroacetic acid. Production of methyl N-acetylalaninate is dependent only on the presence of trifluoroacetic acid, and the ratio of 4 to 5 generated in these reactions is related to the quantity of trifluoroacetic acid used to quench them. Addition of two equivalents of methyllithium followed by tertiary haloalkanes gives protected β,β,β-trialkyl α-amino acids which may be hydrolysed to give tert-leucine (13) and the new α-amino acids 2-amino-3,3-dimethylpentanoic acid (14) and 2-amino-3,3-dimethylhexanoic acid (15).     

Determination of the halothane metabolites trifluoroacetic acid and bromide in plasma and urine by ion chromatography

Halothane (CF₃CHClBr), a widely used volatile anesthetic, undergoes extensive biotransformation in humans. Oxidative halothane metabolism yields the stable metabolites trifluoroacetic acid and bromide which can be detected in plasma and urine. To date, analytical methodologies have either required extensive sample preparation, or two separate analytical procedures to determine plasma and urine concentrations of these analytes. A rapid and sensitive method utilizing high-performance liquid chromatography-ion chromatography (HPLC-IC) with suppressed conductivity detection was developed for the simultaneous detection of both trifluoroacetic acid and bromide in plasma and urine. Sample preparation required only ultrafiltration. Standard curves were linear (r²≥0.99) from 10 to 250 μM trifluoroacetic acid and 2 to 5000 μM bromide in plasma and 10 to 250 μM trifluoroacetic acid and 2 to 50 μM bromide in urine. The assay was applied to quantification of trifluoroacetic acid and bromide in plasma and urine of a patient undergoing halothane anesthesia.     

Conformation of dioxopiperazines,II. CNDO/2 quantum mechanical calculations on conformational preferences in cyclo (glycyl-L-alanyl), cyclo(glycyl-L-valyl), and both epimers of cyclo-di-(alanyl)

Conformational energy calculations, aimed at verification of the suitability of the semiempirical molecular orbital CNDO/2 method for conformational elucidations in cyclic dipeptides formed from amino acids with aliphatic side chains, have been carried out. The results obtained for four dioxopiperazines [DOP; cyclo(Glycyl-L-Alanyl), cyclo(Glycyl-L-Valyl), and both epimers of cyclo-di-(Alanyl)] point out very good agreement with experimental premises. The latter include (1) the preference of the cis-peptide bonds for being nonplanar, which results in twisted-boat conformations of the DOP ring; (2) greater stability of conformers with a side chain oriented axially over those with a side chain oriented equatorially; (3) the preference of cyclo(Gly-Val) for assuming a folded conformation with one of the side chain γ-methyl groups sticking over the DOP ring.     

Dipeptides as Nitrogen Sources for Drosera rotundifolia in Aseptic Culture

The growth of Drosera rotundifolia was studied in aseptic cultures with 17 dipeptides as the only nitrogen source. About half of the dipeptides were well or partly utilized. Compounds containing glycine, alanine, glutamic or aspartic acid are clearly more favourable than dipeptides containing proline. Arginyl-aspartic acid (1.25 mM) promoted growth more than inorganic nitrogen (1.25 mM of NH₄NO₃). Glycyl-alanine gave about the same growth response as NH₄NO₃. The inocules died rapidly in medium containing leucyl-tyrosine and dipeptides containing methionine and valine were also toxic. There was usually a clear correlation between the growth-retarding or growth-stimulating effect of the dipeptides and the effects of their amino acid components.