Synthesis of novel heterobranched beta-cyclodextrins having beta-D-N-acetylglucosaminyl-maltotriose on the side chain

From a mixture of N-acetylglucosaminyl-beta-cyclodextrin (GlcNAc-betaCD) and lactose, beta-D-galactosyl-GlcNAc-betaCD (Gal-GlcNAc-betaCD) was synthesized by the transfer action of beta-galactosidase. GlcNAc-maltotriose (Glc3) and Gal-GlcNAc-Glc3 were produced with hydrolysis of GlcNAc-betaCD by cyclodextrin glycosyltransferase, and Gal-GlcNAc-betaCD by bacterial saccharifying alpha-amylase respectively. Finally, GlcNAc-Glc3-betaCD and Gal-GlcNAc-Glc3-betaCD were synthesized in 5.2% and 3.5% yield when Klebsiella pneumoniae pullulanase was incubated with the mixture of GlcNAc-Glc(3) and betaCD, or Gal-GlcNAc-Glc3 and betaCD respectively. The structures of GlcNAc-Glc3-betaCD and Gal-GlcNAc-Glc3-betaCD were analyzed by FAB-MS and NMR spectroscopy and identified as 6-O-alpha-(6(3)-O-beta-D-N-acetylglucosaminyl-maltotriosyl)-betaCD, and 6-O-alpha-(4-O-beta-D-galactopyranosyl-6(3)-O-beta-D-N-acetylglucosaminyl-maltotriosyl)-betaCD respectively.     

Guanidination of a peptide side chain amino group on a solid support

A novel guanidination method of converting a peptide side chain amino group to a guanidino group on a solid support is described. Four guanidinating reagents were evaluated using a model tetrapeptide attached to a polystyrene resin. Experimental data indicate that the two nitroguanidinating reagents, but not the two tosylguanidinating reagents, can be used effectively in solid phase peptide synthesis.     

Synthesis of new phorbol derivatives having ethereal side chain and evaluation of their anti-HIV activity

Several new phorbol derivatives having ethereal substituents at the 12-position were synthesized and subjected to biological evaluation to find new candidates of an anti-HIV agent. Among them, 12-O-(methoxymethyl)phorbol 13-decanoate showed potent inhibitory activity against infection of HIV-1 in MT-4 cells (EC50: 1.3 ng/mL) and relatively low cytotoxicity (CC50: 8.3 microg/mL). This compound was also found to have sufficient stability in mouse plasma compared with the corresponding 12-acetate derivative, which was an equipotent HIV-1 inhibitor, but with an activity that decreased considerably after plasma treatment.     

Synthesis of nucleotide antibiotics having N-acyl phosphoramidate linkages.

This paper reports the synthesis of nucleotide antibiotics having N-acyl phosphoramidate linkages. The key reaction, the construction of the N-acyl phosphoramidate linkage was achieved by the reaction of nucleoside 5'-phosphoramidite derivatives with carboxamide derivatives in the presence of 5-(3,5-dinitrophenyl)-1H-tetrazole as a very effective activator. By use of this activator, Phosmidosine was synthesized by condensation of an appropriately protected 8-oxoadenosine 5'-O-phosphoramidite derivative with an N-protected prolinamide derivative. In the case of Agrocin 84, the two P-N bonds were constructed progressively. The N-acyl phosphoramidate linkage at the 5'-position of the ribose moiety was similarly synthesized. After phosphorylation of the amino group of the adenine moiety, a fully protected Agrocin 84 derivative, which would be converted to Agrocin 84, was successfully synthesized.     

Analogues of oxytocin antagonists bearing a ureido group in the amino acid side chain at position 4 or 5.

Substitution of the side chain carboxamido group at position 4 in the potent oxytocin antagonist (OTA) [ThiaPmp(1), D-Trp(2), Cys(6), Arg(8)]-OT, PA, in which ThiaPmp = beta,beta-(3-thiapentamethylene)-beta-mercaptopropionic acid, led to [Orn(Car)(4)]-PA, ([Cit(4)]-PA), which had uterotonic antagonistic activity equal to that of PA. The same modification at position 5, leading to [Cit(5)]-PA, resulted in antagonistic potency more than 10 times lower than that of PA. This paper also describes the same substitutions introduced in the highly potent OTA [Pen(6)]-PA (antioxytocic in vitro pA(2) = 8.72). Analogues of the general formula [U(4)-X(5)-Pen(6)]-PA, in which U = Lys, Orn, Dab, Dap or X = Orn, Dab or Dap, were synthesized by SPPS. Each of these analogues was carbamoylated by treatment with KCNO in DMF-H(2)O, yielding the corresponding U(Car)(4) or X(Car)(5) derivatives. In the uterotonic assay, the substitution with the ureido group at Gln(4) results in retention of high antagonistic potency, albeit somewhat lower than that of PA, e.g. [Orn(Car)(4), Pen(6)]-PA and [Dab(Car)(4), Pen(6)]-PA having pA(2) = 8.52 and pA(2) = 8.42 respectively. In the pressor assay, [Lys(Car)(4), Pen(6)]-PA and [Dab(Car)(4), Pen(6)]-PA were somewhat weaker antagonists of arginine vasopressin than [Pen(6)]-PA; [Dap(Car)(4), Pen(6)]-PA showed only a faint trace of pressor agonistic activity. The substitution with the ureido group at position 5 leads to a significant loss of OTA potency in the in vitro uterotonic assay. The [Orn(Car)(5), Pen(6)]-PA was the most potent of the series (pA(2) = 8.05). An interesting finding is that [Dap(Car)(5), Pen(6)]-PA is equipotent with its precursor [Dap(5), Pen(6)]-PA (potency in the uterotonic test in vitro, pA(2) = 7.71 and pA(2) = 7.68, respectively). Furthermore, neither [Dap(5), Pen(6)]-PA nor [Dap(5), Pen(6), Gly(9)]-PA exhibited activity in the antidiuretic or pressor assays. Although these last two analogues show some decrease in antioxytocin potency, they behave as pure oxytocin antagonists, which makes them attractive candidates for further studies on the development of potent and specific OTAs.     

Nature of amino acid side chain and alpha-helix stability.

In order to investigate the ability of neutral amino acids to support the α-helix conformation, the coil–helix transition of poly(L -lysine) and of lysine copolymers with these amino acids was studied in water/methanol using circular dichroism. The transtions were recorded at constant pH adding buffer to the methanol/water mixtures. With poly(L -lysine), experiments were performed at several constant pH's; the transition midpoint on the water (methanol) concentration scale was found to depend strongly upon pH; the helix stability region is shifted towards higher water concentrations, when the pH is increased. Copolymers of lysine and several neutral amino acids revealed the same effect in that increasing amounts of, for example, norleucine also shifted the transition midpoint to higher water concentrations. A series of copolymers containing L -lysine as the host and different hydrophobic amino acids were synthesized and the helix–coil transition in water/methanol was observed at constant pH. Different copolymers of equal composition showed significant differences with respect to the nature of the amino acid incorporated into polylysine. From these studies an α-helix-philic scale (in decreasing order): Leu, Nle, Ile, Ala, Phe, Val, Gly is deduced and discussed; the results obtained were compared with those of different procedures.     

Synthesis of long chain n-3 and n-6 fatty acids having a photoactive conjugated tetraene group

Fatty acids of the n-3 and n-6 families containing a photoactive conjugated tetraene group near the carboxylate were prepared from several naturally occurring fatty acids by sequential iodolactonization and treatment with excess 1,8-diazabicyclo[5.4.0]undec-7-ene. The new conjugated fatty acids include 5E,7E,9E,11Z,14Z- and 5E,7E,9E,11E,14Z-eicosapentaenoic acids derived from arachidonic acid; 5E,7E,9E,11Z,14Z,17Z- and 5E,7E,9E,11E,14Z,17Z-eicosahexaenoic acids from eicosapentaenoic acid; and 4E,6E,8E,10Z,13Z,16Z,19Z- and 4E,6E,8E,10E,13Z,16Z,19Z-docosaheptaenoic acids from docosahexaenoic acid. All of the newly synthesized fatty acids were characterized by UV, ¹H NMR and mass spectroscopy. These new products represent the first examples of directed conjugation of methylene interrupted double bond systems. The products can be synthesized in gram quantities and in high yields (>50%). Interestingly, it did not prove possible to synthesize fatty acids having a triene group near the carboxyl group even using mild conditions and different synthetic approaches. Once initiated, the isomerization always continued until a tetraene group was formed. Because of the sensitivity of the tetraene group to light, these fatty acids have the potential for being used in tracking fatty acid movements in cells employing fluorescence techniques and in UV light-induced cross linking to membrane proteins.     

An increase in side chain entropy facilitates effector binding: NMR characterization of the side chain methyl group dynamics in Cdc42Hs

Cdc42Hs is a signal transduction protein that is involved in cytoskeletal growth and organization. We describe here the methyl side chain dynamics of three forms of (2)H,(13)C,(15)N-Cdc42Hs [GDP-bound (inactive), GMPPCP-bound (active), and GMPPCP/PBD46-bound (effector-bound)] from (13)C-(1)H NMR measurements of deuterium T(1) and T(1 rho) relaxation times. A wide variation in flexibility was observed throughout the protein, with methyl axis order parameters (S(2)(axis)) ranging from 0.2 to 0.4 (highly disordered) in regions near the PBD46 binding site to 0.8--1.0 (highly ordered) in some helices. The side chain dynamics of the GDP and GMPPCP forms are similar, with methyl groups on the PBD46 binding surface experiencing significantly greater mobility (lower S(2)(axis)) than those not on the binding surface. Binding of PBD46 results in a significant increase in the disorder and a corresponding increase in entropy for the majority of methyl groups. Many of the methyl groups that experience an increase in mobility are found in residues that are not part of the PBD46 binding interface. This entropy gain represents a favorable contribution to the overall entropy of effector binding and partially offsets unfavorable entropy losses such as those that occur in the backbone.     

Stereochemistry of internucleotidic bond formation by tRNA nucleotidyltransferase from baker's yeast.

Isomer A of adenosine 5'-O-(1-thiotriphosphate) (ATP alpha S) is a substrate for tRNA nucleotidyltransferase from baker's yeast, whereas isomer B is a competitive inhibitor. The tRNA resulting from this reaction has a phosphorothioate instead of a phosphate diester linkage at the last internucleotidic linkage between cytidine and adenosine. On limited digestion of this tRNA with RNase A, one can isolate cytidine 2',3'-cyclic phosphorothioate which can be deaminated to uridine 2',3'-cyclic phosphorothioate. It can be shown that this compound is the endo isomer and that, therefore, the phosphorothioate diester bond in the tRNA must have had the R configuration. This result indicates that no racemization during the condensation of ATP alpha S, isomer A, onto the tRNA had occurred. Whether inversion or retention of configuration had taken place awaits elucidation of the absolute configuration of isomer A of ATP alpha S.     

Temperature dependence of amino acid side chain IR absorptions in the amide I' region

Amide I' IR spectra are widely used for studies of structural changes in peptides and proteins as a function of temperature. Temperature dependent absorptions of amino acid side‐chains that overlap the amide I' may significantly complicate the structural analyses. While the side‐chain IR spectra have been investigated previously, thus far their dependence on temperature has not been reported. Here we present the study of the changes in the IR spectra with temperature for side‐chain groups of aspartate, glutamate, asparagine, glutamine, arginine, and tyrosine in the amide I' region (in D₂O). Band fitting analysis was employed to extract the temperature dependence of the individual spectral parameters, such as peak frequency, integrated intensity, band width, and shape. As expected, the side‐chain IR bands exhibit significant changes with temperature. The majority of the spectral parameters, particularly the frequency and intensity, show linear dependence on temperature, but the direction and magnitude vary depending on the particular side‐chain group. The exception is arginine, which exhibits a distinctly nonlinear frequency shift with temperature for its asymmetric CN₃H₅⁺ bending signal, although a linear fit can account for this change to within ~1/3 cm^‐1. The applicability of the determined spectral parameters for estimations of temperature‐dependent side‐chain absorptions in peptides and proteins are discussed. © 2013 Wiley Periodicals, Inc. Biopolymers 101: 536–548, 2014.     

Roles of the amino acid side chains in the actin-binding S-site of myosin heavy chain

The heptapeptide Ile-Arg-Ile-Cys-Arg-Lys-Gly-OEt is the analog of the S-site, one of the actin-binding sites in myosin [Suzuki et al. (1987) J. Biol. Chem. 262, 11410-11412]. Various substituted heptapeptides were synthesized, and the dissociation constants of each acto-heptapeptide complex was measured. Comparison of the dissociation constants indicated that the hydrophobic side chain of Ile-1 was critical for the binding with F-actin, but not that of Ile-3. The positive charge and the side chain length of Arg-2 were also important. The presence of a sulfur atom in the Cys-4 was also necessary. The affinity of the N-terminal Ile-Arg-Ile part for F-actin was influenced by the kind of residues in the C-terminal tetrapeptide part. Based on these results, the side chains of Ile(702), Arg(703), and Cys(SH1)(705) in myosin subfragment-1 heavy chain were assigned to be critical for the binding with F-actin. The amino acid sequence of S-1 heavy chain containing these critical residues for the S-site from residue number 700 to 717 can be predicted as an analogue of the segment B of the ATP-binding site [Walker et al. (1982) EMBO J. 1, 945-951]. The actin-binding S-site possibly shares a part of the ATP-binding site in myosin. We discuss the possibility that the S-site is an inhibitory site of myosin ATPase and the so-called actin-activation of myosin ATPase is a deinhibition induced by transient binding of F-actin to the S-site.     

Synthesis of some pyrazole derivatives having l-threo and d-erythro side chains

The mixed bis(arylhydrazones) of l-threo-2,3-hexodiulosono-1,4-lactone rearrange into pyrazolediones. Mono- and bis-(arylhydrazones) of isoascorbic acid were prepared; the latter are present in two forms that afford the same pyrazoledione. Acetylation, benzoylation, and periodate oxidation of these pyrazolediones were studied, and some condensation products from the pyrazole aldehyde were prepared. Some of the i.r. and mass-spectral data were discussed.     

A new protecting group for the 5'-hydroxyl group having O-S single bond oxidatively cleavable under mild conditions

We developed a new protecting group, ie., cis-[4-[[(4-methoxytrityl)sulfenyl]oxy]tetrahydrofuran-3-yl]oxycarbonyl (MTFOC), which could be removed under neutral conditions involving the oxidative removal of the MMTrS group followed by the self-cyclization of the resulting intermediate. The introduction of the protecting group into the 5-hydroxyl group of a thymidine derivative and its deprotection were studied.     

Synthesis and cytotoxicity of oligomycin A derivatives modified in the side chain

A novel way of chemical modification of the macrolide antibiotic oligomycin A (1) at the side chain was developed. Mesylation of 1 with methane sulfonyl chloride in the presence of 4-dimethylaminopyridine produced 33-O-mesyl oligomycin in 56% yield. Reactions of this intermediate with sodium azide produced the key derivative 33-azido-33-deoxy-oligomycin A in 60% yield. 1,3-Dipolar cycloaddition reaction with propiolic acid, methyl ester of propiolic acid, and phenyl acetylene resulted in 33-deoxy-33-(1,2,3-triazol-1-yl)oligomycin A derivatives substituted at N4 of the triazole cycle. The mesylated oligomycin A and 33-deoxy-33-azidooligomycin A did not inhibit F₀F₁ ATFase ATPase; however, 33-azido-33-deoxy-oligomycin A and the derivatives containing 4-phenyltriazole, 4-methoxycarbonyl-triazole and 3-dimethylaminoethyl amide of carboxyltriazole substituents demonstrated a high cytotoxicity against K562 leukemia and HCT116 human colon carcinoma cell lines whereas non-malignant skin fibroblasts were less sensitive to these compounds. Novel series of oligomycin A derivatives allow for the search of intracellular molecules beyond F₀F₁ ATP synthase relevant to the cytotoxic properties of this perspective chemical class.     

Synthesis of dehydroalanine fragments as thiostrepton side chain mimetics

Syntheses of dehydroalanine derivatives via a solid-support route, starting from selenocystein, and via conventional solution phase chemistry are described along with initial biological testing. The target compounds were designed as mimetics of the dehydroalanine side chain of the macrocyclic antibiotic thiostrepton that acts on the bacterial ribosome.     

An unusual side chain C-C cleavage at the MeBmt amino acid in cyclosporin A

Summary The mixture of products obtained by alkaline treatment of cyclosporin A was analyzed by HPLC-continuous-flow-FAB/MS. The changes involve the atypical amino acid (4R)-4-((E)-2-butenyl)-4,N-dimethyl-L-threonine (MeBmt) without affecting the cyclic structure. The main degradation pathway is dehydration producing all four possible anhydro-MeBmt containing cyclosporins. A new cyclosporin, [Sar¹]CS, resulting from the side chain cleavage of MeBmt has been isolated and characterized.