5-Diacetoxymethyl-cycloSal-d4TMP—A prototype of enzymatically activated cycloSal-pronucleotides

A new class of “lock-in”-modified cycloSal-pronucleotides has been synthesized. On the example of 5-diacetoxymethyl-cycloSal-d4T-monophosphate (5-di-AM-cycloSal-d4TMP), the concept of enzymatically activated cycloSal-pronucleotides is elucidated. Synthesis, hydrolysis studies, and antiviral activities against HIV are presented.     

SYNTHESIS,HYDROLYSIS AND ANTI-EBV ACTIVITY OF A SERIES OF 3′-MODIFIED cycloSal-BVDUMP PRONUCLEOTIDES

A series of cycloSal-BVDUMP phosphate triesters has been prepared. The prototype compound was 3-methyl-cycloSal-BVDUMP 2. Furthermore, a series of 3′-O-acyl-modified derivatives having carboxylic acids with different lipophilicity or a L-configurated α-amino acid (phenylalanine) was prepared. The hydrolysis properties in phosphate buffer PBS as well as in PBS containing pig liver esterase (PLE) will be described. Finally, the biological activity against EBV has been determined.     

BENZYL-FUNCTIONALIZED cycloSal-d4T MONOPHOSPHATES

Synthetic routes to benzyl-functionalized cycloSal-d4T monophosphates (7CH₂X-cycloSal-d4TMP) have been developed. Their hydrolytic behavior in basic aqueous solution (pH = 7.3) was studied and their hydrolysis half-lives were determined. It turned out that two different degradation pathways are leading to different products: beside the formation of the expected d4TMP and a styrene type derivative, a phenyl-d4T-phosphodiester was obtained as well. The product distribution was specified.     

Cyclo-saligenyl-5-fluoro-2′-deoxyuridinemonophosphate (cycloSal-FdUMP) — A New Prodrug Approach for FdUMP

Abstract

The synthesis of cycloSal-FdUMP 3a-d as a new prodrug approach for FdU 1 is described. Phosphotriesters 3 release the FdUMP 2 selectively by a controlled, chemically induced tandem reaction in hydrolysis studies. The biological activity (IC₅₀) of cycloSal-phosphotriesters 3 was evaluated in FM3A/O cells and FM3A/TK^? cells.     

Evidence for Cyclophosphate Formation During Hydrolysis of 3-Methyl-cycloSal-PCVMP

Abstract

A hydrolysis study of 3-methyl-cycloSal-PCVMP 2 is described. Surprisingly, phosphotriester 5 released in this study not the expected PCVMP, but cycloPCVMP.     

Intracellular Trapping of CycloSal-Pronucleotides by Enzymatic Cleavage

A new synthesis for cycloSal-pronucleotides bearing enzymatically cleavable triggers is presented. This trigger is introduced to trap the pronucleotide inside cells. The general concept and hydrolysis data in different media are discussed.     

Species differences for stereoselective hydrolysis of propranolol prodrugs in plasma and liver

Species differences and substrate specificities for the stereoselective hydrolysis of fifteen O-acyl propranolol (PL) prodrugs were investigated in pH 7.4 Tris-HCl buffer and rat and dog plasma and liver subfractions. The (R)-isomers were preferentially converted to propranolol (PL) in both rat and dog plasma with the exception of isovaleryl-PL in rat plasma, although the hydrolytic activities of prodrugs in rat plasma were 5–119-fold greater than those in dog plasma. The prodrugs with promoieties (C(=O)CH(R)CH₃) based on propionic acid showed marked preference for hydrolysis of the (R)-enantiomers in plasma from both species (R/S ratio 2.5–18.2). On the other hand, the hepatic hydrolytic activities of prodrugs were greater in dog than rat, especially in cytosolic fractions. The hydrolytic activity was predominantly located in microsomes of the liver in rat, while the cytosol also contributed to hepatic hydrolysis in dog. Hepatic microsomal hydrolysis in dog showed a preference for the (R)-isomers except acetyl- and propionyl-PL. Interestingly, in rat liver all types of prodrugs with substituents of small carbon number showed (S)-preference for hydrolysis. The hydrolyses of (R)- and (S)-isomers of straight chain acyl esters in rat liver microsomes were linearly and parabolically related with the carbon number of substituents, respectively, while these relationships were linear for both isomers in dogs. Chirality 9:661–666, 1997. © 1997 Wiley-Liss, Inc.     

Non-inhibition of Acetylcholinesterase by cyclosal Nucleotides

Abstract

An acetylcholinesterase (AChE) assay based on the Rappaport method was established to investigate the behaviour of several cycloSal nucleotides against AChE from electrophorus electricus and human sources (purified enzymes). AChE is a physiologically essential enzyme as it catalyzes the hydrolysis of the neurotransmitter acetylcholine. No inhibition was observed in any of the cases.     

Studies on cyclic peptides. IV. Conformation of cyclo(Sar-Sar-Gly)2, cyclo(Sar)6 and cyclo(Sar-Gly-Gly)2 and their conformational change induced by alkali thiocyanates

Conformation of cyclo (Sar-Sar-Gly)₂, cyclo(Sar)₆, and cyclo(Sar-Gly-Gly)₂ was investigated by nmr spectroscopy. cyclo(Sar-Sar-Gly)₂, were shown to assume various conformations in dimethysulfoxide. It was attributed to the distribution of cis as well as trans Gly-Sar or Sar-Sar amide links along the peptide backbone. In particular, cyclo(Sar-Sar-Gly)₂ took five or six different conformations: one or three C₂-symmetric conformations and four or three asymmetric conformations, respectively. Three of nine NH resonance signals were ascribed to the internally hydrogen-bonded glycine residues. cyclo(Sar-Sar-Gly)₂ and cyclo(Sar)₆ showed a spectral change on the addition of alkali thiocyanates, indicating a conformational change induced by a complex formation with the alkali cations. The complex nmr spectrum due to a hybridization of different conformations changed with the salt addition into a simple nmr spectrum, suggesting a preponderence of a new, single conformation. On the basis of the spectral change, the strength for the cations binding the cyclic peptides was found to be in the order of K⁺ > Na⁺ > Rb⁺ > Cs⁺ for cyclo(Sar-Gly-Gly)₂ and K⁺ > Rb⁺ > Cs⁺ for cyclo(Sar)₆. On the other hand, cyclo(Sar-Gly-Gly)₂ in dimethylsulfoxide assumed a single C₂ conformation having two glycyl peptide protons shielded from solvent and the other two exposed to solvent. This conformation did not change with the salt addition. Finally, the conformations of several cyclic peptides containing the sarcosine residue such as cyclo(Sar)₆ cyclo(Sar-Sar-Gly)₂ cyclo(Pro-Sar-Gly)₂, and cyclo (Sar-Gly-Gly)₂ were compared. It appeared that proline and glycine residues reduced the conformational multiplicity of the cyclic peptide backbone, and the ability to bind alkali metal cations decreased in the above order.     

Studies on the Syntheses of the Pyrethrin Analogues and their Biological Activities

Some new allethronyl esters of cyclopropanecarboxylic acids were prepared, and their insecticidal activities were tested against common housefly. Allethronyl esters of cyclopropanecarboxylic acids having 3,4-methylenedioxyphenyl group on the cyclopropane ring were more or less toxic. Among them, allethronyl 2,2-dimethyl-3-(3′,4′-methylenedioxyphenyl)-cycloopropane-l-carboxylate was found to be more toxic than α-dl-trans-allethrin, and the calculated relative effectiveness were 1.48 and 1.21 on the mortality and knock-down activity respectively as compared with α-dl-trans-allethrin.     

Comparison of two anthracycline-based prodrugs for activation by a monoclonal antibody-β-glucuronidase conjugate in the specific treatment of cancer

Antibody-directed enzyme prodrug therapy (ADEPT) may improve the therapeutic index of cytostatic agents. We compared two prodrugs, epirubicin-glucuronide (Epi-glu) and doxorubicin-spacer-glucuronide (Dox-sp-glu), for their cytotoxicity on activation by a monoclonal antibody-enzyme conjugate bound to tumor cells. The results showed that the prodrugs were 10 (Dox-sp-glu) and 100 (Epi-glu) times less toxic than the parent drugs against OVCAR-3 cells. This difference was a result of the hydrophilic property of the prodrugs resulting in a reduced cellular uptake. The enzyme-catalyzed hydrolysis of Dox-sp-glu byE. coli-derived β-glucuronidase (GUS) (K _m 500 μM,V _max 21,000 μmol/min/g) was much more efficient than that of Epi-glu (K _m 10 μM,V _max 40 μmol/min/g). Incubation of OVCAR-3 cells with an enzyme-immunoconjugate prepared from monoclonal antibody 323/A3 andE. coli-derived GUS before treatment with prodrugs completely restored the cytotoxicity of the prodrugs to the level of the parent drugs.     

βVI Turns in peptides and proteins: A model peptide mimicry

To investigate the role of proline in defining β turn conformations within cyclic hexa- and pentapeptides we synthesized and determined the conformations of a series of L - and D -proline-containing peptides by means of 2D NMR spectroscopy and restrained molecular dynamics simulations. Due to cis/trans isomerism the L -proline peptides adopt at least two different conformations that are analyzed and compared to the structures of the corresponding D -proline peptides. The cis conformations of the compounds cyclo(-Pro-Ala-Ala-Pro-Ala-Ala-), cyclo(-Arg-Gly-Asp-Phe-Pro-Gly-), cyclo(-Arg-Gly-Asp-Phe-Pro-Ala-), cyclo(-Pro-Ala-Ala-Ala-Ala--), and cyclo(-Pro-Ala-Pro-Ala-Ala-) form uncommon βVI turns that mimic the turn geometries found in crystallographically refined protein structures at such a detailed level that even preferred side chain orientations are reproduced. The ratios of the cis/trans isomers are analyzed in terms of the steric demand of the proline-following residue. The conformational details derived from this study illustrate the importance of the examination of small model compounds derived from protein loop regions, especially if bioactive recognition sequences, such as RGD (Arg-Gly-Asp), are incorporated. © 1993 Wiley-Liss, Inc.     

CycloSaligenyl Pronucleotides of 5-Iodo and 5-Trifluoromethyl-1-(2-deoxy-β-D-ribofuranosyl)-2,4-difluorobenzene Mimics of Thymidine: Synthesis and Evaluation of this Pronucleotide Monophosphate Delivery System for Compounds with Potential Anticancer Activity

Abstract

A group of unnatural 1-(2-deoxy-β-D-ribofuranosyl)-2,4-difluorobenzenes possessing a 5-I or 5-CF₃ substituent, that were originally designed as thymidine mimics, were coupled via their 5′-OH group to a cyclosaligenyl (cycloSal) ring system having a variety of C-3 substituents (Me, OMe, H). The 5′-O-cycloSal-pronucleotide concept was designed to effect a thymidine kinase-bypass, thereby providing a method for the intracellular delivery and generation of the 5′-O-monophosphate for nucleosides that are poorly phosphorylated. The 5′-O-cycloSal pronucleotide phosphotriesters synthesized in this study were obtained as a 1:1 mixture of two diastereomers that differ in configuration (S _P or R _P) at the asymmetric phosphorous center. The (S _P)- and (R _P)-diastereomers for the 5′-O-3-methylcycloSal- and 5′-O-3-methoxycycloSal derivatives of 1-(2-deoxy-β-D-ribofuranosyl)-2,4-difluoro-5-iodobenzene were separated by silica gel flash column chromatography. This class of cycloSal pronucleotide compounds generally exhibited weak cytotoxic activities in a MTT assay (CC₅₀ values in the 10^?3 to 10^?4 M range), against a number of cancer cell lines (143B, 143B-LTK, EMT-6, Hela, 293), except for cyclosaligenyl-5′-O-[1′-(2,4-difluoro-5-iodophenyl)-2′-deoxy-β-D-ribofuranosyl]phosphate that was more potent (CC₅₀ values in the 10^?5 to 10^?6 M range), than the reference drug 5-iodo-2′-deoxyuridine (IUDR) which showed CC₅₀ values in the 10^?3 to 10^?5 M range.     

Optical properties of cyclic dimers of amino acids: An experimental and theoretical study

CD spectra have been measured in the vacuum-uv region to about 135 nm for cyclo(L alanyl-glycine), cyclo(L alanyl-L -alanine), and cyclo(L -prolyl-L -proline). In addition to the amide CD bands usually observed at wavelengths longer than 180 nm, a Independent systems calculations show that these intense short-wavelenght bands can be attributed to σσ* transitions of the backbone. Transitions of the amide chromophore expected at wavelenghts shorter than 180 nm cannot account for the observed CD.     

Phosphoramidite Chemistry for the Synthesis of cycloSal-Pro-Nucleotides

Abstract

An alternative synthesis of 3-methyl-cycloSal-nucleotides 3–6 using phosphor-amidite chemistry is described. This protocol clearly shows advantages for the cycloSal-introduction into cytosine containing nucleoside analogues.     

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.     

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.     

Nmr investigation of CYCLO7,10[C7,X9,C10,Nle12] analogues of the α-factor from saccharomyces cerevisiae

The cyclo^7,10[Cys⁷,Cys¹⁰,Nle¹²], cyclo^7,10[Cys⁷,D -Ala⁹,Cys¹⁰,Nle¹²], and cyclo^7,10[Cys⁷,L -Ala⁹,Cys¹⁰,Nle¹²] analogues of the α-factor mating pheromone (WHWLQLKPGQPMY) of the yeast Saccharomyces cerevisiae were studied in DMSO/water (80 : 20) and aqueous solution by nmr spectroscopy. In addition, the cyclo^7,10[Cys⁷,D -Val⁹,Cys¹⁰,Nle¹²] α-factor was examined in DMSO/water. Nuclear Overhauser effect (NOE) and NH dδ/dT data indicate that the cyclo^7,10[Cys⁷,D -Val⁹,Cys¹⁰,Nle¹²] α-factor adopts a type II β-turn in DMSO/water and that the cyclo^7,10[Cys⁷,D -Ala⁹,Cys¹⁰,Nle¹²] - and cyclo^7,10-[Cys⁷,L -Ala⁹,Cys¹⁰,Nle¹²] α-factor analogues adopt type II and type I/III β-turns, respectively, in both DMSO/water and aqueous solutions. In aqueous solution, residues 8 and 9 of the cyclo^7,10[Cys⁷,Cys¹⁰,Nle¹²] α-factor appear to adopt at least two distinct conformations, one of these being identified as a type I/III β-turn. In contrast, the cyclo^7,10[Cys⁷,Cys¹⁰,Nle¹²] α-factor appears to adopt predominately a type II β-turn in DMSO/water. Quantitative NOE measurements of the cyclo^7,10[Cys⁷,Cys¹⁰,Nle¹²]-, cyclo^7,10[Cys⁷,D -Val⁹,Cys¹⁰,Nle¹²]-, and cyclo^7,10[Cys⁷,L -Ala⁹,Cys¹⁰,Nle¹²] α-factors in DMSO/water were used to derive three-dimensional structures of the cyclo^7,10[Cys⁷,Pro⁸,X⁹Cys¹⁰] portion of these analogues. © 1994 John Wiley & Sons, Inc.     

Pharmacokinetic studies of naproxen amides of some amino acid esters with promising colorectal cancer chemopreventive activity

Naproxen (nap) is belonging to Non-steriodal anti-inflammatory drugs (NSAIDs) group of drugs that characterized by their free carboxylic group. The therapeutic activity of nap is usually accompanied by GI untoward side effects. Recently synthesized naproxen amides of some amino acid esters prodrugs to mask the free carboxylic group were reported. Those prodrugs showed a promising colorectal cancer chemopreventive activity. The current study aims to investigate the fate and hydrolysis of the prodrugs kinetically in different pH conditions, simulated gastric and intestinal fluids with pHs of 1.2, 5.5 and 7.4 in vitro at 37 °C. The effect of enzymes on the hydrolysis of prodrugs was also studied through incubation of these prodrugs at 37 °C in human plasma and rat liver homogenates. The pharmacokinetic parameters of selected prodrugs and the liberated nap were studied after oral and intraperitoneal administration in male wistar rats. The results showed the hydrolysis of naproxen amides of amino acid esters to nap through two steps first by degradation of the ester moiety to form the amide of nap with amino acid and the second was through the degradation of the amide link to liberate nap. The two reactions were followed and studied kinetically where K₁ and K₂ (rate constants of degradation) is reported. The hydrolysis of prodrugs was faster in liver homogenates than in plasma. The relative bioavailability of the liberated nap in vivo was higher in case of prodrug containing ethyl glycinate moiety than that occupied l-valine ethyl ester moiety. Each of nap. prodrugs containing ethyl glycinate and l-valine ethyl ester moieties appears promising in liberating nap, decreasing direct GI side effect and consequently their colorectal cancer chemopreventive activity.     

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.