Catalytic polymerization of a cyclic ester derived from a "cool" natural precursor

(-)-Menthide, a seven-membered lactone derived from the natural product (-)-menthol, was polymerized using a structurally defined zinc-alkoxide catalyst to form an aliphatic polyester. The polymer was fully characterized by NMR spectroscopy, size exclusion chromatography, and matrix-assisted laser desorption ionization mass spectrometry. The polymerization reaction occurred in a controlled fashion and polymer samples with M(n) values up to 90 kg mol(-1) were obtained by varying the catalyst loading. Monitoring of the rate of polymerization by in situ FT-IR spectroscopy (ReactIR) revealed a first order dependence on (-)-menthide. The temperature dependence of the observed rate constant between 30 and 90 degrees C was well described by the Arrhenius equation and gave E(a) = 38.4 +/- 0.9 kJ mol(-1). Thermodynamic parameters (deltaH(p) degrees = -16.8 +/- 1.6 kJ mol(-1), deltaS(p) degrees = -27.4 +/- 4.6 J mol(-1) K(-1)) for the polymerization of (-)-menthide were also determined by measuring the equilibrium monomer concentration at different temperatures ranging from 40 to 100 degrees C. The equilibrium monomer concentrations at 25 and 100 degrees C were calculated to be 0.031 +/- 0.018 and 0.120 +/- 0.063 M, respectively.     

Enzymatic synthesis of polythioester by the ring-opening polymerization of cyclic thioester

A high molecular weight aliphatic polythioester was prepared by lipase-catalyzed polymerization of hexane-1,6-dithiol and dimethyl sebacate using the technique of ring-opening polymerization of a cyclic thioester. The cyclic thioester monomer was first prepared using lipase from Candida antarctica in dilute solution. The monomer was then polymerized by the same lipase in bulk to produce a polythioester with an M(w) of about 120 000 g/mol, which was significantly higher than that of a polythioester obtained by direct polycondensation of the dithiol and diacid. The polymerization rate and thermal properties of the product were measured and compared with those of the corresponding polyester prepared by ring-opening polymerization of a cyclic ester.     

Some ring-opening reactions of a diepoxide derived from (−)-quinic acid

A useful preparative route to nitrogen-containing, carbocyclic derivatives is described from (−)-quinic acid. (−)-Quinic acid was converted via the 3,4-O-cyclohexylidene-lactone into 1- -3-O-tosyl-5-C-tosyloxymethylcyclohexane-1,2,5/3-tetrol (5) by sequential reduction with sodium borohydride, toluene-p-sulphonylation, and acid hydrolysis. Reaction of the disulphonate 5 with methanolic sodium methoxide afforded 1- -1,2:5,7-dianhydro-5-C-hydroxymethylcyclohexane-1,2,3,5/0-tetrol (6). The ring-opening reactions of the diepoxide 6 with azide ion furnished a mixture of two diazides 9 and 13 in the ratio 4 to 1. The structure and conformation of the derived dibenzoates 10 and 14 have been determined by n.m.r. spectroscopy.     

Preparation and ring-opening reactions of a 2,3-anhydride derived from sucrose

Selective tosylation of 6,1′,6′-tri-O-tritylsucrose afforded the 2-O-tosyl derivative and not the 3-O-tosyl derivative as previously claimed. Treatment of the 2-tosylate with base afforded mainly (40%) the 2,3-manno-epoxide together with the 3,4-altro-epoxide which arose by migration of the epoxide ring. Ring-opening of the 2,3-epoxide with a variety of nucleophilic anions took place exclusively at C-3 to give altropyranosyl derivatives, whereas reaction of the epoxide with ammonium thiocyanate afforded the 2,3-allo-episulphide. Ring-opening of the 2,3-manno-epoxide with lithium iodide in ether gave 37% of the 3-deoxy-3-iodomannopyranosyl isomer, which arose by prior rearrangement of the 2,3-epoxide to the 3,4-epoxide.     

Comparison of a tartaric acid derived polymeric MRI contrast agent to a small molecule model chelate

Contrast agents with high relaxivity are needed to increase the sensitivity of magnetic resonance imaging (MRI) for novel clinical and research applications. For this reason, polymeric structures containing multiple Gd(III) chelates are of current interest. Described in this communication are the syntheses and characterization of a glycopolymer derived from L-tartaric acid, Gd 4(H2O), as well as a low molecular weight compound, Gd 10(H2O), that models the Gd(III) chelate structure in the repeat unit of polymer Gd 4(H2O). Luminescence lifetime measurements in H2O and D2O for Eu(III) analogues of Gd 4(H2O) and Gd 10(H2O) [named Eu 4(H2O) and Eu 10(H2O)] reveal that the lanthanide in both structures likely has one water ligand in the primary coordination sphere. The relaxivity of the model chelate Gd 10(H 2O) at 400 MHz and 310 K was determined to be 4.7 mmol (-1).s (-1), representing a nearly 50% increase over Magnevist (3.2 mmol (-1).s (-1)). Relaxivity values on a per Gd basis for the polymeric structure Gd 4(H2O) prepared at two degrees of polymerization, n = 12 and 19, are similar, but slightly lower than Gd 10(H2O) (4.4 mmol (-1).s (-1) and 4.5 mmol (-1).s (-1), respectively). However, their molecular relaxivities of 51 mmol (-1).s (-1) and 80 mmol (-1).s (-1), respectively, provide a substantial increase over that of Magnevist.     

Preparation and enantioseparation of a mixed selector chiral stationary phase derived from benzoylated tartaric acid and 1,2‐diphenylethylenediamine

L ‐Dibenzoyl tartaric acid was mono‐esterified with benzyl alcohol, and then chlorinated with SOCl₂ to give (2S,3S)‐1‐(benzyloxy)‐4‐chloro‐1,4‐dioxobutane‐2,3‐diyl dibenzoate (Selector 1 ). (1R,2R)‐1,2‐Diphenylethylenediamine was mono‐functionalized with phenyl isocyanate and phenylene diisocyanate in sequence to give (1R,2R)‐1,2‐diphenyl‐2‐(3‐phenylureido)ethyl 4‐ isocyanatophenylurea (Selector 2 ). Two brush‐type chiral stationary phases (CSPs) of single selector were prepared by separately immobilizing selectors 1 and 2 on aminated silica gel. Selectors 1 and 2 were simultaneously immobilized on aminated silica gel to give a mixed selector CSP. The enantioseparation ability of these CSPs was studied. The CSP of selector 1 has strongest separation ability, while the enantioseparation ability of the mixed selector CSP is relatively lower. Chirality 2010. © 2009 Wiley‐Liss, Inc.     

Enzymic alpha-galactosylation of a cyclic glucotetrasaccharide derived from alternan

Alternanase catalyzes the hydrolysis of alternan, an alpha-(1-->3)-alpha-(1-->6)-D-glucan produced by Leuconostoc mesenteroides, resulting in the formation of a cyclic tetramer cyclo -->3)-alpha-D-Glcp-(1-->6)-alpha-D-Glcp-(1-->(2) (cGlc(4)). Two alpha-galactosidases, one from coffee bean and the other produced by a fungus, currently described as Thermomyces lanuginosus, were found to catalyze an efficient 6-O-alpha-D-galactopyranosylation of cGlc(4). The attachment of a nonreducing alpha-D-galactopyranosyl residue to the cGlc(4) molecule opens new possibilities for future applications of the cyclic tetramer, since the D-galactopyranosyl residue can be easily modified by D-galactose oxidase to introduce a reactive aldehyde group. The results also extend our knowledge about the synthetic potential of T. lanuginosus alpha-galactosidase.     

New ground for organic catalysis: a ring-opening polymerization approach to hydrogels

Herein, we describe an organocatalytic living polymerization approach to network and subsequent hydrogel formation. Cyclic carbonate-functionalized macromolecules were ring-opened using an alcoholic initiator in the presence of an organic catalyst, amidine 1,8-diazabicyclo[5.4.0]undec-7-ene. A model reaction for the cross-linking identified monomer concentration-dependent reaction regimes, and enhanced kinetic control was demonstrated by introducing a co-monomer, trimethylene carbonate. The addition of the co-monomer facilitated near-quantitative conversion of monomer to polymer (>96%). Resulting poly(ethylene glycol) networks swell significantly in water, and an open co-continuous (water-gel) porous structure was observed by scanning electron microscopy. The organocatalytic ring-opening polymerization of cyclic carbonate functional macromonomers using alcoholic initiators provides a simple, efficient, and versatile approach to hydrogel networks.     

Synthesis of amino acid derived seven-membered lactams by RCM and their evaluation against HIV protease

A versatile synthesis of hydroxylated and epoxy 1-azepin 2-ones substituted at N1, C-3 and C-4 or C-7 has been developed. The sequence involves ring-closing metathesis of an amino acid derived diene amide, followed by either epoxidation or dihydroxylation, of the resulting alkene. Assay of the product epoxides (10, 18, 25) and diols (9a, 17, 24) against HIV protease reveals micromolar inhibition.     

Disulfide bond polymerization of a cyclic peptide derived from the surface loop 4 of class 1 OMP of Neisseria meningitidis

Two peptides derived from the surface loop 4 of class1 Outer Membrane Protein (OMP) of Neisseriameningitidis were synthesized on solid phase usingthe Boc/Bzl strategy: one containing the entire loop4 cyclized and the other representing the polymerizedcyclic loop 4. To test a more efficient cyclic peptidepresentation, in the present study astrategy was developed to obtain polymers of cyclic peptides. Inorder to obtain the polymeric cyclic peptide, twoprotecting groups for cysteine were used – Acm andMob. The Cys(Acm)-protected cyclic peptide wasobtained after removing the Mob group. Thepolymerization reaction was carried out bysimultaneous deprotection/oxidation of S-Acmwith iodine. Analysis of the polymeric cyclic peptidein Tris-tricine-SDS-PAGE showed different bandswith molecular weights higher than expected for thecorresponding monomeric cyclic peptide. Both peptideswere used in immunization of four different mouse strains.The antisera raised against the peptides wereevaluated by ELISA and Western blotting vs. OMPpreparation of N. meningitidis. The titersraised against the polymerized cyclic peptide werehigher than the ones raised against the cyclicpeptide. The antisera elicited did not showbactericidal activity. Nevertheless, the antiseraelicited against the polymeric cyclic peptide in theCBA/J mouse strain showed opsonic activity. Theantibodies raised against the polymeric cyclic peptidewere successfully used as probes in Western blottingexperiments to verify the display of loop 4 peptide onthe surface of filamentous phage M13.     

Synthesis of amphiphilic tadpole-shaped linear-cyclic diblock copolymers via ring-opening polymerization directly initiating from cyclic precursors and their application as drug nanocarriers

We report on the facile synthesis of well-defined amphiphilic and thermoresponsive tadpole-shaped linear-cyclic diblock copolymers via ring-opening polymerization (ROP) directly initiating from cyclic precursors, their self-assembling behavior in aqueous solution, and the application of micellar assemblies as controlled release drug nanocarriers. Starting from a trifunctional core molecule containing alkynyl, hydroxyl, and bromine moieties, alkynyl-(OH)-Br, macrocyclic poly(N-isopropylacrylamide) (c-PNIPAM) bearing a single hydroxyl functionality was prepared by atom transfer radical polymerization (ATRP), the subsequent end group transformation into azide functionality, and finally the intramacromolecular ring closure reaction via click chemistry. The target amphiphilic tadpole-shaped linear-cyclic diblock copolymer, (c-PNIPAM)-b-PCL, was then synthesized via the ROP of ε-caprolactone (CL) by directly initiating from the cyclic precursor. In aqueous solution at 20 °C, (c-PNIPAM)-b-PCL self-assembles into spherical micelles consisting of hydrophobic PCL cores and well-solvated coronas of cyclic PNIPAM segments. For comparison, linear diblock copolymer with comparable molecular weight and composition, (l-PNIPAM)-b-PCL, was also synthesized. It was found that the thermoresponsive coronas of micelles self-assembled from (c-PNIPAM)-b-PCL exhibit thermoinduced collapse and aggregation at a lower critical thermal phase transition temperature (T(c)) compared with those of (l-PNIPAM)-b-PCL. Temperature-dependent drug release profiles from the two types of micelles of (c-PNIPAM)-b-PCL and (l-PNIPAM)-b-PCL loaded with doxorubicin (Dox) were measured, and the underlying mechanism for the observed difference in releasing properties was proposed. Moreover, MTT assays revealed that micelles of (c-PNIPAM)-b-PCL are almost noncytotoxic up to a concentration of 1.0 g/L, whereas at the same polymer concentration, micelles loaded with Dox lead to ～60% cell death. Overall, chain topologies of thermoresponsive block copolymers, that is, (c-PNIPAM)-b-PCL versus (l-PNIPAM)-b-PCL, play considerable effects on the self-assembling and thermal phase transition properties and their functions as controlled release drug nanocarriers.     

Disulfide bond polymerization of a cyclic peptide derived from the surface loop 4 of class 1 OMP of Neisseria meningitidis

Summary Two peptides derived from the surface loop 4 of class 1 Outer Membrane Protein (OMP) ofNeisseria meningitidis were synthesized on solid phase using the Boc/Bzl strategy: one containing the entire loop 4 cyclized and the other representing the polymerized cyclic loop 4. To test a more efficient cyclic peptide presentation, in the present study a strategy was developed to obtain polymers of cyclic peptides. In order to obtain the polymeric cyclic peptide, two protecting groups for cysteine were used — Acm and Mob. The Cys(Acm)-protected cyclic peptide was obtained after removing the Mob group. The polymerization reaction was carried out by simultaneous deprotection/oxidation ofS-Acm with iodine. Analysis of the polymeric cyclic peptide in Tris-tricine-SDS-PAGE showed different bands with molecular weights higher than expected for the corresponding monomeric cyclic peptide. Both peptides were used in immunization of four different mouse strains. The antisera raised against the peptides were evaluated by ELISA and Western blotting vs. OMP preparation ofN. meningitidis. The titers raised against the polymerized cyclic peptide were higher than the ones raised against the cyclic peptide. The antisera elicited did not show bactericidal activity. Nevertheless, the antisera elicited against the polymeric cyclic peptide in the CBA/J mouse strain showed opsonic activity. The antibodies raised against the polymeric cyclic peptide were successfully used as probes in Western blotting experiments to verify the display of loop 4 peptide on the surface of filamentous phage M13.     

Activation of actin polymerization by phosphatidic acid derived from phosphatidylcholine in IIC9 fibroblasts

alpha-Thrombin induced a change in the cell morphology of IIC9 fibroblasts from a semiround to an elongated form, accompanied by an increase in stress fibers. Incubation of the cells with phospholipase D (PLD) from Streptomyces chromofuscus and exogenous phosphatidic acid (PA) caused similar morphological changes, whereas platelet-derived growth factor (PDGF) and phorbol 12-myristate 13-acetate (PMA) induced different changes, e.g., disruption of stress fibers and cell rounding. alpha-Thrombin, PDGF, and exogenous PLD increased PA by 20-40%, and PMA produced a smaller increase. alpha-Thrombin and exogenous PLD produced rapid increases in the amount of filamentous actin (F-actin) that were sustained for at least 60 min. However, PDGF produced a transient increase of F-actin at 1 min and PMA caused no significant change. Dioctanoylglycerol was ineffective except at 50 micrograms/ml. Phospholipase C from Bacillus cereus, which increased diacylglycerol (DAG) but not PA, did not change F-actin content. Down-regulation of protein kinase C (PKC) did not block actin polymerization induced by alpha-thrombin. H-7 was also ineffective. Exogenous PA activated actin polymerization with a significant effect at 0.01 microgram/ml and a maximal increase at 1 microgram/ml. No other phospholipids tested, including polyphosphoinositides, significantly activated actin polymerization. PDGF partially inhibited PA-induced actin polymerization after an initial increase at 1 min. PMA completely or largely blocked actin polymerization induced by PA or PLD. These results show that PC-derived PA, but not DAG or PKC, activates actin polymerization in IIC9 fibroblasts, and indicate that PDGF and PMA have inhibitory effects on PA-induced actin polymerization.     

Trispyrazolylborate ligands as ancillary ligands in the development of single-site metal alkoxide catalysts for ring-opening polymerization of cyclic esters

The development of a new class of single-site metal alkoxide catalysts employing trispyrazolyl ligands is described where the metal ions are Mg(2+), Zn(2+) and Ca(2+). A particularly promising ligand for the kinetically labile Ca(2+) ion is tris[3(-2-methoxy-1,1-dimethylpyrazolyl)] hydroborate, Tp^C∗. This ligand is capable of being extremely flexible in its coordination modes and its coordination with various group 1 and 2 metal ions is described. The complexes Tp^C∗MI exist as salts [Tp^C∗M]⁺I⁻, where M = Mg and Ca, but Tp^C∗ZnI contains a four coordinate Zn(2+) center. The complexes Tp^C∗CaN(SiMe₃)₂ and Tp^C∗CaOC₆H₄-p-Me contain 5 and 7 coordinate Ca(2+) ions and serve as initiators for the ring-opening polymerization of lactide and ε-caprolactone. The compounds [Tp^C∗M]⁺[Tp^C∗]⁻, where M = Mg and Ca, exist as salts in the solid-state and in solution show exchange between coordinated and free Tp^C∗ ligands as determined by NMR spectroscopy.     

Tubulin polymerization inhibitors with a fluorinated phthalimide skeleton derived from thalidomide

4,7-Difluoro-2-(2,6-diisopropylphenyl)-1H-isoindole-1,3-dione [4,7FPP-33 (14)] has a potent tubulin-polymerization-inhibiting activity comparable with those of the known tubulin-polymerization inhibitors rhizoxin and colchicine. The structure-activity relationship for fluorine substitution was elucidated.     

Living ring-opening polymerization of a carbohydrate-derived lactone for the synthesis of protein-resistant biomaterials

An efficient living ring-opening polymerization (ROP) of a permethoxylated epsilon-caprolactone [(OMe)CL] catalyzed by yttrium(III) isopropoxide was developed for the synthesis of degradable protein-resistant polymers [P(OMe)CL]. The lactone monomer was efficiently prepared from a reduced sugar, D-dulcitol. Kinetic studies of the ROP revealed a linear dependence of ln[M]0/[M] on polymerization time as well as a linear correlation between the number-averaged molecular weight (M(n)) and monomer conversion; both support it is a living polymerization. A series of block copolymers of our permethoxylated lactone with epsilon-caprolactone [P(OMe)CL-b-PCL] were synthesized and fully characterized. In thermal analyses only single T(g)s were observed in all the block copolymers, suggesting that P(OMe)CL and PCL blocks are fully miscible. Finally, surface plasmon resonance (SPR) sensograms demonstrated that both P(OMe)CL and the P(OMe)CL-b-PCL block copolymers exhibit excellent resistance to fibrinogen and lysozyme.     

A cyclic carbonate and related polyketides from a marine-derived fungus of the genus Phoma

Two metabolites, phomoxin and phomoxide, as well as the previously synthesized antibiotic eupenoxide, have been isolated from the fermentation broth of a marine-derived fungus of the genus Phoma (strain CNC-651). The new compounds are highly oxygenated polyketides of a new structural class. Phomoxin contains an unusual cyclic carbonate functionality that is rare among natural products. The structures of the new metabolites were assigned by spectroscopic methods that relied heavily on 2D NMR spectroscopic analysis.     

Optical and electrochemical detection of saccharides with poly(aniline-co-3-aminobenzeneboronic acid) prepared from enzymatic polymerization

Boronic acid-based sensors for saccharides have been developed via biocatalysis. The self-doped copolymer of poly(aniline-co-3-aminobenzeneboronic acid) [poly(aniline-co-AB)], with various mole ratios of two components, was synthesized by oxidative enzymatic polymerization using a natural biocatalyst such as horseradish peroxidase together with an anionic polyelectrolyte template (sulfonated polystyrene) under mild conditions (pH 4.5). Poly(aniline-co-AB), having an aniline boronic acid-to-aniline ratio of 1:2 on average, gave rise to a green doped polymer with absorption maxima at 745 nm. The potentiometric detection of saccharides using poly(aniline-co-AB) is presented. Characteristics of both transient and steady-state response associated with the complex formation of poly(aniline-co-AB) with various saccharides were monitored by UV-vis spectroscopy and cyclic voltammetry (CV). The results obtained from UV-vis spectroscopy and CV show that the sensitivity of enzymatically synthesized water-soluble poly(aniline-co-AB) for various saccharides was improved significantly compared to the chemically synthesized counterpart. A possible mechanism for the sensitive detection of sugar molecules by boronic acid is proposed on the basis of UV-vis and IR spectrophotometry, and four-point probe conductivity measurements.