Dextran–estrone conjugate: synthesis and in vitro release study

A novel hormone conjugate has been prepared by a coupling reaction between modified estrone and dextran. In order to provide a suitable reactive estrone derivative for coupling with dextran and a spacer between the drug carrier and the hormone, the steroidal sex hormone was succinylated by reaction with succinic anhydride. Subsequently, the carboxylic acid terminal of succinylated estrone was further reacted with thionyl chloride to replace the hydroxy group with chlorine to make a better leaving group. The ester bond was employed as labile linkage between the hormone and the biopolymer carrier backbone so that the coupled estrogen could be released from the conjugate via ester hydrolysis. Structures of the modified estrone and dextran–estrone conjugate were determined by elemental analysis and by FTIR, ¹H and ¹³C NMR spectroscopies. The degree of substitution (D.S.) per anhydroglucose (AHG) unit was 0.33 (11.0 mol-% of estrone moieties), as calculated from the ¹H NMR spectrum. In vitro hydrolysis of the conjugate in aqueous phosphate buffer/ethanol solutions at pH 8.0 and 7.4 and 37°C released estrone was completed within a few days and followed zero-order kinetics.     

Starch derivatives of high degree of functionalization. 1. Effective, homogeneous synthesis of p-toluenesulfonyl (tosyl) starch with a new functionalization pattern

Pure p-toluenesulfonyl (tosyl) starch with an insignificant formation of chlorodeoxy groups was prepared by reacting starch dissolved in the solvent system N,N-dimethyl acetamide in combination with LiCl. Interestingly, the viscosity of the starch dissolved in the solvent system increases with the increasing amount of LiCl. The tosyl starch samples obtained were characterized by means of elemental analysis, FITR and ¹³C NMR spectroscopy. The degree of substitution (DS_Tos) of the products can be controlled in range from 0.4 to 2.0 by adjusting the molar ratio of tosyl chloride per anhydroglucose unit up to 6.0 mol/mol. The tosyl starch samples are readily soluble in various organic solvents. As revealed by means of ¹³C NMR analysis as well as by analysis of the corresponding 6-iodo-6-deoxy derivatives, a faster tosylation at position 2 than at positions 6 and 3 takes place. The thermal stability of tosyl starch increases with increasing DS_Tos and degradation starts at 166°C for the sample of DS_Tos of 0.61. The remaining OH groups of tosyl starch are reactive and can be additionally modified by acetylation reactions.     

NMR studies on the solution structure of a deletion mutant of the transcarboxylase biotin carrier subunit

A deletion mutant of the transcarboxylase biotin carrier protein was completely labeled with ¹³C and ¹⁵N. A multitude of 2D and 3D NMR spectra were recorded and assigned. An NMR solution structure was derived from the data and compared in detail with the recently published structure of the wild-type. It is shown that deletion of 30% of the amino acids does not alter the structure of the rigid protein core.     

Anaerobic/Aerobic Composting of Soil Contaminated with 2,4,6-Trinitrotoluene

A loam soil from Pennsylvania without a history of exposure to explosives was incubated with 5 g kg^-1 of ¹⁵N-labeled 2,4,6-trinitrotoluene (TNT) and 200 μCi kg^-1 of ¹⁴C-TNT for 3 days and then amended with compost at a 1:2 soil to compost ratio. The compost was prepared by mixing 40% alfalfa hay, 40% grass hay, 10% spent mushroom compost, and 10% municipal biosolids. The mixture of soil and compost was inoculated with methanogens from cattle manure, amended with glucose and starch, and incubated for 37 days under anaerobic conditions. The anaerobic incubation was followed by 26 days of forced aerobic incubation. At the end of the aerobic phase, most of the radioactivity was associated with organic matter; only 8.7% could be extracted with water and methanol, but no TNT was present in the extracts as determined by high-performance liquid chromatography. The unextractable radioactivity was associated with humic acid (40.0±1.0%), fulvic acid (14.3±1.4%), and humin (28.2±0.5%). Radioactive materials associated with humic acid and humin were analyzed by solid-state ¹⁵N-nuclear magnetic resonance (NMR) spectrometry. The NMR spectra indicated that nitro groups of TNT had been reduced to amino groups thatwere subsequently involved in the formation of covalent bonds with soil organic matter.     

Comparison of the glycosaminoglycans isolated from the skin and head cartilage of Gould's arrow squid (Nototodarus gouldi)

The glycosaminoglycans from the skin and head cartilage of the squid Nototodarus gouldi have been isolated and characterised by constituent disaccharide and neutral sugar analysis, ¹³C nuclear magnetic resonance (NMR) spectroscopy, anion exchange and size exclusion chromatography. The glycosaminoglycans from both tissues are chondroitin sulphate species. The skin consists principally of unsulphated but relatively highly glycosylated material. The chondroitin sulphate from the head cartilage is more highly sulphated, predominantly C-4,6diS (chondroitin sulphate E), with a higher molecular weight than the skin derived material but somewhat less highly glycosylated. To provide a standard for the assignment of the ¹³C NMR spectrum, C-4,6diS was chemically prepared from bovine tracheal chondroitin sulphate. This showed that it is not possible to distinguish between a mixture of the monosulphates, C-4S and C-6S, and the C-4,6diS by one-dimensional and simple two-dimensional ¹³C NMR techniques.     

Succinoylation of sago starch in the N,N-dimethylacetamide/lithium chloride system

The modification reaction of sago starch with succinic anhydride (SA) using pyridine (PY) and/or 4-dimethyaminopyridine (DMAP) as catalyst and N,N-dimethylacetamide (DMA)/lithium chloride (LiCl) system as solvent was studied. A series of succinylated starch derivatives were prepared with a degree of substitution (DS) ranging from 0.14 to 1.54. The structure of the resulting polymers determined by means of ¹³C NMR spectroscopy indicated that substitution preferably occurs at the C₂ and C₆ hydroxyl groups. The thermal stability of the material was decreased by chemical modification. Effects of reactant molar ratio, reaction time, and the concentrations of DMAP and LiCl on the reaction efficiency are discussed.     

Molecular dynamics of N,N′-di-p-fluorophenyltriazenido complex of platinum (II)

The triazenide complex of Pt(II) trans-(o-Tol)Pt(PEt₃)₂N₃Ar₂(1) (Ar = p-FC₆H₄) was synthesized by reaction of (o-Tol)Pt(PEt₃)₂BF₄ with Ar₂N₃Na. The ¹H, ¹⁹F and ³¹P NMR spectra of this complex in toluene-d₈ were studied at different temperatures. Two kinds of dynamic processes were observed. The first one is the intramolecular N,N′ migration of the (o-Tol)Pt(PEt₃)₂ group, detected by ¹⁹F NMR. The second process, revealed by ¹H, ¹⁹P NMR, is the rotation around the partially double N(2)–N(3) bond. Thermodynamic parameters for these processes were calculated from dynamic NMR spectra.     

Synthesis, solution behaviour and molecular structures of 16-electron closo-2-(Ph3P)-1-N,2-[μ-(η-CH2CH=Ch2)]-1-N-(σ-CH2CH=CH2)-2,1- RhCB10H10, the first η-olefinic monocarbon metallacarborane

The first η²-olefinic monocarbon metallacarbone closo-2-(Ph₃P)-1-N,2-[μ-(η²-CH₂CH=Ch₂)]-1-N-(σ-CH₂CH=CH₂)-2,1- RhCB₁₀H₁₀ has been prepared by the reaction of the dimeric anion {[Ph₃PRhB₁₀H₁₀CNH₂]₂-μ-H}⁻[PPN]⁺ with allyl bromide and characterized by a combination of spectroscopic methods and a single-crystal X-ray diffraction study. The variable temperature ¹H and ¹³C NMR studies revealed the fluxional behavior of the η²-olefinic complex in CD₂Cl₂ solution which is associated with the allyl side-chain exchange process.     

Selective conversion by microglia of dehydroepiandrosterone to 5-androstenediol-A steroid with inherent estrogenic properties

The well-established neuroprotective effect of dehydroepiandrosterone (DHEA) has been attributed to its metabolism in the brain to provide estrogens known to be neuroprotective and to enhance memory and learning in humans and animals. However, our previous work showed that the conversion of DHEA to 4-androstenedione (AD), the precursor of estrone (E₁) and estradiol (E₂), is very low in several different types of neural cells, and that the main product is 7-hydroxy-DHEA (7-OH-DHEA). In this study, we found that microglia are an exception and produce mainly 5-androstene-3β,17β-diol (Δ⁵-Adiol), a C₁₉ steroid with estrogen-like activity from DHEA. Virtually, no other products, including testosterone (T) were detected by TLC or HPLC in incubations of ³H-labeled DHEA with the BV2 microglial cell line. Microglia are important brain cells that are thought to play a house-keeping role during the steady state, and that are crucial to the brain's immune reaction to injury and the healing process. Our findings suggest that the microglia-produced Δ⁵-Adiol might have a role in modulating estrogen-sensitive neuroplastic events in the brain, in the absence of adequate local synthesis of estrone and estradiol.     

Design and construction of novel molecular conjugates for signal amplification (II): use of multivalent polystyrene microparticles and lysine peptide chains to generate immunoglobulin-horseradish peroxidase conjugates

Spherical polystyrene microparticles expressing a large number of highly reactive functional groups were chemically engineered to generate antibody–enzyme conjugates as novel signal amplification systems. Chemically modified goat anti-human IgG and horseradish peroxidase (HRP) were combined in a 1:5 ratio and attached to 0.44 μm streptavidin microparticles or N-succinimidyl-S-acetylthioacetate (SATA)-activated 0.29 μm amino microparticles with highly reactive free sulfhydryl groups on their surface. The numbers of HRP molecules/microparticle were further increased by coupling HRP to primary amines on N-terminal biotinylated or bromoacetylated polypeptides containing 20 lysine residues prior to conjugation with streptavidin or sulfhydryl groups-containing microparticles. The antibody–poly-HRP immunoconjugates contained an estimated number of 10⁵ HRP/streptavidin microparticle and 10⁶ HRP/amino microparticle, respectively. These microparticle immunoconjugates efficiently bound to plasma anti-HIV-1 antibodies that had been captured by HIV antigens on 5 μm carboxyl magnetic microparticles and, upon reaction with orthophenyldiamine substrate, produced a detection signal with 5–8 times more sensitivity as compared to conventional HRP-conjugated goat anti-human IgG. The signal amplification technique by microparticle immunoconjugates may provide potentially novel tools for the development of highly sensitive diagnostic systems.     

Reaction of para-hydroxybenzoic acid esters with singlet oxygen in the presence of glutathione produces glutathione conjugates of hydroquinone, potent inducers of oxidative stress

The determination and toxicological characterization of products of the reaction between p-hydroxybenzoic acid esters (parabens) and singlet oxygen (¹O₂) are very important because of the frequent use of parabens in cosmetics and possible generation of ¹O₂ in the skin. We observed ¹O₂-dependent production of mono-, di-, and tri-substituted glutathione (GSH) conjugates of hydroquinone (HQ) during visible light-irradiation of a mixture of methyl or ethyl paraben and GSH in the presence of rose bengal (RB). 1,4-Benzoquinone (BQ) and HQ were produced during the irradiation in the absence of GSH. While a mixture of BQ and GSH produced only mono-substituted conjugate, irradiation of the mixture with RB produced mono-, di-, and tri-substituted conjugates. These observations indicate that ¹O₂ is involved both in the production of BQ and HQ from parabens and in the formation of multi-substituted GSH conjugates from mono-substituted conjugate. Tri-substituted conjugate generated larger amounts of hydrogen peroxide in an aqueous solution than mono-substituted conjugates or HQ did. Detection of semiquinone radical suggests that the autoxidation of conjugates is related to the generation of hydrogen peroxide. The results obtained in this study indicate that parabens may induce oxidative stress in the skin after conversion to GSH conjugates of HQ by reacting with ¹O₂ and GSH.     

Synthesis and antitumor activity of arginine–glucosamine conjugate

Using d-glucosamine hydrochloride (GlcNH₂·HCl) as starting material, a new amino acid sugar conjugate, arginine–glucosamine (Arg–GlcNH₂), was synthesized and characterized by infrared spectroscopy, ¹³C NMR and element analysis. Its cytotoxicity in vitro was evaluated by MTT assay. The inhibition ratio against human hepatoma cell SMMC-7721 was higher than that of GlcNH₂·HCl. This effect was accompanied by a marked increase in the proportion of S cells as analyzed by flow cytometry. In addition, SMMC-7721 cells treated with Arg–GlcNH₂ resulted in the induction of apoptosis as assayed qualitatively by agarose gel electrophoresis. The manner of Arg–GlcNH₂ cytocidal activity was concluded to be apoptosis.     

Rationally designed PKA inhibitors for positron emission tomography: Synthesis and cerebral biodistribution of N-(2-(4-bromocinnamylamino)ethyl)-N-[11C]methyl-isoquinoline-5-sulfonamide

Protein kinase A (PKA) is an important signal transduction target for drug development because it influences critical cellular processes implicated in neuropsychiatric illnesses such as major depressive disorder. The goal of the present study was to develop the first imaging agent for measuring the levels of PKA with positron emission tomography (PET). By rational derivatization of 5-isoquinoline sulfonamides, it was found that the introduction of a methyl group to the sulphonamidic nitrogen on the known PKA inhibitors N-(2-aminoethyl)isoquinoline-5-sulfonamide (H-9, 1) and N-(2-(4-bromocinnamylamino)ethyl)isoquinoline-5-sulfonamide (H-89, 2), (yielding N-(2-aminoethyl)-N-methyl-isoquinoline-5-sulfonamide (4) and N-(2-(4-bromocinnamylamino)ethyl)-N-methyl-isoquinoline-5-sulfonamide (5), respectively) does not appreciably reduce in vitro potency toward PKA. We have facilitated the synthesis of 4 by reacting isoquinoline-5-sulfonyl chloride with N-methylethylenediamine (20% yield). Several techniques were used to thoroughly characterize 4 including multi (¹H, ¹³C and ¹⁵N) NMR spectroscopy and X-ray crystallography. Compound 4 and 1-(4-bromophenyl)-1-propen-3-yl bromide were reacted to produce 5 in 16% yield. Compound 2 was reacted with [¹¹C]CH₃I to prepare N-(2-(4-bromocinnamylamino) ethyl)-N-[¹¹C]methyl-isoquinoline-5-sulfonamide ([¹¹C]5), with a decay-corrected radiochemical yield of 32%, based on [¹¹C]CO₂. [¹¹C]5 was produced with >98% radiochemical purity and 1130 mCi/μmol specific activity after 40 min (end of synthesis). Conscious rats were administered [¹¹C] 5 and sacrificed at 5, 15, 30 and 60 min after injection. Radioactivity from all excised brain regions was <0.2%ID/g at all time points. The modest brain penetration of [¹¹C]5 may limit its use for studying PKA in the central nervous system.     

A study of ordered structure in acid-modified tapioca starch by C CP/MAS solid-state NMR

Acid modification of tapioca starch earlier reported to increase the mechanical strength of tablets. The development of ordered structure (double helices) of these starches was monitored after equilibrating at 0.90 a_w (25 °C) using ¹³C CP/MAS NMR and X-ray diffraction. As the hydrolysis time increased, the intensity of the resonance for C1 and C4 amorphous fractions decreased while that for C1 and C4 double helix fractions increased. Relative crystallinity (%) obtained from ¹³C CP/MAS NMR and X-ray diffraction methods both increased sharply initially and then levelled off with hydrolysis time. The initial increase in relative double helix content and crystallinity was due to a hydrolytic destruction in the amorphous domain, retrogradation of the partially hydrolyzed amylose and crystallization of free amylopectin double helices. After 192 h, these two parameters were not significantly different (=0.05) indicating that the double helices that were not arranged into crystalline regions either had been hydrolyzed or crystallized.     

Coordination of a disubstituted alkene in a chelated d-metal-alkyl-alkene complex. Evidence for equilibrium between complexes with coordinated and free alkenes

Addition of (Cp*₂YH)₂ (4) to 2-methyl-1,4-pentadiene produced the yttrium-alkyl-alkene chelate complex Cp*₂YCH₂CH₂CH₂C(CH₃)=CH₂ (2) in which a disubstituted alkene is complexed to the metal center. Evidence for coordination of the alkene unit of 2 comes from the ¹H and ¹³C NMR chemical shifts of the vinyl units and from observation of nOe effects between Cp* protons and vinyl hydrogens. The disubstituted alkene ligand of 2 is weakly bound, and evidence for an equilibrium with substantial amounts of complex 3 with a free alkene was obtained from variable temperature ¹H NMR spectroscopy.     

Pullulans produced by strains of Cryphonectria parasitica—II. Nuclear magnetic resonance evidence

The structure of pullullan-like polysaccharides produced as exocellular material by different strains of Cryphonectria parasitica, the fungus responsible for chestnut tree cankers, was investigated with nuclear magnetic resonance (NMR) techniques. ¹³C, mono- and bidimensional ¹H, and ¹H–¹³C heteronuclear correlated NMR spectra (HSQC and HMBC) were recorded. Advanced analysis of the NMR spectra allowed the main resonance of the atoms in the maltotriose and in the maltotetraose repeat units of pullulan-like polysaccharides from C. parasitica to be recognised with confidence. In all cases investigated, the presence of large amounts of -(1→6) maltotetraose subunits was evidenced, in addition to the -(1→6) maltotriose subunits, corresponding to the repeating unit of pullulan produced by Aureobasidium pullulans and other fungi. The results were in agreement with other data from this laboratory, obtained with independent techniques. The belief that in ‘pullulans’ the maximum amount of -(1→6) maltotetraose subunits is about 7% can thus be considered as definitely outdated.     

Equilibrium and structure of thallium(III)–ethylenediamine complexes in pyridine solution and in solid

The formation of three [Tl(en)_n]³⁺ complexes (n=1–3) in a pyridine solvent has been established by means of ²⁰⁵Tl and ¹H NMR. Their stepwise stability constants based on concentrations, K_n=[Tl(en)_n ³⁺]/{[Tl(en)_n−1 ³⁺]·[en]}, at 298 K in 0.5 M NaClO₄ ionic medium in pyridine, were calculated from ²⁰⁵Tl NMR integrals: log K₁=7.6±0.7; log K₂=5.2±0.5 and log K₃=2.64±0.05. Linear correlation between both the ²⁰⁵Tl NMR shifts and spin–spin coupling ²⁰⁵Tl–¹H versus the stability constants has been found and discussed. A single crystal with the composition [Tl(en)₃](ClO₄)₃ was synthesized and its structure determined by X-ray diffraction. The Tl³⁺ ion is coordinated by three ethylenediamine ligands via six N-donor atoms in a distorted octahedral fashion.     

Synthesis and characterization of a dianionic carbohydrate-based phospholipid

A novel carbohydrate-based phospholipid containing a phosphatidic acid head group, bis-(2,3-lauroyl)-1-methoxy-5-ribo-phosphatidic acid (DLRPA), was synthesized and characterized by ¹H NMR, ¹³C NMR, and ³¹P NMR. This molecule is an analog of dilauroyl phosphatidic acid (DLPA). The T_m of DLRPA decreases with increasing pH in a similar pattern to DLPA, as determined by MDSC. From this thermotropic behavior, the apparent pK_as of DLRPA are estimated to be 4 and 8.     

The influence of various small plasticisers and malto-oligosaccharides on the retrogradation of (partly) gelatinised starch

Ageing of gelatinised and partly gelatinised potato starch and wheat starch were investigated in the presence of plasticisers with increasing size and number of OH groups (ethylene glycol, glycerol, threitol, xylitol, glucose, and for potato starch also maltose). The influences of these plasticisers and of granular remnants (ghosts) on recrystallisation were determined by using X-ray diffraction. Recrystallisation of potato starch samples in the presence of plasticisers resulted in crystallinity indices of 0.5. The largest reduction in potato starch recrystallisation is found for threitol (4 OH) and xylitol (5 OH). In the plasticiser range examined, the crystallisation inducing effect of granular potato starch remnants is reduced better when the plasticiser contains more OH groups. Wheat starch recrystallises to a lesser extent than potato starch, resulting in crystallinity indices of 0.4. The results for wheat starch do not show clear trends for the influences of plasticiser size and of ghosts. The difference in behaviour of the two starches is probably caused by wheat starch having shorter amylopectin chains. Resulting from these shorter amylopectin chains, the remaining structure in wheat starch ghosts may resemble A-type crystallinity, making it more difficult to form B-type crystals. Alternatively, the trends as found for potato starch may occur, but are less manifest for wheat starch, due to the lower total extent of recrystallisation. Solid state CP/MAS NMR spectra of the wheat starch samples containing ethylene glycol were obtained, in order to compare completely and partly gelatinised systems. The spectra were identical, confirming that the ghost structures do not influence wheat starch recrystallisation. Apparently, wheat starch ghosts do not act as nuclei for crystallisation.

Similarly, the influence of various malto-oligosaccharides in combination with granular remnants (ghosts) was investigated on wheat starch ageing. Gelatinised and partly gelatinised wheat starch were plasticised with maltose, maltotriose, maltotetraose, maltopentaose or maltohexaose. This resulted in crystallinity indices of 0.2, with the largest reduction in recrystallisation for maltotriose and maltotetraose. No trend was found for the influence of ghosts. The presence of ghosts did not influence the ¹³C solid state HP/DEC NMR spectra. Less recrystallisation took place than with the previously mentioned smaller plasticisers that resulted in crystallinity indices of 0.4. The finding that maltose was able to reduce retrogradation better than glucose could be of practical importance.     

Photosynthetic CO2 fixation by chloroplast populations isolated by a polymer two-phase technique

Preparations of spinach chloroplasts, essentially free from contamination by other cellular material or whole cells, incorporated ¹⁴C almost entirely into glycolate, a polyglucan (probably starch) and intermediates of the Calvin cycle and starch synthesis. About 70% of the ¹⁴C was found in dihydroxyacetone phosphate, 3-phosphoglycerate and glycolate. Only small amounts were found in sucrose and amino acids.

On the other hand, preparations consisting of particles containing chloroplasts surrounded by a membrane-bound cytoplasmic layer including mitochondria and microbodies, gave a much broader spectrum of ¹⁴C-labelled products. Much less of the ¹⁴C was found in dihydroxyacetone phosphate and 3-phosphoglycerate. Instead, sucrose, malate, aspartate, alanine and some other amino acids contained about 40% of the ¹⁴C incorporated. It is concluded that sucrose is synthesized by cooperation between the chloroplast and the surrounding layer.