fumarates and diethyl-fumarate

Psoriasis is an autoimmune disease affecting 2-4% of the Caucasian population. Inflammatory processes induce the migration of interferon (IFN) gamma producing Th1 lymphocytes into the skin. These play a key role in the pathogenesis of psoriasis. These Th1 lymphocytes are responsible for the pathological reactions in psoriatic skin leading to keratinocyte hyperproliferation, small vessel proliferation and neutrophilic infiltration. Antigen-presenting cells activate dermal CD4+ T lymphocytes, and various signals can support the polarization of Th1 responses. The main signal for Th1 development is interleukin (IL) 12. After binding to their receptors both IL-12 and IFN-gamma promote intracellular IFN-gamma production by activating signal transducer and activator of transcription (STAT) 4 or 1. STAT1 activation by IFN-gamma is followed by T-bet activation, a master transcription factor for Th1 lymphocytes. In experimental models of Th1-mediated autoimmune diseases immune deviation of polarized autoreactive Th1 into anti-inflammatory Th2 responses generally improves the disease. Therefore new therapeutic approaches based on immunomodulating molecules have been developed for psoriasis, a prototypical Th1-mediated autoimmune disorder. Recently IL-4, the most effective Th2-inducing cytokine, has been shown to be safe and efficient for treating psoriasis. Improvement was associated with the induction of a Th2 phenotype of skin infiltrating lymphocytes. This review summarizes the IL-4 inducing potential of various conventional and newer systemic therapies for psoriasis. Many of these were thought to be primarily immunosuppressive. A review of the literature reveals that most of them can induce IL-4 and Th2, and that Th2 induction may be an underestimated mode of action in the therapy of Th1-mediated autoimmune disease. Further studies are needed to determine the central role of IL-4 in the control of Th1-induced autoimmune disease, namely psoriasis.

Topics: Cholecalciferol; Cyclosporine; Cytokines; Fumarates; Humans; Inflammation Mediators; Interleukin-4; Methotrexate; Phototherapy; Psoriasis; Th1 Cells; Th2 Cells; Vitamin A

In 12 healthy volunteers the topical application of monoethyl fumarate caused a spontaneous persistent erythema. Systemic application induced flush. In urticaria pigmentosa the influence was significant higher than in normal skin. This fact suggests a mast cell degranulation caused by monoethyl fumarate.

Topics: Administration, Oral; Adolescent; Adult; Aged; Cell Degranulation; Drug Hypersensitivity; Female; Fumarates; Humans; Male; Mast Cells; Middle Aged; Patch Tests; Randomized Controlled Trials as Topic; Skin Tests

Common copathogenic factors, including oxidative stress and neuroinflammation, are found to play a vital role in the development of neurodegenerative disorders, including Alzheimer's disease (AD) and Parkinson's disease (PD). Nowadays, owing to the multifactorial character of the diseases, no effective therapies are available, thus underlying the need for new strategies. Overexpression of the enzyme GSK-3β and downregulation of the Nrf2/ARE pathway are responsible for a decrease in antioxidant defense effects. These pieces of evidence underline the usefulness of dual GSK-3β inhibitors/Nrf2 inducers. In this regard, to design a dual modulator, the structures of a curcumin-based analogue, as GSK-3β inhibitor, and a diethyl fumarate fragment, as Nrf2 inducer, were combined. Among the hybrids,

Topics: Animals; Caenorhabditis elegans; Curcumin; Fumarates; Glycogen Synthase Kinase 3 beta; NF-E2-Related Factor 2; Parkinson Disease

The role of 3D printing in the biomedical field is growing. In this context, photocrosslink-based 3D printing procedures for resorbable polymers stand out. Despite much work, more studies are needed on photocuring stereochemistry, new resin additives, new polymers and resin components. As part of these studies it is vital to present the logic used to optimize the amount of each resin constituent and how that effects printing process parameters. The present manuscript aims to analyze the effects of poly(propylene fumarate) (PPF) resin components and their effect on 3D printing process parameters. Diethyl fumarate (DEF), bisacylphosphine oxide (BAPO), Irgacure 784, 2-hydroxy-4-methoxybenzophenone (HMB) and, for the first time, in biomedical 3D printing, ethyl acetate (EA), were the resin components under investigation in this study. Regarding printing process parameters, Exposure Time, Voxel Depth, and Overcuring Depth were the parameters studied. Taguchi Design of Experiments was used to search for the effect of varying these resin constituent concentrations and 3D printing parameters on the curing behavior of 3D printable PPF resins. Our results indicate that resins with higher polymer cross-link density, especially those with a higher content of PPF, are able to be printed at higher voxel depth and with greater success (i.e., high yield). High voxel depth, as long as it does not sacrifice required resolution, is desirable as it speeds printing. Nevertheless, the overall process is governed by the correct setup of the voxel depth in relation to overcuring depth. In regards to resin biocompatibility, it was observed that EA is more effective than DEF, the material we had previously relied on. Our preliminary in vitro cytotoxicity tests indicate that the use of EA does not reduce scaffold biocompatibility as measured by standard cytotoxicity testing (i.e., ISO 10993-5). We demonstrate a workpath for resin constituent concentration optimization through thin film tests and photocrosslinkable process optimization. STATEMENT OF SIGNIFICANCE: We report here the results of a study of photo-crosslinkable polymer resin component optimization for the 3D printing of resorbable poly(propylene fumarate) (PPF) scaffolds. Resin additives are initially optimized for PPF thin film printing. Once those parameters have been optimized the 3D printing process parameters for PPF objects with complex, porous shapes can be optimized. The design of experiments to optimize both pol

Topics: Biocompatible Materials; Cross-Linking Reagents; Fumarates; Photochemical Processes; Polypropylenes; Printing, Three-Dimensional

We demonstrate high-resolution photocross-linking of biodegradable poly(propylene fumarate) (PPF) and diethyl fumarate (DEF) using UV excimer laser photocuring at 308 nm. The curing depth can be tuned in a micrometre range by adjusting the total energy dose (total fluence). Young's moduli of the scaffolds are found to be a few gigapascal, high enough to support bone formation. The results presented here demonstrate that the proposed technique is an excellent tool for the fabrication of stiff and biocompatible structures on a micrometre scale with defined patterns of high resolution in all three spatial dimensions. Using UV laser photocuring at 308 nm will significantly improve the speed of rapid prototyping of biocompatible and biodegradable polymer scaffolds and enables its production in a few seconds, providing high lateral and horizontal resolution. This short timescale is indeed a tremendous asset that will enable a more efficient translation of technology to clinical applications. Preliminary cell tests proved that PPF : DEF scaffolds produced by excimer laser photocuring are biocompatible and, therefore, are promising candidates to be applied in tissue engineering and regenerative medicine.

Topics: Biocompatible Materials; Biomechanical Phenomena; Cell Line, Tumor; Cross-Linking Reagents; Fumarates; Humans; Lasers; Materials Testing; Microscopy, Electron, Scanning; Photochemical Processes; Polymerization; Polypropylenes; Spectrophotometry, Ultraviolet

Bony defects have been three-dimensionally (3D) created in many clinical circumstances; however, many defects cannot be reconstructed because most of the current bony substitutes cannot provide the necessary exact 3D structure. Therefore, to overcome this limitation, a 3D scaffold with embedded growth factor-delivering microspheres was developed by solid free-form fabrication (SFF) technology using computer-aided design/manufacturing (CAD/CAM). In this study, BMP-2-loaded poly(DL-lactic-co-glycolic acid) (PLGA) microspheres were incorporated into a 3D scaffold that was fabricated using a microstereolithography (MSTL) system with a suspension of microspheres and a poly(propylene fumarate) (PPF)/diethyl fumarate (DEF) photopolymer. By measuring release profiles in vitro, we verified that the fabricated microsphere-containing 3D scaffold could gradually release growth factor. The effects of BMP-2 were also assessed in vitro by observing cell differentiation using MC3T3-E1 pre-osteoblasts. Finally, we confirmed that SFF scaffolds created by MSTL were superior to traditional scaffolds produced using a particulate leaching/gas foaming method. In addition, based on in vivo tests, the scaffolds that released BMP-2 promoted bone formation. Based on these results, we concluded that our 3D scaffold might be a useful tool for enhancing reconstruction quality in many complex bony defects that should be reconstructed using a customized 3D scaffold.

Topics: Animals; Bone Regeneration; Cell Differentiation; Cell Line; Cell Survival; Fumarates; Lactic Acid; Microspheres; Polyglycolic Acid; Polylactic Acid-Polyglycolic Acid Copolymer; Polypropylenes; Rats; Rats, Wistar; Tissue Engineering

Scaffold design parameters, especially physical construction factors such as mechanical stiffness of substrate materials, pore size of 3D porous scaffolds, and channel geometry, are known to influence the osteogenic signal expression and subsequent differentiation of a transplanted cell population. In this study of photocrosslinked poly(propylene fumarate) (PPF) and diethyl fumarate (DEF) scaffolds, the effect of DEF incorporation ratio and pore size on the osteogenic signal expression of rat bone marrow stromal cells (BMSCs) was investigated. Results demonstrated that DEF concentrations and pore sizes that led to increased scaffold mechanical stiffness also upregulated osteogenic signal expression, including bone morphogenic protein-2 (BMP-2), fibroblast growth factors-2 (FGF-2), transforming growth factor-β1 (TGF-β1), vascular endothelial growth factor (VEGF), and Runx2 transcriptional factor. Similar scaffold fabrication parameters supported rapid BMSC osteoblastic differentiation, as demonstrated by increased alkaline phosphatase (ALP) and osteocalcin expression. When scaffolds with random architecture, fabricated by porogen leaching, were compared to those with controlled architecture, fabricated by stereolithography (SLA), results showed that SLA scaffolds with the highly permeable and porous channels also have significantly higher expression of FGF-2, TGF-β1, and VEGF. Subsequent ALP expression and osteopontin secretion were also significantly increased in SLA scaffolds. Based upon these results, we conclude that scaffold properties provided by additive manufacturing techniques such as SLA fabrication, particularly increased mechanical stiffness and high permeability, may stimulate dramatic BMSC responses that promote rapid bone tissue regeneration.

Topics: Animals; Bone Marrow Cells; Cells, Cultured; Fumarates; Male; Osteogenesis; Polypropylenes; Porosity; Rats; Rats, Wistar; Stromal Cells; Tissue Scaffolds

We report the synthesis and characterization of a variety of trans-3,4-substituted cyclopentanones and the corresponding tosylhydrazone derivatives starting with diethyl fumarate. Protection of the keto group followed by selective monohydrolysis of esters was achieved, resulting in cyclopentanones with different substituents at positions 3 and 4. The tosylhydrazone derivative of each cyclopentanone intermediate was prepared in moderate to good yields. These compounds are potential precursors for functionalized methanofullerenes.

Topics: Cyclopentanes; Fumarates; Hydrolysis

The reactivity of various vinyl ethers and vinyloxy derivatives of ribose in the presence of diethyl fumarate or diethyl maleate was investigated for evaluating the potential of donor-acceptor-type copolymerization applied to unsaturated monomers derived from renewable feedstock. The photochemically induced polymerization of model monomer blends in the bulk state was monitored by infrared spectroscopy. The method allowed us to examine the influence of monomer pair structure on the kinetic profiles. The simultaneous consumption of both monomers was observed, supporting an alternating copolymerization mechanism. A lower reactivity of the blends containing maleates compared with fumarates was confirmed. The obtained kinetic data revealed a general correlation between the initial polymerization rate and the Hansen parameter δ(H) associated with the H-bonding aptitude of the donor monomer.

Topics: Free Radicals; Fumarates; Maleates; Polymerization; Polymers; Polyvinyl Chloride; Ribose; Spectroscopy, Fourier Transform Infrared; Ultraviolet Rays; Vinyl Compounds

A practical method for the multigram scale selective cis-dihydroxylation of electron deficient alkenes such as diethyl fumarate and N-alkyl and N-aryl-maleimides using H(2)O(2) is described. High turnovers (>1000) can be achieved with this efficient manganese based catalyst system, prepared in situ from a manganese salt, pyridine-2-carboxylic acid, a ketone and a base, under ambient conditions. Under optimized conditions, for diethyl fumarate at least 1000 turnovers could be achieved with only 1.5 equiv. of H(2)O(2) with d/l-diethyl tartrate (cis-diol product) as the sole product. For electron rich alkenes, such as cis-cyclooctene, this catalyst provides for efficient epoxidation.

Topics: Alkenes; Catalysis; Electrons; Fumarates; Hydrogen Peroxide; Hydroxylation; Maleimides; Manganese; Stereoisomerism

Poly(propylene fumarate) (PPF) is an ultraviolet-curable and biodegradable polymer with potential applications for bone regeneration. In this study, we designed and fabricated three-dimensional (3D) porous scaffolds based on a PPF polymer network using micro-stereolithography (MSTL). The 3D scaffold was well fabricated with a highly interconnected porous structure and porosity of 65%. These results provide a new scaffold fabrication method for tissue engineering. Surface modification is a commonly used and effective method for improving the surface characteristics of biomaterials without altering their bulk properties that avoids the expense and long time associated with the development of new biomaterials. Therefore, we examined surface modification of 3D scaffolds by applying accelerated biomimetic apatite and arginine-glycine-aspartic acid (RGD) peptide coating to promote cell behavior. The apatite coating uniformly covered the scaffold surface after immersion for 24 h in 5-fold simulated body fluid (5SBF) and then the RGD peptide was applied. Finally, the coated 3D scaffolds were seeded with MC3T3-E1 pre-osteoblasts and their biologic properties were evaluated using an MTS assay and histologic staining. We found that 3D PPF/diethyl fumarate (DEF) scaffolds fabricated with MSTL and biomimetic apatite coating can be potentially used in bone tissue engineering.

Topics: 3T3 Cells; Animals; Apatites; Biocompatible Materials; Biomimetic Materials; Cross-Linking Reagents; Fumarates; Materials Testing; Mice; Microscopy, Electron, Scanning; Oligopeptides; Polypropylenes; Surface Properties; Tissue Engineering; Tissue Scaffolds

The free radical copolymerization of allyl ribosides with diethyl fumarate and maleate was investigated for evaluating the potential of donor-acceptor type copolymerization applied to unsaturated monomers derived from renewable feedstock. The photochemically induced polymerization of model monomer blends was conducted in solution as well as in liquid films of bulk reactants. Infrared spectroscopy was used to monitor the consumption of the allylic donor monomer and of the butenedicarboxylate acceptor monomers. The method allowed examining the influence of the nature of the monomer pair and of their relative concentration on the kinetic profiles. Comparison with reference vinyl ether monomers confirmed the expected lower reactivity of the blends containing allylic derivatives. SEC and NMR analysis supported the occurrence of degradative chain transfer during the reactions involving allylic monomers. However, allyl derivatives of glycerol as well as O-allyl ribosides were shown to undergo polymerization with high conversion of both monomers when blended in appropriate molar ratios.

Topics: Free Radicals; Fumarates; Maleates; Polymers; Ribose; Ultraviolet Rays

This protocol describes the synthesis of 500-4,000 Da poly(propylene fumarate) (PPF) by a two-step reaction of diethyl fumarate and propylene glycol through a bis(hydroxypropyl) fumarate diester intermediate. Purified PPF can be covalently cross-linked to form degradable polymer networks, which have been widely explored for biomedical applications. The properties of cross-linked PPF networks depend upon the molecular properties of the constituent polymer, such as the molecular weight. The purity of the reactants and the exclusion of water from the reaction system are of utmost importance in the generation of high-molecular-weight PPF products. Additionally, the reaction time and temperature influence the molecular weight of the PPF product. The expected time required to complete this protocol is 3 d.

Topics: Esterification; Fumarates; Polypropylenes; Propylene Glycol; Temperature

A mixture of different fumaric acid esters (FAE) is established for systemic therapy of psoriasis, a frequent inflammatory skin disease. The main active compound of FAE, however, has not been identified so far, and the mechanisms of activity are only partially understood. We analyzed the impact of FAE on in vitro immune function and aimed to gain knowledge about the mode of action. Dimethylfumarate (DMF) and diethylfumarate (DEF), but not fumaric acid, methylhydrogenfumarate and ethylhydrogenfumarate, exhibited potent depression of inflammatory cytokine secretion (e.g., tumor necrosis factoralpha, IL-12, and IFNgamma) in activated human peripheral blood mononuclear cells. Moreover, solely DMF and DEF inhibited alloreactive T-cell proliferation in mixed leukocyte reaction. Interestingly, these immunosuppressive effects were accompanied by the strong induction of the anti-inflammatory stress protein heme oxygenase 1 (HO-1). Supplementation with exogenous glutathione (GSH), which is known to bind DMF, prevented both HO-1 induction as well as the anti-inflammatory effects of DMF. Moreover, inhibition of HO-1 activity restored the diminished IL-12 and IFNgamma production after FAE treatment. These results suggest that DMF acts as active compound within the FAE mixture and at least partially mediates its immunomodulatory activity by the induction of the anti-inflammatory stress protein HO-1 ascribed to the functional depletion of reduced GSH.

Topics: Cell Proliferation; Cells, Cultured; Cytokines; Dimethyl Fumarate; Dose-Response Relationship, Drug; Enzyme Induction; Fumarates; Glutathione; Heme Oxygenase-1; Humans; Immunosuppressive Agents; Inflammation Mediators; Interferon-gamma; Interleukin-12; Lymphocytes; RNA, Small Interfering; Tumor Necrosis Factor-alpha

Stereolithography using photo-cross-linkable polymeric biomaterials is an effective technique for fabricating highly complex three-dimensional (3D) scaffolds with controlled microstructures for tissue engineering applications. In this study, we have optimized the UV curable polymer solution composition and laser parameters for the stereolithography machine. Poly(propylene fumarate) (PPF) was used as the biomaterial, diethyl fumarate (DEF) was used as the solvent, and bisacrylphosphrine oxide (BAPO) was used as the photoinitiator. Three different weight ratios of PPF/DEF and BAPO contents were characterized by measuring the viscosities and thermal properties of the un-cross-linked solutions and the mechanical properties of the formed scaffolds. After optimizing the resin composition by satisfying both the viscosity limitation and the mechanical requirement, laser parameters such as critical exposure (Ec) and penetration depth (Dp) were determined from the working curve and the relationship between laser speed and energy by measuring the thickness of predesigned windows fabricated in stereolithography with different ranges of Ec and Dp. Three-dimensional scaffolds with various pore sizes, pore shapes, and porosities were designed in computer-aided design (CAD) software and were fabricated in stereolithography. The fabricated scaffolds were characterized by measuring external dimensions, porosities, mean pore sizes, and compressive moduli and were compared to the CAD models. Feature accuracy in the xy-plane was achieved and overcuring of the resin in z-axis was minimized. The stereolithographically fabricated scaffolds with controlled microstructures can be useful in diverse tissue engineering applications.

Topics: Fumarates; Imaging, Three-Dimensional; Lasers; Polypropylenes; Resins, Synthetic; Tissue Engineering; Ultraviolet Rays

The application of evolving window factor analysis (EFA), subwindow factor analysis (SFA), iterative target transformation factor analysis (ITTFA), alternating least squares (ALS), Gentle, automatic window factor analysis (AUTOWFA) and constrained key variable regression (CKVR) to resolve on-flow LC-NMR data of eight compounds into individual concentration and spectral profiles is described. CKVR has been reviewed critically and modifications are suggested to obtain improved results. A comparison is made between three single variable selection methods namely, orthogonal projection approach (OPA), simple-to-use interactive self-modelling mixture analysis approach (SIMPLISMA) and simplified Borgen method (SBM). It is demonstrated that LC-NMR data can be resolved if NMR peak cluster information is utilised.

Topics: Chromatography, Liquid; Factor Analysis, Statistical; Fumarates; Magnetic Resonance Spectroscopy; Maleates; Multivariate Analysis; Naphthols; Phenyl Ethers; Regression Analysis

[reaction: see text] Novel R- and S-spiro[2.3]hexane nucleosides have been synthesized. The key step involved the Pseudomonas cepacia lipase catalyzed resolution of racemic compound 2, synthesized in seven steps starting from diethoxyketene and diethyl fumarate, to give (+)-acetate 3 and (-)-alcohol 13. (+)-Acetate 3 and (-)-acetate 14 were converted to R- and S-9-(6-hydroxymethylspiro[2.3]hexane)-4-adenine, respectively.

Topics: Acetates; Alcohols; Burkholderia cepacia; Catalysis; Fumarates; Hexanes; Lipase; Magnetic Resonance Spectroscopy; Molecular Structure; Nucleosides

The development of tissue engineered materials for the treatment of large bone defects would provide attractive alternatives to the autografts, allografts, non-degradable polymers, ceramics, and metals that are currently used in clinical settings. To this end, poly(propylene fumarate) (PPF), a viscous polyester synthesized from diethyl fumarate (DEF), has been studied for use as an engineered bone graft. We have investigated the photocrosslinking of PPF dissolved in its precursor, DEF, using the photoinitiator bis(2,4,6-trimethylbenzoyl) phenylphosphine oxide (BAPO) and low levels of ultraviolet light exposure. A three factor, 2 x 2 x 4 factorial design was developed, studying the effects of PPF number average molecular weight, BAPO initiator content, and DEF content upon photocrosslinking characteristics and mechanical properties. Uncured DEF/PPF solution viscosity fell over three orders of magnitude as DEF content was increased from 0% to 75%. The exothermic photocrosslinking reaction released low levels of heat, with no more than 160J/g released from any formulation tested. As a result, the maximum photocrosslinking temperature remained below 47 degrees C for all samples. Both sol fraction and swelling degree generally increased with increasing DEF content. Compressive mechanical properties were within the range of trabecular bone, with the strongest samples possessing an elastic modulus of 195.3 +/- 17.5 MPa and a fracture strength of 68.8 +/- 9.4MPa. Finally, the results indicate that PPF crosslinking was facilitated at low DEF precursor concentrations, but hindered at higher precursor concentrations. These novel DEF/PPF solutions may be preferred over pure PPF as the basis for an engineered bone graft because they (1) exhibit reduced viscosity and thus are easily handled, (2) form polymer networks with compressive strength at fracture suitable for consideration for trabecular bone replacement, and (3) may be readily fabricated into solids with a wide range of structures.

Topics: Biocompatible Materials; Bone Cements; Calorimetry; Cross-Linking Reagents; Cyclic N-Oxides; Fumarates; Hot Temperature; Light; Materials Testing; Models, Chemical; Polypropylenes; Stress, Mechanical; Temperature; Time Factors; Tissue Engineering

Diethyl fumarate and propylene glycol were reacted in the presence of a zinc chloride catalyst to synthesize poly(propylene fumarate) (PPF) over a period of 12 hours. The kinetics of the transesterification polymerization at 130 degrees C, 150 degrees C, and 200 degrees C were determined by gel permeation chromatography (GPC) analysis. The initial rate of polymerization at each temperature was quantified by calculating the rate of change of the number average molecular weight (Mn). At 200 degrees C, gelation of the PPF occurred after 4 h. GPC analysis of the reaction showed that PPF synthesized at 150 degrees C had a higher final Mn of 4600 (+/- 190) and a higher weight average molecular weight of 10500 (+/- 760) than at 130 degrees C (n = 3). The chemical structure of the PPF was verified by NMR and FT-IR analysis. This study demonstrated that the maximum Mn of PPF by a transesterification reaction is limited due to gelation of PPF at high temperature.

Topics: Bone Cements; Catalysis; Chlorides; Chromatography, Gel; Fumarates; Kinetics; Models, Chemical; Polypropylenes; Propylene Glycol; Spectroscopy, Fourier Transform Infrared; Temperature; Time Factors; Tissue Engineering; Zinc Compounds

1. Glutathione (GSH) depletion is often reported as an early cytotoxic effect, caused by many reactive organic chemicals. In the present study, GSH depletion in primary rat hepatocytes was used as an in vitro effect-equivalent to measure the toxic potency of alpha,beta-unsaturated esters (acrylates and methacrylates). 2. When these compounds were administered as a mixture, GSH depletion was dose additive. The result of the mixture study shows that GSH depletion may be a useful effect-equivalent for the risk assessment of mixtures of alpha,beta-unsaturated esters. 3. To get more insight in the underlying mechanisms of GSH depletion, the metabolism of two esters was investigated in greater detail. One of them, allyl methacrylate, was metabolized to acrolein. This metabolic pathway can explain the high potency of allyl methacrylate to deplete GSH despite its low intrinsic chemical reactivity.

Topics: Acetaldehyde; Acrolein; Animals; Cell Survival; Cells, Cultured; Dose-Response Relationship, Drug; Esters; Fumarates; Glutathione; Hepatocytes; Male; Methacrylates; Models, Statistical; Rats; Rats, Wistar

A method is presented that allows for the convenient and reliable determination of (1)H-(1)H NMR coupling constants in higher order or symmetrically coupled spin systems. The method can be applied on any programmable FT-NMR spectrometer and is demonstrated here on micromole quantities of sample in a standard 5-mm NMR tube.

Topics: Fumarates; Magnetic Resonance Spectroscopy; Maleates; Microchemistry; Oleic Acid; Oleic Acids

Fumaric acid, fumaric acid dimethylester, and the dithranol derivative C4-lactone were studied in the mouse tail test to evaluate their effects on epidermal cell differentiation compared with other topical antipsoriatic drugs, such as betamethasone, calcipotriol, and dithranol. Mouse tails were treated for 2 weeks and longitudinal histological sections prepared of the tail skin. The length of the orthokeratotic regions (stratum granulosum) was measured on 10 sequential scales per tail and expressed as percentage of the full length of the scale. In addition, epidermal thickness was measured and the efficacy of the various compounds evaluated. In comparison to 2% salicylic acid ointment, all tested compounds except fumaric acid significantly (p < or = 0.05) increased the proportion of the orthokeratotic region. C4-lactone and calcipotriol were less effective than dithranol, fumaric acid dimethylester only moderately influenced cell differentiation, and betamethasone showed the least potent effect. Dithranol was the most potent substance inducing orthokeratosis without increasing epidermal thickness.

Topics: Administration, Topical; Animals; Anti-Inflammatory Agents; Anticarcinogenic Agents; Cell Differentiation; Epidermal Cells; Epidermis; Fumarates; Keratosis; Male; Mice; Psoriasis; Tail

To investigate the mechanisms of non-immunologic contact urticaria (NICU), the effects of 1g + 1g of acetylsalicylic acid (ASA) on contact reactions to methyl nicotinate, diethyl fumarate, benzoic acid, cinnamic acid, cinnamic aldehyde and dimethyl sulfoxide were studied in 21 test subjects. Erythema and edema reactions were observed visually, and the changes in the skin blood flow were monitored using laser-Doppler flowmetry. ASA had a significant inhibitory effect on erythema from all 6 agents and also on edema from all substances except dimethyl sulfoxide. The mechanism of the effect may be a result of the inhibitory influence of ASA on prostaglandin bioformation. Thus, to avoid false negative test results, non-steroidal anti-inflammatory drugs should not be used during NICU tests.

Topics: Acrolein; Adult; Aspirin; Benzoates; Benzoic Acid; Cinnamates; Dimethyl Sulfoxide; Female; Fumarates; Humans; Irritants; Male; Nicotinic Acids; Ultrasonography; Urticaria

The contact urticariagenic properties of diethyl fumarate were studied using the guinea pig ear swelling assay and by open application on the human upper back skin. Diethyl fumarate caused non-immunologic contact urticaria in both human and guinea pig skin, and the reactions exhibited similar dose dependency and timing of maximal response.

Topics: Adult; Animals; Dermatitis, Contact; Female; Fumarates; Guinea Pigs; Humans; Male; Middle Aged; Urticaria

The decrease in the swelling capacity and the length of the refractory period after nonimmunologic contact urticaria produced by one application of six human nonimmunologic contact urticaria agents was studied with the use of the guinea pig ear test. On retesting 1 day later, all substances (benzoic acid, cinnamic acid, cinnamic aldehyde, diethyl fumarate, methyl nicotinate, and dimethyl sulfoxide) showed reactions decreased by at least 50%. This decrease was most marked with cinnamic aldehyde (91% decrease), cinnamic acid (88%), and benzoic acid (86%). The tachyphylaxis was not specific to the substance producing it; reactivity to other contact urticaria agents decreased as well. The refractory period was 4 days after methyl nicotinate, 8 days after diethyl fumarate and cinnamic aldehyde, and 16 days after the other agents. These results suggest the following practical application: there is a need for (1) appropriate scheduling in the reuse of animals for testing for nonimmunologic contact urticaria and (2) an awareness of possible false-negative results in human tests for this form of urticaria because of tachyphylaxis.

Topics: Acrolein; Animals; Benzoates; Benzoic Acid; Cinnamates; Dimethyl Sulfoxide; Ear; Female; Fumarates; Guinea Pigs; Humans; Male; Nicotinic Acids; Tachyphylaxis; Time Factors; Urticaria

Topics: Adult; Dermatitis, Contact; Female; Fumarates; Humans; Urticaria

Fumaric acid may not be regarded as an antipsoriatic drug. Beneficial effects on psoriatic lesions may be explained by secondary changes such as the acidification of gastric juice in cases of anacidity or hypacidity . Monoethylfumarate exerts true antipsoriatic activities but is by far too toxic for clinical use. Experimental investigations have confirmed an inhibitory action of the above-mentioned fumarate on nucleic acid synthesis and protein synthesis of PHA-stimulated human lymphocytes.

Topics: DNA; Fumarates; Gastric Acidity Determination; Humans; Proteins; Psoriasis

Malondialdehyde (MDA) formation in mouse liver homogenates was measured in the presence of various glutathione depletors (5 mmol/l). After a lag phase of 90 min, the MDA formation increased from 1.25 nmol/mg protein to 14.5 nmol/mg in the presence of diethyl maleate (DEM), to 10.5 with diethyl fumarate (DEF) and to 4 with cyclohexenon by 150 min. It remained at 1.25 nmol/mg with phorone and in the control. On the other hand, glutathione (GSH) dropped from 55 nmol/mg to 50 nmol/mg in the control to, less than 1 with DEM, to 46 with DEF, to 3 with cyclohexenon and to 7 with phorone. The data show that the potency to deplete GSH is not related to MDA production in this system. DEM stimulated in vitro ethane evolution in a concentration-dependent manner and was strongly inhibited by SKF 525A. From type I binding spectra to microsomal pigments the following spectroscopic binding constants were determined: 2.5 mmol/l for phorone, 1.2 mmol/l for cyclohexenon, 0.5 mmol/l for DEM and 0.3 mmol/l for DEF. In isolated mouse liver microsomes NADPH-cytochrome P-450 reductase and NADH-cytochrome b5 reductase activity were unaffected by the presence of DEM, whereas ethoxycoumarin dealkylation was inhibited. Following in vivo pretreatment, hepatic microsomal electron flow as determined in vitro was augmented in the presence of depleting as well as non-depleting agents, accompanied by a shift from O2- to H2O2 production. It is concluded that it is not the absence of GSH which causes lipid peroxidation after chemically-induced GSH depletion but rather the interaction of the chemicals with the microsomal monoxygenase system.

Topics: 7-Alkoxycoumarin O-Dealkylase; Animals; Cyclohexanones; Cytochrome Reductases; Cytochrome-B(5) Reductase; Ethane; Fumarates; Glutathione; Ketones; Lipid Metabolism; Male; Maleates; Malondialdehyde; Mice; Microsomes, Liver; NADPH-Ferrihemoprotein Reductase; Oxygenases; Proadifen