Ralph Lennart Brattsand

Influence of 16α,17α-acetal substitution and steroid nucleus fluorination on the topical to systemic activity ratio of glucocorticoids

Abstract The use of topical glucocorticosteroid therapy on large skin areas or in the lung is sometimes restricted by the occurrence of unwanted, general corticoid actions owing to a profound systemic absorption. To decrease this risk potent glucocorticoids with an enhanced ratio between their topical and their systemic glucocorticoid potencies are wanted. Therefore, structure-activity studies were performed in rat models to investigate what influences the type of substitution in the 16α,17α-acetal group and the introduction of fluorine in the 9α- or the 6α,9α-positions have on the topical and the systemic activities, respectively. The introduction of an unsymmetrical 16α,17α-acetal group (named acetal type B) markedly enhanced the topical anti-inflammatory potency compared with that of the conventional 16α,17α-acetonide group (named acetal type A). Both acetal types had a similar systemic glucocorticoid potency, however. 9α-Fluoro and especially 6α,9α-difluoro substitution, on the other hand, enhanced the systemic glucocorticoid activity more than they raised the topical anti-inflammatory potency. Optimal topical to systemic activity ratio was obtained with a nonhalogenated corticoid of acetal type B structure. This compound, budesonide, had at least the same high topical anti-inflammatory potency as fluocinolone acetonide but was about 10 times less potent than this reference to induce systemic glucocorticoid actions. Its lower systemic activity is probably due to a more rapid biotransformation in the liver.

Antioxidative properties of organotellurium compounds in cell systems

The protective/antioxidative properties of diaryl tellurides were demonstrated in cellular systems of increasing complexity. In the presence of glutathione, bis(4-hydroxyphenyl) telluride (1a), bis(4-aminophenyl) telluride (1d) and bis(2-carboxyphenyl) telluride (1h) reduced by more than 50% t-butyl hydroperoxide-induced cell death in lung fibroblast cultures at concentrations below 2 microM. Bis(2,6-dimethyl-4-hydroxyphenyl) telluride (2b) reduced by more than 50% leukocyte-mediated and phorbol-12-myristate-13-acetate-stimulated damage to Caco-2 cells at 0.1 microM concentration. As judged by their abilities to reduce formation of thiobarbituric acid reactive substances at concentrations close to 1 microM, diaryl tellurides 1a, 1d and 2b protected rat kidney tissue against oxidative damage caused by anoxia and reoxygenation. The organotellurium compounds also offered protection after systemic administration. In the presence of diaryl telluride 2b (0.1-1 microM), the ischemia/reperfusion-induced vascular permeability increase in the hamster cheek pouch was significantly reduced as compared with the control. Some of the most active organotellurium cell protectants were evaluated for their ability to inhibit formation of the inflammatory mediators leukotriene B4 and interleukin-1beta. An inhibitory effect on the secretion of these species was seen for compounds 1a and 2b at or above 10 microM concentrations. The protective effects of diaryl tellurides against t-butyl hydroperoxide-induced cell injury can be ascribed mainly to the peroxide-decomposing, glutathione peroxidase-like capacity of the compounds. The chain-breaking, electron- or hydrogen atom-donating ability of diaryl tellurides seems to be the main reason for their protection against leukocyte-mediated cell damage in Caco-2 cells and in the oxidatively challenged rat kidney and hamster cheek pouch.

α-(Phenylselenenyl)acetophenone derivatives with glutathione peroxidase-like activity: A comparison with ebselen

Here we describe a new class of organoselenium compounds possessing glutathione peroxidase-like activity. The parent compound, alpha-(phenylselenenyl)acetophenone (PSAP), increased the rate of reaction of glutathione with H2O2, tert-butylhydroperoxide, cumene hydroperoxide, linoleic acid hydroperoxide and dilinoleyl lecithin hydroperoxide by 7.0, 25.1, 34.1, 19.1 and 8.4-fold, respectively, as assessed by the oxidized glutathione (GSSG) reductase enzyme assay. Direct assay of the removal of hydrogen peroxide and glutathione from reaction mixtures confirmed the peroxidase-like activities of these selenoorganic compounds, but indicate that the conventional coupled GSSG reductase assay may be unsuitable for the assessment of the catalytic capacity of PSAP and Ebselen. One possible mechanism of catalysis by PSAP involves an initial oxidation at selenium. Thiol may then react with the selenoxide to yield a selenium (II) compound, H2O and a disulfide. Compounds derived from PSAP may provide potential selenium-based anti-inflammatory agents.

Glutathione peroxidase-like activity of diaryl tellurides.

Abstract 4,4′-Disubstituted dirayl tellurides showed glutathione peroxidase-like catalysis of the reduction of hydroperoxides by glutathione. The most potent compound, bis(4-aminophenyl) telluride, demonstrated 348%, 530%, 995% and 900% of the catalytic efficacy of Ebselen for the glutathione dependent reduction of H 2 O 2 , t-butyl hydroperoxide, cumene hydroperoxide and linoleic acid hydroperoxide, respectively.

Diaryl Tellurides as Inhibitors of Lipid Peroxidation in Biological and Chemical Systems

Diaryl tellurides carrying electron-donating substituents in the para positions were found to efficiently inhibit peroxidation of rat hepatocytes, rat liver microsomes and a chlorobenzene solution of phosphatidylcholine. The most active compound in the microsomal assay, bis(4-dimethylaminophenyl) telluride, showed an IC50-value of 30 nM. This compound also caused a dose-dependent delay of the onset of the linear phase of microsomal peroxidation stimulated by iron/ADP/ascorbate. The peak oxidation potentials of the diaryl tellurides (0.50-1.14 V in MeCN) correlated linearly with the IC50-values in this assay, with a point of inflection around 0.85 V. In the hepatocyte system, all compounds showed similar protective activity. It is proposed that diaryl tellurides exert an antioxidative effect by deactivating both peroxides and peroxyl radicals under the formation of telluroxides. These oxides may regenerate the active divalent organotellurides upon exposure to a suitable reducing agent.

Actions of vitamins A and E and some nicotinic acid derivatives on plasma lipids and on lipid infiltration of aorta in cholesterol-fed rabbits

Marked hypercholesterolemia and moderate lipid infiltration of the aorta were induced by feeding rabbits a diet containing 1% cholesterol + 3% corn oil for 70 days. In the liver the concentration and pool size of cholesterol increased and those of triglycerides (TG) decreased. On dietary addition of vitamin A and vitamin E (44 000 I.U. and 125 mg respectively, once daily for 5 days a week) the following changes were noted in comparison with the fat-fed rabbits not receiving extra addition of vitamins. There was a slight decrease of the levels of plasma cholesterol and an increase of those of plasma TG. The liver cholesterol concentration increased but, according to the concomitant reduction of the liver weight, there was no significant change in lever cholesterol or TG pools. In the aorta the vitamins markedly reduced the lipid infiltrated area as well as the cholesterol content. Both niceritrol** and S-2040 [pyridine-2,5-dicarboxylic acid di(beta-pyridylcarbinol ester)] in a dietary concentration of 0.5% decreased plasma cholesterol by about 20%. This reduction, as well as that induced by the vitamins, was confined to the VLDL-fractions only. S-2040 slightly reduced the cholesterol accumulation in the aorta. In rabbits given both the vitamins and niceritrol or S-2042 there was an additive reduction of plasma cholesterol. Here the nicotinic acid derivatives were partly able to counteract the increases of plasma TG induced by the vitamins. In the aorta the combination vitamins + S-2042 but not that of vitamins + niceritrol tended to give a better protection than the vitamins alone. On a normal diet vitamins A + E significantly increased the liver cholesterol concentration and pool and decreased the liver TG pool, but did not affect the other parameters. Possible mechanisms for the prophylactic action of the vitamins against lipid infiltration of the aorta of cholesterol-fed rabbits are discussed.

Antioxidant activity of some diarylselenides in biological systems

The selenoorganic compounds di(4-aminophenyl)selenide (10) and 4-nitro-4-amino-diphenylselenide (36) were shown to inhibit lipid peroxidation in ADP/Fe2+/ascorbate-treated microsomes and tert-butylhydroperoxide-treated hepatocytes with IC50s of 3 and 10 microM, and 14 and 10 microM, respectively. In the former system, these inhibition constants compare favourably with those of Ebselen and classical antioxidants such as butylated hydroxytoluene (BHT) and butylated hydroxyanisole (BHA). In the cell system, these selenium compounds were equipotent with BHA but more potent than Ebselen and its analogues. The diamino compound (10) was also an effective inhibitor of lipid peroxidation initiated by diquat redox cycling in hepatocytes, again being equipotent with BHA but more potent than Ebselen and its analogues, which actually stimulated lipid peroxidation in this test system. Manipulation of the amino functions of (10) and (36) by alkylation or acylation altered the antioxidant capacity. Optimal activity in this series was achieved by N-ethylation or N-isobutylation of (10). This produced antioxidants having IC50s below 1 microM in the microsome system, 3-13 microM in the tert-butylhydroperoxide system, and being 100% effective in the diquat model at 50 microM. On the other hand, acylation or alkylation of the amino groups with long chain acyl or alkyl groups reduced the efficacy of the structures below that of the parent diamine. As with other antioxidant compounds, several of the chalcogenides were relatively selective inhibitors of monocyte 5-lipoxygenase-dependent secretion of LTB4 as compared to their effect on cyclooxygenase-dependent secretion of PGE2 (for example compound 42 had IC50s of 0.6 microM and 10 microM, respectively). No correlation was observed between the redox-properties of the chalcogenides and their respective abilities to inhibit these enzymes.

Distribution of cholesterol and triglycerides among lipoprotein fractions in fat-fed rabbits at different levels of serum cholesterol

The serum lipoproteins of rabbits given semisynthetic cholesterol-free diets containing coconut oil or butter or a conventional rabbit chow supplemented with cholesterol, were studied by preparative ultracentrifugation and electrophoresis. (1) All three diets elevated the total cholesterol level but only the coconut oil diet markedly increased the triglyceride (TG) content in addition. All ultracentrifugation fractions showed elevated cholesterol/TG ratios, and this was especially evident for the cholesterol diet. In the hyperlipidemic rabbits cholesterol was therefore mainly transported in lipoproteins with a changed lipid composition. (2) The lipid levels of the HDL fraction were more or less unaffected by the lipid concentration in whole serum. In the total serum cholesterol ranges 150-500 (coconut oil diet) and 100-300 mg/100 ml (cholesterol diet), most cholesterol was transported as LDL cholesterol. This latter fraction reached maximum cholesterol concentrations of about 350 (coconut oil diet) and 400 mg/100 ml (cholesterol diet) at total cholesterol levels of approximately 600 and 1200 mg/100 ml serum, respectively. At still higher levels of total cholesterol, the whole increment was concentrated to the VLDL fraction. (3) With semisynthetic diets in the whole cholesterol range 250-400 mg/100 ml it was possible, with respect to cholesterol, to induce fairly similar concentrations and distributions to those seen in man, with about 60% transported as LDL, 30% as VLDL and 10% as HDL cholesterol with the coconut oil diet and 65%, 20% and 15%, respectively, with the butter diet. Such experimental conditions seem to be suitable for testing the hypocholesterolemic action of drugs intended for human hyperlipidemia Type II. (4) Compared with earlier investigations on rabbits, the present distribution study suggests that the degree of aortic lipid infiltration in cholesterol-fed rabbits is better related to the levels of LDL than to VLDL cholesterol.

Seasonal variation in the function of blood monocytes obtained from healthy nonsmokers, asymptomatic smokers, and smokers with chronic bronchitis.

The present study focused on two questions: What effects do cigarette smoking and chronic bronchitis have on the function of the precursors of alveolar macrophages, the blood monocytes? Can seasonal variations affect the function of these cells? Phagocytic activity (the proportion of yeast-ingesting cells and the mean number of yeast particles per ingesting cell) and metabolism of arachidonic acid [secretion of prostaglandin E2 (PGE2) and leukotriene B4 (LTB4) in zymosan-stimulated cultures] were studied as markers of monocyte function during three seasons: spring (May-June), autumn (November-December), and winter (February). Smokers with chronic bronchitis (SCBs) and asymptomatic smokers (ASs) had a lower proportion (p < 0.05) of ingesting monocytes than healthy nonsmokers (HNSs) during spring, but not during the other two seasons. The secretion of PGE2 was highest during autumn and lowest during spring in the monocytes of all three groups. In autumn, LTB4 secretion was increased in the monocytes of HNSs (p < 0.05) but not in those of ASs and SCBs. LTB4 secretion was similar in all groups during the other two seasons. Cigarette smoking and chronic bronchitis seem to impair the function of monocytes and may thereby affect the systemic host defense activity. Cells collected during autumn were generally more active than those sampled in spring, indicating marked seasonal variation in the function of monocytes from all three groups.

6α-Fluoro- and 6α,9α-difluoro-11β,21- dihydroxy-16α,17α-propylmethylenedioxypregn-4-ene-3,20-dione: Synthesis and evaluation of activity and kinetics of their C-22 epimers

Abstract It is generally accepted that the anti-inflammatory effect of glucocorticosteroids cannot be separated from their adverse effects at the receptor level. However, modification of the pharmacokinetics through structural alterations could provide steroids with a better therapeutic index than those currently used. Thus, new 16α,17α-acetals between butyraldehyde and 6α-fluoro- or 6α,9α-difluoro-16α-hydroxycortisol were synthesized and studied. Acetalization of the corresponding 16α,17α-diols or transacetalization of their 16α,17α-acetonides in dioxane produced mixtures of C-22 epimers, which were resolved by preparative chromatography. Alternatively, an efficient method was used to produce the 22R-epimer stereoselectively through performing the acetalization and transacetalization in a hydrocarbon with an inert material present. The C-22 configuration of (22R)-6α,9α-difluoro-11β,21-dihydroxy-16α,17α-propylmethylenedioxypregn-4-ene-3,20-dione was unambiguously established by single crystal X-ray diffraction. The present compounds, especially the 22R-epimer just mentioned, bind to the rat thymus glucocorticoid receptor with high potency. The C-22 epimers of the 6α,9α-difluoro derivatives showed a 10-fold higher biotransformation rate than the budesonide 22R-epimer when incubated with human liver S9 subcellular fraction. The high receptor affinity in combination with the high biotransformation rate indicates that (22R)-6α,9α-difluoro-11β,21-dihydroxy-16α,17α-propylmethylenedioxypregn-4-ene-3,20-dione may be an improved 16α,17α-acetal glucocorticosteroid for therapy of inflammatory diseases, in which the mucous membranes are involved, such as those in the intestinal tract as well in the respiratory tract.