Ascorbic acid 2-glucoside: An ascorbic acid pro-drug with longer-term antioxidant efficacy in skin.

OBJECTIVE: Deleterious effects of pollutants and ultraviolet radiation on the skin can be attenuated using formulations containing antioxidants. However, these have disadvantages, including chemical instability, photodegradation, poor bioavailability or biological activity. Here, two commercial formulations were evaluated: one optimized to stabilize and deliver ascorbic acid (AA) at 15% and the other containing a glucoside form of AA, namely ascorbic acid 2-glucoside (AA2G), at 1.8% and at a physiological pH. We compared the skin delivery, antioxidative effects and chemical stability of AA2G with AA in their respective formulations. METHODS: Skin delivery was measured using fresh viable human skin explants, and oxidative stress was measured using a human reconstructed epidermal (RHE) model according to levels of malondialdehyde (MDA), superoxide dismutase (SOD) and catalase. RESULTS: Ascorbic acid 2-glucoside was completely metabolized to AA by the skin before entering the receptor compartment. The skin contained parent and AA, indicating a reserve of AA2G was present for further metabolism. For AA2G and AA, maximum flux of AA-equivalents was at 12 h, with continued absorption over 24 h. The absolute amount in µg was higher in the skin after application of AA than after application of AA2G. This may suggest a greater antioxidative effect; however, according to all three measurements of oxidative stress, the protective effect of AA and AA2G was similar. Unlike AA, AA2G was chemically stable under storage conditions. CONCLUSION: A lower concentration of AA2G is as effective as the active metabolite, AA, in terms of antioxidant effects. AA2G was chemically stable and can be applied at a lower concentration than AA, thus avoiding the need for an acidic formulation with a pH below 3.5.

OBJECTIF: Les effets délétères des polluants et des rayonnements ultraviolets au niveau cutané peau peuvent être atténués avec des formulations contenant des antioxydants. Cependant, ceux-ci peuvent présenter des inconvénients comme une instabilité chimique, une photodégradation, une faible biodisponibilité ou une faible activité biologique. Nous avons évalué deux formulations commerciales: l'une optimisée pour stabiliser et libérer de l'acide ascorbique (AA) à 15 % et l'autre contenant une forme conjugué de l'AA, à savoir l'acide ascorbique 2-glucoside (AA2G), à 1.8% et formulée à un pH physiologique. Nous avons comparé le passage percutané, les effets antioxydants et la stabilité chimique de l'AA2G avec l'AA dans leurs formulations respectives. MÉTHODES: Le passage percutané a été évalué avec des explants de peau humaine maintenus en survie et le stress oxydatif a été évalué à l'aide d'un modèle d'épiderme reconstruit humain (RHE) en mesurant les niveaux de malondialdéhyde (MDA), de superoxyde dismutase (SOD) et de catalase. RÉSULTATS: L'AA2G a été complètement métabolisé en AA par la peau avant d'atteintre le compartiment récepteur. Le composé parent et l'AA ont été retrouvé dans la peau, indiquant qu'une réserve d'AA2G était présente pour une libération prolongée. Pour l'AA2G et l'AA, le flux maximal d'équivalents AA était à 12 h, avec une absorption continue sur 24 h. La quantité absolue en µg était plus élevée dans la peau après application de la formulation contenant 15% d'AA qu'après application de la formule contenant 1.8% d'AA2G. Cela peut suggérer un effet antioxydant plus important ; cependant, selon les trois paramètres évalués pour le stress oxydatif, l'effet protecteur de l'AA et de l'AA2G était similaire. Contrairement à l'AA, l'AA2G est chimiquement plus stable dans des conditions de stockage. CONCLUSION: Une concentration plus faible d'AA2G est aussi efficace que le métabolite actif, l'AA, en termes d'effets antioxydants. L'AA2G est chimiquement plus stable et peut être appliqué à une concentration inférieure à l'AA, évitant ainsi le besoin d'une formulation acide avec un pH inférieur à 3.5.

Sustained effect of two antioxidants (oxothiazolidine and δ-tocopheryl glucoside) for immediate and long-term sun protection in a sunscreen emulsion based on their different penetrating properties.

OBJECTIVE: We investigated the dermal bioavailability and antioxidative properties of a sunscreen formulation containing two antioxidants, oxothiazolidine (OTZ) and δ-tocopheryl glucoside (DTG). OTZ reacts directly with reactive oxygen species to form taurine, while DTG is metabolized in δ-tocopherol to achieve antioxidative activities. METHODS: After topical application to a hair follicle-derived reconstructed human epidermis (RHE) model, followed by solar-simulated radiation, kinetics of bioavailability and antioxidative responses were measured over 24 h. Markers for oxidative stress were malondialdehyde (MDA), superoxide dismutase (SOD) and catalase activities. RESULTS: The two antioxidants had different bioavailability profiles: OTZ was rapidly and extensively absorbed, whereas DTG was slowly absorbed and converted to δ-tocopherol. Compared to OTZ alone, the protection against effects on MDA levels and SOD and catalase activities was higher when DTG was used alone or in combination with OTZ. When used in combination, the degree of protection increased over time and remained constant over 24 h with maximal protection 2 h post-irradiation. DTG slowly penetrated into the skin and was present in the skin at all post-irradiation timepoints, thus allowing a slow but constant supply of δ-tocopherol over at least 24 h. By contrast, the oxidative protection by OTZ was immediate but short-lived due to its rapid penetration through the RHE and into the receptor fluid. CONCLUSION: These results indicate a complementary sunlight protective action of OTZ and DTG with an immediate delivery of OTZ just after topical application of the formulation, and a prolonged skin delivery of δ-tocopherol from the slower penetration and metabolism of DTG.

OBJECTIF: Nous avons étudié la cinétique de pénétration cutanée et les propriétés antioxydantes d'une formulation solaire contenant deux antioxydants, l'oxothiazolidine (OTZ) et le δ-tocophéryl glucoside (DTG). L'OTZ se transforme directement en taurine en présence de stress oxydant sans l'action des enzymes cutanées, tandis que le DTG est métabolisé par les enzymes cutanées pour libérer le δ-tocophérol qui est la molécule ayant les propriétés antioxydantes. MÉTHODES: Après application topique sur un modèle d'épiderme humain reconstruit dérivé de follicules pileux (RHE), suivi d'une irradiation solaire, la cinétique de biodisponibilité et les réponses antioxydantes de ces deux composés ont été mesurées sur 24 h. Les marqueurs du stress oxydatif étaient la production de malondialdéhyde (MDA), l'activité de la superoxyde dismutase (SOD) et de la catalase. RÉSULTATS: Les deux antioxydants ont des profils de biodisponibilité différents. L'OTZ pénètre rapidement dans la peau, tandis que le DTG pénètre lentement et est biotransformé par les enzymes cutanés pour libérer le δ-tocophérol. Par rapport à l'OTZ seul, la protection oxydante sur les niveaux de MDA et les activités SOD et catalase était plus élevée lorsque le DTG était utilisé seul ou en association avec OTZ. Lorsqu'il est utilisé en combinaison, le degré de protection augmente au cours du temps et atteint son maximum 2h post-irradiation et reste constant durant 24 h. Le DTG pénètre lentement dans la peau et est présent dans la peau durant 24h post-irradiation, permettant ainsi un apport lent mais constant de δ-tocophérol. En revanche, la protection oxydante via l'OTZ est immédiate mais de courte durée en raison de sa pénétration rapide à travers le RHE. CONCLUSION: Ces résultats indiquent une action de protection solaire complémentaire de l'OTZ et du DTG avec une absorption immédiate d'OTZ juste après l'application topique de la formulation, et une libération cutanée prolongée de δ-tocophérol grâce à la pénétration et la métabolisation plus lentes du DTG.

Pharmacological evaluation of a series of smoothened antagonists in signaling pathways and after topical application in a depilated mouse model.

The Hedgehog (HH) pathway has been linked to the formation of basal cell carcinoma (BCC), medulloblastoma, and other cancers. The recently approved orally active drugs vismodegib (GDC-0449) and sonidegib (LDE-225) were not only efficacious for the treatment of advanced or metastatic BCC by antagonizing the smoothened (SMO) receptor, but also produced important side effects, limiting their use for less invasive BCC. Herein, we compared a large series of SMO antagonists, including GDC-0449 and LDE-225, the clinically tested BMS-833923, CUR-61414, cyclopamine, IPI-926 (saridegib), itraconazole, LEQ-506, LY-2940680 (taladegib), PF-04449913 (glasdegib), and TAK-441 as well as preclinical candidates (PF-5274857, MRT-83) in two SMO-dependent cellular assays and for G-protein activation. We report marked differences in inhibitor potencies between compounds as well as a notable disparity between the G-protein assay and the cellular tests, suggesting that classification of drugs is assay dependent. Furthermore, we explored topical efficacies of SMO antagonists on depilated mice using Gli1 and Ptch1 mRNA quantification in skin as biomarkers of the HH signaling inhibition. This topical model rapidly discriminated drugs in terms of efficacies and potencies for inhibition of both biomarkers. SMO antagonists showed also a large variation in their blood and skin partition, suggesting that some drugs are more favorable for topical application. Overall, our data suggested that in vitro and in vivo efficacious drugs such as LEQ-506 and TAK-441 may be of interest for topical treatment of less invasive BCC with minimal side effects.

Potencies and unblocking kinetic properties of antagonists at recombinant human NMDA receptors in a Xenopus oocytes model.

N-methyl-D-aspartate (NMDA) receptor channels are implicated in a wide range of physiological and pathophysiological processes, and a large number of pharmacological agents have been introduced that target the receptor via diverse mechanisms of action. Amongst others, subunit selectivity (in particular for the NR2B receptor subunit) and rapid unblocking kinetics have been put forward as favourable pharmacological properties of NMDA receptor-targeting drugs. Here, we describe a pharmacological characterization of human recombinant NMDA receptors expressed in Xenopus oocytes in an electrophysiological set-up. Using this approach, we compare inhibitor potencies of several known NMDA receptor ligands as well as unblocking kinetic properties of selected compounds. All compounds tested had similar potencies at receptors containing NR2A or NR2B receptors with the exception of traxoprodil, which was selective for NR2B. The rank order of potency was (+)MK-801 > phencyclidine (PCP) ≈ traxoprodil > memantine ≈ ketamine > duloxetine. In line with its proposed rapid dissociation properties, the relatively well-tolerated drug memantine exhibits markedly faster unblocking than ketamine and PCP, similar to the low-affinity compound, duloxetine. Electrophysiological recording in Xenopus oocytes thus allows a relatively convenient comparison of key pharmacological parameters at recombinant human NMDA receptors.

The clozapine metabolite N-desmethylclozapine displays variable activity in diverse functional assays at human dopamine D2 and serotonin 5-HT1A receptors.

N-desmethylclozapine (NDMC or norclozapine) is the major active metabolite of the antipsychotic clozapine in humans. The activity of NDMC differs from clozapine at a number of neurotransmitter receptors, probably influencing the pharmacological effects of clozapine treatment. Here, we tested the properties of NDMC in comparison with clozapine at recombinant human dopamine D(2) and serotonin 5-HT(1A) receptors, using a panel of functional assays implicating diverse signalling pathways. At dopamine D(2) receptors, NDMC as well as clozapine did not display agonist activity in measures of G protein activation by [(35)S]GTPγS binding and in the sensitive Extracellular Signal-Regulated Kinase 1/2 (ERK1/2) phosphorylation assay. In contrast, there were weak partial agonist actions of NDMC (but not of clozapine) for dopamine D(2)-dependent activation of Ca(2+) liberation via coexpressed chimeric Gα(q/o) proteins and for G protein-coupled inward rectifier potassium channel (GIRK) current induction in Xenopus oocytes. Intriguingly, GIRK currents induced by NDMC via dopamine D(2) receptors showed a rapid and transient time course, strikingly different from currents recorded with other receptor agonists. At serotonin 5-HT(1A) receptors, NDMC was a more efficacious partial agonist than clozapine for [(35)S]GTPγS binding, ERK1/2 phosphorylation and GIRK activation. Respective low and moderate partial agonist properties of NDMC at dopamine D(2) and serotonin 5-HT(1A) receptors thus differentiate the metabolite from its parent drug and may contribute to the overall effects of clozapine pharmacotherapy.

Rigid analogues of the α2-adrenergic blocker atipamezole: small changes, big consequences.

We report the discovery of a new family of α(2) adrenergic receptor antagonists derived from atipamezole. Affinities of the compounds at human α(2) and α(1b) receptors as well as their functional activities at hα(2A) receptors were determined in competition binding and G-protein activation assays, respectively. Central α(2) antagonist activities were confirmed in mice after oral administration. Further studies on a selected example: (+)-4-(1a,6-dihydro-1H-cyclopropa[a]inden-6a-yl)-1H-imidazole, (+)-1 (F 14805), were undertaken to probe the potential of the series. On the one hand, (+)-1 increased the release of noradrenaline in mouse frontal cortex following acute systemic administration, the magnitude of this effect being much larger than that obtained with reference agents. On the other, (+)-1 produced minimal cardiovascular effects in intact, anesthetized rat, a surprising outcome that might be explained by its differential action at peripheral and central α(2) receptors. A strategy for improving the therapeutic window of α(2) antagonists is put forward.

Actions of the prototypical 5-HT1A receptor agonist 8-OH-DPAT at human alpha2-adrenoceptors: (+)8-OH-DPAT, but not (-)8-OH-DPAT is an alpha2B subtype preferential agonist.

8-OH-DPAT [8-hydroxy-2-(di-n-propylamino)tetralin] is the prototypical agonist at serotonin 5-HT1A receptors; however, activity at other targets contributes to the functional effects of the compound as well. We examined the properties of 8-OH-DPAT and its enantiomers at recombinant human (h)alpha2-adrenoceptor subtypes, using a panel of radioligand binding and functional tests. In competition binding experiments using [3H]-RX821002, about 10-fold selectivity of (+)8-OH-DPAT for the halpha2B subtype (pKi about 7) over halpha2A- and halpha2C-adrenoceptors was observed. In contrast, the S(-) enantiomer of 8-OH-DPAT showed similar weak affinities for the three receptor subtypes (pKis<6). The binding affinity of (+)8-OH-DPAT at the halpha2B- and the halpha2A-adrenoceptor was found sensitive to GTPgammaS, a receptor/G protein-uncoupling agent, indicating agonist properties of the drug. Furthermore, using [35S]GTPgammaS binding determination at CHO-halpha2B or CHO-halpha2A cell membranes and G protein coupled inwardly rectifying potassium (GIRK) current recordings in Xenopus oocytes expressing halpha2B, partial agonist activity of (+)8-OH-DPAT at the respective receptors was confirmed in these two different functional assays. Potency of (+)8-OH-DPAT for stimulation of [35S]GTPgammaS incorporation was lower at the halpha2A- than at the halpha2B-adrenoceptor, consistent with binding affinities. Thus, (+)8-OH-DPAT and, as a consequence, racemic (+/-)8-OH-DPAT are partial agonists at halpha2-adrenoceptors with selectivity for the halpha2B subtype, a property that might contribute to the effects of the compound described in native systems.

Activation of G proteins and extracellular signal-regulated kinase 1/2 phosphorylation via human dopamine D4.4 receptors: differential pathway-dependent potencies of receptor agonists.

Agonist activity at recombinant human dopamine D4.4 receptors was compared in stably transfected CHO cells using two functional readouts: G protein activation by [35S]GTPgammaS binding and phosphorylation of extracellular signal-regulated kinase 1/2 (pERK1/2). Results with a large series of agonists reveal markedly higher relative agonist efficacy in the pERK1/2 assay compared with [35S]GTPgammaS binding, while potencies were generally higher in the latter readout. Whereas efficacies were highly correlated when comparing both tests, potencies determined using the pERK1/2 assay were neither correlated with those for G protein activation nor with binding affinities. In order to examine if these differences may be attributable to distinct assay conditions (5 min incubation for pERK1/2 compared with binding equilibrium conditions for [35S]GTPgammaS), selected compounds were tested in a modified short-duration [35S]GTPgammaS binding assay. In these experiments, potencies were generally reduced; however, compounds exhibiting comparably high potency in the pERK1/2 assay were not affected by this duration-dependent potency shift. We conclude that assay parameters such as signal amplification and incubation time have to be considered with respect to the appropriate choice of experimental approaches that best reflect agonist activity at dopamine D4 receptors in vivo.