Studies on the constituents of Scutellaria species (XXI): constituents of the leaves of Scutellaria strigillosa Hemsley

From the leaves of Scutellaria strigillosa, 14 compounds, chrysin, apigenin, 5,7,2-trihydroxyflavone, norwogonin, ursolic acid, 6-hydroxy-4-stigmasten-3-one, 6-hydroxy-4,22-stigmastadien-3-one, 2 R,4 R,8 R--tocopherol, (S)-5,5 -bi--tocopheryl, (R)-5,5 -bi--tocopheryl, solanachromene, tocopherylquinone, jodrellin T, and 14,15-dihydrojodrellin T were isolated. The structures were determined on the basis of chemical and spectral data.     

Liposomes Containing Interferon-Gamma as Adjuvant in Tumor Cell Vaccines

Purpose. Liposomal systems may be useful as a cytokine supplementin tumor cell vaccines by providing a cytokine reservoir at the antigenpresentation site. Here, we examined the effect of liposomeincorporation of mIFN on its potency as adjuvant in an established tumor cellvaccination protocol in the murine B16 melanoma model. Adjuvanticityof the mIFN-liposomes was compared to that achieved bymIFN-gene transfection of the B16 tumor cells. Furthermore, we studiedwhether liposomal incorporation of mIFN indeed increases theresidence time of the cytokine at the vaccination site. Methods. C57B1/6 mice were immunized with i) irradiated IFN-genetransfected B16 melanoma cells or ii) irradiated wild type B16 cellssupplemented with (liposomal) mIFN, followed by a challenge withviable B16 cells. The residence time of the (liposomal) cytokine at thesubcutaneous (s.c.) vaccination site was monitored using radiolabeledmIFN and liposomes. Results. Immunization with irradiated tumor cells admixed withliposomal mIFN generated comparable protection against B16 challenge asimmunization with mIFN-gene modified tumor cells. Irradiated tumorcells admixed with soluble mIFN did not generate any protectiveresponses. Radiolabeling studies indicated that free mIFN rapidlycleared from the s.c. injection site. Association of [¹²⁵I]-mIFNwith liposomes increased the local residence time substantially: liposomalassociation of mIFN resulted in a prolonged local residence time ofthe cytokine as reflected by a 4-fold increase of the area under thecurve. The amount of released cytokine in the optimal dose rangecorresponds to the amount released by the gene-transfected cells. Moderate but significant CTL-activity against B16 cells was found for miceimmunized with irradiated cells supplemented with mIFN-liposomescompared to untreated control animals. Conclusions. Prolonged presence of mIFN at the site of antigenpresentation is crucial for the generation of systemic immune responsesin the B16 melanoma model. These studies show that liposomalencapsulation of cytokines is an attractive strategy for paracrine cytokinedelivery in tumor vaccine development.     

Intracerebroventricular injection of a TRH analogue, γ-butyrolactone-γ-carbonyl-l-histidyl-prolinamide induces gastric lesions and gastric acid stimulation in rats

Summary The effects of TRH and its biologically stable analogue, -butyrolactone--carbonyl-l-histidyl-l-prolinamide (DN-1417), on gastric mucosa and acid secretion were examined in rats. Intracerebroventricular (ICV) injection of DN-1417 (0.1–10 g) caused a dose-dependent gastric lesion in the corpus and antrum 6 h after administration. The gastric lesions produced by 1 g of DN-1417 were more severe than those produced by ICV TRH (10 g), intravenous DN-1417 (200 g) and stress. Although the lesion-generating effect of TRH (10 g) tended to be reduced 6 h after the injection, that of DN-1417 (1 g) was sustained during 6 h. Atropine (0.1 and 1 mg/kg s.c.) inhibited DN-1417-induced gastric lesions in a dose-related manner while sulpiride (10 and 30 mg/kg s.c.), haloperidol (1 mg/kg i.p.), phentolamine (1 and 5 mg/kg s.c.) and yohimbine (5 mg/kg s.c.) did not prevent the lesions. ICV DN-1417 also stimulated basal gastric acid secretion and the effect was stronger and longer-lasting than that of TRH. Atropine (0.1 mg/kg s.c.) stopped DN-1417-stimulated gastric acid secretion. In conclusion, the possibility that TRH may be involved in the CNS modulation of gastric mucosal integrity deserves further attention. The enhanced potency of action of DN-1417 over TRH could make ICV injection of this peptide a useful tool for inducing centrally-mediated gastric lesions in rats.     

The REM sleep-inducing action of a naturally occurring organic bromine compound in the encéphale isolé cat

The acute effects on the sleep-wakefulness cycle of 2-octyl--bromo-acetoacetate (-Br), an organic bromine compound which occurs naturally in the brain and cerebrospinal fluid (CSF) of mammals, were studied in the encéphale isolé cat preparation under artificial respiration without fixation.In unmedicated preparations, the percentage of the three states, wakefulness, NREM sleep and REM sleep during the 3 h recording period was 32.8±15.59, 62.9±16.81 and 4.3±3.81, respectively.Various doses of synthetic -Br (0.1, 1.0 and 5.0 mg/kg) were injected intravenously. No central depressant effect was seen after injection of -Br up to 5 mg/kg. The effect of -Br on the sleep-wakefulness cycle was to increase REM sleep and to slightly decrease wakefulness or NREM sleep. Increase in REM sleep was significant (p<0.05) and its effective dose was 0.1 mg/kg. REM sleep-increasing effect appeared 5 to 15 min after injection. This coincided closely with the time of appearance of -Br in the CSF after intravenous injection.The relationship between -Br and short chain fatty acids as well as the possible mechanism related to REM sleep induction by -Br are discussed.This study was supported in part by a grant from the Ministry of Education of Japan. A preliminary report of this research was presented at the meeting of the Association for the Psychophysiological Study of Sleep in Santa Monica, California, U.S.A., April 6–9, 1967.     

The involvement of central cholinergic system in the pressor effect of intracerebroventricularly injected U-46619, a thromboxane A2 analog, in conscious normotensive rats

The aim of this study was to determine the involvement of the central cholinergic system in the rise in blood pressure evoked by the thromboxane A2 (TxA2) analog, U-46619, given centrally. Intracerebroventricular (i.c.v.) injections of U-46619 (0.5, 1.0 and 2.0 g) caused dose- and time-related increases in blood pressure and decreased heart rate in awake rats. U-46619 (1 g; i.c.v.) also produced an approximately 65% increase in posterior hypothalamic extracellular acetylcholine and choline levels. Pretreatment with SQ-29548 (8 g; i.c.v.), selective TxA2 receptor antagonist, completely inhibited both the cardiovascular responses and the increase in acetylcholine and choline levels to subsequent injection of U-46619 (1 g; i.c.v.). Atropine (10 g; i.c.v.), nonselective muscarinic receptor antagonist, pretreatment did not affect the cardiovascular responses observed after U-46619 (1 g; i.c.v.). Pretreatment with the nonselective nicotinic receptor antagonist, mecamylamine (50 g; i.c.v.) attenuated the pressor effect of U-46619 (1 g; i.c.v.). Higher doses of mecamylamine (75 and 100 g; i.c.v.) pretreatments did not change the magnitude of the blockade of pressor response to U-46619; however, they abolished the bradycardic effect of U-46619 dose-dependently. Interestingly, pretreatment of rats with methyllycaconitine (10 g; i.c.v.) or -bungarotoxin (10 g; i.c.v.), selective antagonists of 7 subtype of nicotinic acetylcholine receptors (7nAChRs), partially abolished the pressor response to i.c.v. injection of U-46619 (1 g). Similar to the mecamylamine data, the use of higher doses of methyllycaconitine (25 and 50 g; i.c.v.) produced the same magnitude of blockade that was observed after the 10 g methyllycaconitine pretreatment, but it completely abolished the bradycardic effect of U-46619 (1 g; i.c.v.) at the dose of 25 g. The present results show that central administration of U-46619 produces pressor and bradycardic effect and increase in hypothalamic acetylcholine and choline levels by activating central TxA2 receptors. The activation of central nicotinic receptors, predominantly 7nAChRs, partially mediates the cardiovascular responses to i.c.v. injection of U-46619.     

Differential Effects of Sulfate and Sulfobutyl Ether of β-Cyclodextrin on Erythrocyte Membranes in Vitro

The hemolytic activity of -cyclodextrin (-CyD) on rabbit erythrocytes was reduced by the introduction of negatively-charged groups onto the hydroxyls of -CyD; the membrane disrupting abilities decreased in the order of -CyD > 2-hydroxypropyl--CyD (HP--CyD) > sulfobutyl--CyD (SB--CyD) >> -CyD sulfate (S--CyD). Under pre-hemolytic concentrations, both -CyD and SB--CyD induced shape changes of membrane invagination on the erythrocytes. In sharp contrast, S--CyD showed biphasic effect on the shape of the erythrocytes; i.e. the crenation at relatively low concentrations and the invagination at higher concentrations. The S--CyD-induced membrane crenation arose from a direct action on the membranes rather than cell metabolism-mediated effects. Unlike -CyD, S--CyD was found to bind to the erythrocytes and may be confined to the outer surface of the membrane bilayer, which may expand the exterior layer relative to the cytoplasmic half, thereby inducing the cells to crenate. On the other hand, the membrane invagination mediated by the three - CyDs was initiated by extracting specific membrane lipids from the cells, depending upon their inclusion abilities, subsequently leading to the lysis of the cells. These results indicate that SB--CyD and S--CyD interact with the erythrocyte membranes in a differential manner and possess lower membrane disrupting abilities than the parent -CyD and HP--CyD.     

Structural Effects on the Binding of Amine Drugs with the Diphenylmethyl Functionality to Cyclodextrins. I. A Microcalorimetric Study

Solution calorimetry has been employed to evaluate the stability constants and enthalpy changes associated with complex formation between -, , or --cyclodextrin (CD) and a group of amine compounds having the diphenylmethyl functionality. Data from thermal titrations of the compounds were analyzed using nonlinear least squares. The standard free energy decrease accompanying the formation of inclusion complexes is generally due to a negative standard enthalpy change (H°). The standard entropy change (S°) was negative, except in the case of complexes formed with -CD. Of the 13 compounds studied, only 2 formed complexes with 1:2 (compound: (-CD) stoichiometry, terfenadine · HC1 and cinnarizine · 2HC1. All the others formed 1:1 complexes. The structural effect on the stability constants, thermodynamics, and inclusion geometry was explored by relating the calorimetric results to the chemical structures of the guest molecules and the cavity sizes of the CD molecules. The results suggest that one of the phenyl groups of the diphenylmethyl functionality resides in the CD cavity and is in van der Waals contact with the inside wall of the CD cavity. In the case of - and -CDs, van der Waals interaction dominates in the stabilization. On the other hand, the interaction between these compounds and -CD is largely entropically driven. Adiphenine · HC1 forms a more stable complex with -CD than proadifen · HC1, suggesting that hydrogen bonding to the carbonyl oxygen by the hydroxyl group on the rim of the CD ring can influence the strength of the binding interaction.     

Transport of Biologically Active Interferon-gamma Across Human Skin in Vitro

Purpose. Several studies have suggested epidermal uptake of cytokines, such as interferons, can be facilitated using topical liposomal formulations. We have evaluated the in vitro transport of biologically active recombinant human interferon- (rhIFN-) into and through split-thickness human skin to assess this possibility. Methods. Skin samples were exposed to rhIFN- under various conditions involving hydrated and dry surface conditions in the presence and absence of liposomes. A new low-level ELISA and an anti-viral bioassay were used to quantitate transported rhIFN-. Immunohistochemical staining for ICAM-1 expression by keratinocytes was used to visualize the extent and distribution of rhIFN- transport. Results. Apparent steady-state transport of rhIFN- occurred within the first 5 hours of exposure with approximately 10% of transported rhIFN- demonstrating bioactivity. While the permeability of rhIFN- across human skin under drying conditions was enhanced by the presence of liposomes, no augmentation of permeability was observed when the skin was kept hydrated. Liposomal formulations of rhIFN-; had greater transport rates than aqueous formulations when the applied formulations were allowed to dry after dosing. Conclusions. Our results demonstrate the transport of biologically active rhIFN- across human skin in vitro and suggest a role for stratum corneum hydration as one possibility for the augmented cytokine transport.     

Anti-cholinergic effect of verapamil on the muscarinic acetylcholine receptor-gated K+ channel in isolated guinea-pig atrial myocytes

Summary Effects of verapamil on the acetylcholine (ACh)-induced K⁺ current were examined in single atrial cells, using the tight-seal whole-cell clamp technique. The pipette solution contained guanosine-5-triphosphate (GTP) or guanosine-5-O-(3-thiotriphosphate) (GTP-S, a non-hydrolysable GTP analogue). In GTP-loaded cells, ACh induced a specific K⁺ current, which is known to be mediated by pertussis toxin-sensitive GTP-binding (G) proteins. Verapamil (0.1–100 M) depressed the ACh-induced K⁺ current in a concentration-dependent fashion. In GTP-S-loaded cells, the K⁺ current remained persistently after wash-out of ACh, probably due to irreversible activation of G proteins by GTP-S. Verapamil (0.1–100 M) also depressed the intracellular GTP-S-induced K⁺ current. However, the magnitude of verapamil-depression of the K⁺ current in GTP-S-loaded cells was significantly smaller than that in GTP-loaded cells at concentrations between 1 and 10 M of the drug. From these results, it is suggested that verapamil may block not only the function of muscarinic ACh receptors but also of G proteins and/or the K⁺ channel itself and thereby depress the ACh-induced K⁺ current in isolated atrial myocytes.Supported by grants from the Ministry of Education, Science and Culture of Japan and the Research Program on Ca Signal Control Send offprint requests to Y. Kurachi at the above address     

Enzyme-inducing drug combinations and their effects on liver microsomal enzyme activity in man

Summary The effect of 2 different drug combinations on liver microsomal activity was investigated in healthy volunteers by administering antipyrine 1200 mg and phenobarbitone 100 mg, or the same dose of antipyrine with rifampicin 600 mg daily for 14 days. The effect of rifampicin 1200 mg given for only 8 days was also studied. Before and after each drug regimen, estimates were made of the total body clearance of antipyrine, -glutamyl-transferase (-GT) and urinary excretion of 6--hydroxycortisol as in vivo parameters of liver microsomal enzyme activity. Following combined antipyrine and phenobarbitone administration, the antipyrine clearance was increased by 80%, after antipyrine with rifampicin by 128%, and after rifampicin alone by 104%. 6--hydroxycortisol, corrected for 17-hydroxycorticosteroids, increased from 2.6% to 8% following antipyrine plus phenobarbitone, from 4.4% to 27.9% following antipyrine plus rifampicin, and from 5.4% to 29.7% after rifampicin given alone. Based on previous studies, antipyrine given with phenobarbitone produced slightly more induction than phenobarbitone given alone. Following antipyrine 1200 mg with rifampicin 600 mg for 14 days a significantly greater increase in antipyrine clearance and 6--hydroxycortisol excretion was observed than when either drug was given alone.     

Pharmacokinetics,anticonvulsant efficacy,and adverse effects of trans-2-en-valproate after acute and chronic administration in amygdala-kindled rats

Summary Effects of adenosine and nucleotides on the release of previously stored [3H]-noradrenaline were studied in rabbit brain cortex slices. The slices were stimulated twice, in most experiments by 6 electrical field pulses delivered at 100 Hz.Adenosine and the nucleotides AMP, ADP, ATP, AMPS, ADPS, ATPyS, ,-imido-ATP and ,-methyl-ene-ATP all reduced the evoked overflow of tritiated compounds. For purines for which concentration-response curves were determined, the order of potency was adenosine > ATP ATPyS ,-imido-ATP ADP > ,-methylene-ATP. AMP 30 Etmol/l and AMPS 30 mol/l were approximately equieffective with 30 mol/l of adenosine and ATPS, and ADPS, 30 mol/l was approximately equieffective with 30 mol/l of ADP. ,-Methylene-ADP, 2-methylthio-ATP, UTP and GTPS did not change the evoked overflow of tritium. ,-Methylene-ATP caused an increase; however, the increase was small and became significant only after 59 min of exposure to ,-methylene-ATP or when the slices were stimulated by 30 pulses, 10 H₂. Neither adenosine deaminase (100 U/l) nor the blocker of 5-nucleotidase, ,-methylene-ADP (10 mol/l), attenuated the inhibition caused by ATP, ATPyS and ,-methylene-ATP, despite the fact that adenosine deaminase abolished the effect of adenosine. 8-Cyclopentyl-1,3-dipropylxanthine (DPCPX, 10 nmol/l) shifted the concentration-response curves of adenosine, ATPyS, ,-imido-ATP and ,-methylene-ATP to the right by very similar degrees. 8(p-Sulphophenyl)-theophylline (30 and 300 mol/l) also markedly antagonized the inhibition produced by ATPS. ,-Methylene-ATP (10 and 30 mol/l) and suramin (100 gmol/l) did not modify the effects of adenosine, ATPS and ,-methylene-ATP.It is concluded that nucleotides themselves can inhibit the release of noradrenaline in the rabbit brain cortex. The nucleotides and adenosine seem to act at the same site, i.e., the A₁ subtype of the P₁-purinoceptor. The results support the notion that metabolically stable, phosphate chain-modified nucleotides such as ATPS, ,-imido-ATP and ,-methylene-ATP can be potent P₁ agonists. No evidence was found for presynaptic P_2X-, P_2Y- or P₃-purinoceptors. Send offprint requests to I. von Kugelgen at the above address     

Evidence for two separate vasoconstriction-mediating nucleotide receptors,both distinct from the P2X-receptor,in rabbit basilar artery: a receptor for pyrimidine nucleotides and a receptor for purine nucleotides

Summary Uridine 5-triphosphate- (UTP-) and adenosine 5-triphosphate-(ATP) induced vasoconstriction was studied in the rabbit basilar artery. The arteries were incubated and perfused at a constant rate of flow. Vasoconstriction was measured as an increase in perfusion pressure.Serotonin, histamine and noradrenaline caused concentration-dependent vasoconstriction, with potency decreasing in that order. Of the nucleotides tested, UTP, UDP, UMP, CTP, ATP, ADP, adenosine 5-O-(3-thio)triphosphate (ATPS), and ,-imido adenosine 5-triphosphate (AMP-PNP) elicited concentration-dependent vasoconstriction, whereas AMP, 2-methylthio-ATP, , -methylene-ATP and ,-methylene-ATP up to 10^–3 mol/l caused no or only a very small increase in perfusion pressure. The order of potency of the pyrimidine nucleotides was: UTP = UDP UMP = CTP; that of the purine nucleotides was: ATPS > AMP-PNP > ATP > ADP > 2-methylthio-ATP = , -methylene-ATP = ,-methylene-ATP. The vasoconstrictor effects of UTP and ATP were not or only to a minor degree influenced by: phentolamine; a mixture of atropine, diphenhydramine and methysergide; indometacin; nordihydroguaiaretic acid; denervation by 6-hydroxydopamine; or mechanical removal of endothelium. Prolonged exposure to ,-methylene-ATP elicited only a very small vasoconstriction and did not change the constrictor effects of UTP or ATP. Prolonged exposure to ATPS elicited marked vasoconstriction; subsequently, responses to ATP were reduced whereas those to UTP were, if anything, slightly enhanced. Reactive blue 2 reduced neither the UTP- nor the ATP-induced vasoconstriction. ATP 10^–3 mol/l elicited marked additional vasoconstriction after precontraction with UTP 10^–3 mol/l, whereas UTP elicited only a very small additional vasoconstriction when its concentration was doubled from 10^–3 to 2 × 10^–3 mol/l.It is concluded that, in the rabbit basilar artery, the vasoconstrictor response to UTP is mediated by a pyrimidine nucleotide receptor which is distinct from the P₂-purinoceptor, and that the vasoconstrictor response to ATP is mediated by a P₂-receptor which is distinct from the known P₂-subtypes.Send offprint requests to I. v. Kügelgen at the above address     

The selective P2X purinoceptor agonist, β,γ-methylene-L-adenosine 5′-triphosphate,discriminates between smooth muscle and neuronal P2X purinoceptors

The effects of the putative selective P_2X purinoceptor agonist, ,-methylene-l-adenosine 5-triphosphate (me-l-ATP), were determined at rat neuronal and smooth muscle P_2X purinoceptors.Me-l-ATP had no effect on the extracellularly recorded membrane potential of the rat isolated vagus nerve preparation at concentrations up to 300 M. In contrast, the archetypal P_2X purinoceptor agonist, , methylene ATP (meATP;1–100 M), produced concentration-related depolarisation responses with a mean EC₅₀ value of 10.8 M. The depolarising effects of meATP were not attenuated by me-l-ATP (100 M). In voltage clamp experiments on single nodose ganglion neurones, ATP (100 M), but not me-l.-ATP (1–300 M), evoked rapid ( < 20 ms onset) inward currents when applied using a concentration-clamp method. In receptor binding studies to rat brain membranes, me-d-ATP and meATP competed with high affinity for [³H]Lx meATP binding sites, with mean pIC₅₀ values of 7.7 and 8.3, respectively. However, me-l-ATP possessed low affinity for these sites and competed only at concentrations in excess of 10 M (mean pIC₅₀ value 4.1).In prostatic segments of the rat vas deferens, me-l-ATP (1–100 M) and meATP (0.3–100 M) each produced concentration-related contractile responses with mean EC₅₀ values of 17.1 and 3.6 M, respectively. Me-l-ATP (1–10 M) evoked fast inward currents in freshly dispersed vas deferens smooth muscle cells, indicative of an action at ligand-gated ion channels. Binding sites in vas deferens membranes labelled using 1 nM [³H]meATP exhibited high affinity for me-l-ATP, meATP and me-d-ATP with mean PIC₅₀ values of 7.7, 8.4 and 7.3, respectively.These results indicate that me-l-ATP exhibits neither agonist nor antagonist properties at P_2X purinoceptors on rat vagal neurones and possesses only very low affinity for [³H]meATP binding sites in rat brain. In contrast, me-l-ATP is a potent, high affinity agonist at smooth muscle P_2X purinoceptors of the rat vas deferens. This selective agonist action of me-l-ATP suggests that P_2X purinoceptors in smooth muscle and neurones are different and represent distinct P_2X purinoceptor subtypes.     

Infusion of γ2-MSH produce a conditioned taste aversion in morphine-dependent rats

A two flavour, unbiased, taste preference conditioning procedure was used to test for possible motivating effects of ₂-MSH. Three training trials failed to produce any significant effect with doses ranging from 2.4 to 40 g/ ICV infusion in drug-naive, non-operated or placebo-implanted rats. However, in rats made dependent by SC implantation of a morphine pellet 4 days earlier 15 g ₂-MSH/infusion produced a taste aversion that was comparable to that produced by infusion of a low dose of the competitive opioid receptor antagonist naloxone (0.32 g). The findings confirm with a conditioning procedure and with opiate-dependent animals the naloxone-like effects of ₂-MSH. They also suggest that this endogenously-located peptide may acquire an aversive property as a result of chronic morphine treatment.     

Interleukin-1β mediates endotoxin- and tumor necrosis factor α-induced RGS16 protein expression in cultured cardiac myocytes

Endotoxin (LPS)-induced cardiac failure is associated with an up-regulation of RGS16 protein expression and repression of phospholipase C activity in vivo. Since the release of pro-inflammatory cytokines plays an important role in mediating LPS-induced myocardial dysfunction, we examined the effect of recombinant cytokines on the expression of RGS16 protein in neonatal cardiac myocytes. Myocytes in culture were treated with 50 ng/ml recombinant tumor necrosis factor (TNF), 2 ng/ml interleukin 1 (IL-1), interleukin 6 (IL-6), interferon (IFN) or diluent (NaCl) for 24 h. Before stimulation with LPS (4 µg/ml for 24 h) cells were treated with 200 ng/ml interleukin 1-receptor antagonist (IL-1ra), 500 ng/ml soluble TNF receptor (sTNFr), or NaCl for 1 h. Isolated membrane proteins were used for Western blot analysis. Cell-associated and secreted IL-1 and TNF protein content were determined in myocyte protein homogenates and cell culture supernatants by ELISA immunoblotting 3, 6, 24, 48 and 72 h after treatment with LPS. IL-1 (1.75-fold) and TNF (1.62-fold) but not IL-6 and IFN induced RGS16 protein expression. LPS stimulated intracellular IL-1 expression within 6 h (847.1±172.9 pg/3×10⁶ cells) followed by an increase in extracellular secretion up to 70.8±8.1 pg/3×10⁶ cells after 48 h. In contrast, intracellular protein concentrations of TNF were almost not detectable (0.03±0.01 pg/3×10⁶ cells), but extracellular secretion was induced by LPS with a maximum at 6 h (653.9±36.3 pg/3×10⁶ cells). The LPS-induced increase in RGS16 (1.6-fold) was blunted by IL-1ra but not by TNF scavenging. Interestingly, both, the IL-1- and TNF-effect could be blocked by IL-1ra, indicating that also the TNF-induced RGS16 expression is mediated by IL-1. We therefore conclude that LPS induces RGS16 protein expression by activation of the cytokine IL-1 in cardiac myocytes. Our data substantiate the role of IL-1 as an important mediator in LPS-induced cardiac failure.     

G protein-mediated receptor-receptor interaction: studies with chemotactic receptors in membranes of human leukemia (HL 60) cells

Summary Differentiated human leukemia (HL 60) cells contain high numbers of receptors for the chemotactic factors, N-formylmethionyl-leucyl-phenylalanine (fMet-Leu-Phe) and complement component 5a (C5a), both coupled to pertussis toxin-sensitive guanine nucleotide-binding regulatory proteins (G proteins). Agonist activation of either receptor stimulated binding of the GTP analog, guanosine 5-[-thio]triphosphate (GTP[S]), to membrane G proteins and by a similar extent in a non-additive manner. The possible interaction of the two receptors was studied by measuring agonist binding to one receptor in the presence of the other receptor agonist. fMet-Leu-Phe and C5a had no effects on [¹²⁵I]C5a and fMet-Leu-[³H]Phe receptor binding, respectively, when studied in the absence of regulatory ligands. Similarly, the inhibitory effects of NaCl and GDP on agonist receptor binding were not altered in the presence of the other receptor agonist. In contrast, in the presence of the GTP analogs, GTP[S] and guanosine 5-[,-imino] triphosphate, fMet-Leu-Phe and C5a reduced the binding of [¹²⁵I]C5a and fMet-Leu-[³H]Phe, respectively, in a concentration-dependent manner. The potencies of the GTP analogs to inhibit binding of [¹²⁵I]C5a and fMet-Leu-[³H]Phe was increased about 3-fold by fMet-Leu-Phe and C5a, respectively. The data presented suggest that fMet-Leu-Phe and C5a receptors share the same G protein pool in membranes of HL 60 cells and that activation of these G proteins by one of the two receptors decreases the availability of G proteins for the other receptor. Correspondence to T. Wieland at the above address     

Effect of inhibition of γ-glutamyltranspeptidase by AT-125 (Acivicin) on glutathione and cysteine levels in rat brain and plasma

Summary AT-125 (Acivicin) is an inhibitor of -glutamyltranspeptidase (-GTP) which initiates glutathione catabolism to cysteine. We measured plasma and brain glutathione and cysteine in rats treated with AT-125. Six h after AT-125 treatment, plasma glutathione had increased 6-fold and plasma cysteine had fallen significantly. Brain cysteine fell after 24 h of AT-125 treatment, and brain glutathione had also decreased 18%. AT-125 pretreatment inhibited brain uptake of ³⁵S when it was given as ³⁵S-GSH but had no effect when it was given as ³⁵S-cysteine. These results suggest that plasma glutathione is catabolized by -GTP, and cysteine derived from it is taken up by the brain. N-acetylcysteine was administered to AT-125 treated rats in an attempt to supply cysteine to the brain in the face of -GTP inhibition. N-acetylcysteine supported brain glutathione levels, suggesting that it can serve as a source of cysteine under these conditions.Abbreviations -GTP -glutamyltranspeptidase - GSH reduced glutathione - TCA trichloroacetic acid     

Change of Phase-Solubility Behavior by Gamma-Cyclodextrin Derivatization

The effect of -cyclodextrin and its four derivatives on the solubility of progesterone in phosphate buffer pH 7.4 was investigated. -Cyclodextrin forms a complex precipitating from solution at low cyclodextrin concentrations. No precipitation of complexes was observed with the -cyclodextrin derivatives. This change in phase-solubility behavior is probably due to low crystallization tendencies of the derivatives.     

Rectal Absorption Enhancement of Des-Enkephalin-γ-Endorphin (DEγE) by Medium-Chain Glycerides and EDTA in Conscious Rats

The stability of the neuroleptic peptide des-enkephalin--endorphin (DEE; Org 5878) in the rectal lumen and the rectal bioavailability of DEE were investigated in conscious rats. Furthermore, the influence of peptidase inhibition, peptidase saturation, and absorption enhancement on DEE bio-availability were evaluated. Na₂EDTA (0.25%, w/v) prolonged the degradation half-life of DEE in the ligated colon from 33 ± 7 to 93 ± 45 min. Without adjuvant, tritium-labeled DEE was absorbed from the rat rectum to a very low extent (0–4%). After administration of an excess of unlabeled DEE or with Na₂EDTA, comparable results were obtained. The medium-chain glyceride preparation MGK markedly enhanced the rectal DEE bioavailability, up to 8–20%, which was further increased to 10–44% by coadministration of Na₂EDTA. No substantial influence of varying the rectal delivery rate was observed. The results suggest that absorption enhancement and enzyme inhibition both are essential for effective increase of rectal peptide bioavailability.     

Cyclodextrins as Nasal Absorption Promoters of Insulin: Mechanistic Evaluations

The safety and effectiveness of cyclodextrins (CD) as nasal absorption promoters of peptide-like macromolecules have been investigated. The relative effectiveness of the cyclodextrins in enhancing insulin nasal absorption was found to be in the descending order of dimethyl--cyclodextrin (DMCD) > -cyclodextrin (-CD) > -cyclodextrin (-CD), hydroxypropyl--cyclodextrin (HPCD) > -cyclodextrin (-CD). A direct relationship linking absorption promotion to nasal membrane protein release is evident, which in turn correlates well with nasal membrane phospholipid release. The magnitude of the membrane damaging effects determined by the membrane protein or phospholipid release may provide an accurate, simple, and useful marker for predicting safety of the absorption enhancers. In order to estimate further the magnitude of damage and specificity of cyclodextrin derivatives in solubilizing nasal membrane components, the enzymatic activities of membrane-bound 5-nucleotidase (5-ND) and intracellular lactate dehydrogenase (LDH) in the perfusates were also measured. HPCD at a 5% concentration was found to result in only minimal removal of epithelial membrane proteins as evidenced by a slight increase in 5-ND and total absence of LDH activity. On the other hand, 5% DMCD caused extensive removal of the membrane-bound 5-ND. Moreover, intracellular LDH activity in the perfusate increased almost linearly with time. The cyclodextrins are also capable of dissociating insulin hexamers into smaller aggregates, and this dissociation depends on cyclodextrin structure and concentration. Enhancement of insulin diffusivity across nasal membrane through dissociation may provide an additional mechanism for cyclodextrin promotion of nasal insulin absorption.