ABSTRACT
INTRODUCTION: The use of mesenchymal stem cells (MSC) in cytotoxicity tests is an in-vitro alternative model for predicting initial doses. Homeopathic medicines may stimulate the immune system to combat a pathology effectively and have been used for over two centuries. Viscum album (VA) extracts are widely used in the treatment of cancer, due to their immunomodulatory, cytotoxic and pro-apoptotic properties. OBJECTIVE: This study aimed to evaluate the in-vitro growth kinetics of canine MSC in relation to cytotoxicity, cell differentiation and expression of pluripotentiality markers, using a VA preparation at the D1D2 (1×10-1, 1×10-2 potency (VAD1D2). METHODS: MSC were obtained from adipose tissue sampled from a healthy dog that was undergoing an elective veterinary procedure and with its owner's permission. The experiments were performed in three groups: MSC treated with VAD1D2 or diluent or untreated (control). The cytotoxicity was evaluated by MTT assay. The differentiation was induced in three lineages, and apoptotic cell labeling was performed by an Annexin-V test. RESULTS: At the concentration of 10 µL/mL of VA, the number of cells after in-vitro culture was maintained when compared with the control (untreated) group. A significant and gradual decrease in cell viability was recorded as VA concentrations increased. The apoptosis analysis showed that VA at 20 µL/mL presented absolute percentages of initial apoptosis twice as high as at 10 µL/mL, which was similar to the control (untreated group). CONCLUSION: The results suggest that the use of efficient methods to assess the in-vitro cytotoxicity of VA-based homeopathic medicines using MSC lineages may predict the potential action at different concentrations. These findings demonstrated that VAD1D2 interferes with canine MSC growth kinetics.
Subject(s)
Homeopathy , Mesenchymal Stem Cells , Viscum album , Animals , Dogs , Plant Extracts/pharmacology , KineticsABSTRACT
We studied the effects of homeopathic monopreparations of plant origin Atropa Belladonna and Rhus toxicodendron in three dilutions (potencies) on interstitial humoral transport in healthy laboratory mice assessed by the rate of excretion of the lymphotropic label from the mesentery according to the Oyvin's method (vital biomicroscopy of intestinal mesentery in small animals). The homeopathic monopreparations exerted a dose-dependent inhibitory effect on the interstitial transport and lymphatic drainage in tissues of healthy mice.
Subject(s)
Atropa belladonna/chemistry , Lymphatic Vessels/drug effects , Lymphoid Tissue/drug effects , Plant Extracts/pharmacology , Toxicodendron/chemistry , Animals , Biological Transport/drug effects , Coloring Agents , Evans Blue , Kinetics , Lymphatic Vessels/metabolism , Lymphoid Tissue/metabolism , Mesentery/drug effects , Mice , Mice, Inbred Strains , Plant Extracts/isolation & purification , Plants, Medicinal , RheologyABSTRACT
The final step in the biosynthesis of the phthalideisoquinoline alkaloid noscapine involves a purported dehydrogenation of the narcotinehemiacetal keto moiety. A short-chain dehydrogenase/reductase (SDR), designated noscapine synthase (NOS), that catalyzes dehydrogenation of narcotinehemiacetal to noscapine was identified in opium poppy and functionally characterized. The NOS gene was isolated using an integrated transcript and metabolite profiling strategy and subsequently expressed in Escherichia coli. Noscapine synthase is highly divergent from other characterized members of the NADPH-dependent SDR superfamily involved in benzylisoquinoline alkaloid metabolism, and it exhibits exclusive substrate specificity for narcotinehemiacetal. Kinetic analyses showed that NOS exhibits higher catalytic efficiency with NAD+ as the cofactor compared with NADP+. Suppression of NOS transcript levels in opium poppy plants subjected to virus-induced gene silencing resulted in a corresponding reduction in the accumulation of noscapine and an increase in narcotinehemiacetal levels in the latex. Noscapine and NOS transcripts were detected in all opium poppy organs, but both were most abundant in stems. Unlike other putative biosynthetic genes clustered in the opium poppy genome, and their corresponding proteins, NOS transcripts and the cognate enzyme were abundant in latex, indicating that noscapine metabolism is completed in a distinct cell type compared with the rest of the pathway.
Subject(s)
Noscapine/metabolism , Opium/metabolism , Oxidoreductases/metabolism , Papaver/enzymology , Base Sequence , Biocatalysis , Chromatography, High Pressure Liquid , DNA Primers , Genes, Plant , Kinetics , Ligases/genetics , Ligases/metabolism , Molecular Sequence Data , Papaver/genetics , Papaver/metabolism , Tandem Mass SpectrometryABSTRACT
In opium poppy, the antepenultimate and final steps in morphine biosynthesis are catalyzed by the 2-oxoglutarate/Fe(II)-dependent dioxygenases, thebaine 6-O-demethylase (T6ODM) and codeine O-demethylase (CODM). Further investigation into the biochemical functions of CODM and T6ODM revealed extensive and unexpected roles for such enzymes in the metabolism of protopine, benzo[c]phenanthridine, and rhoeadine alkaloids. When assayed with a wide range of benzylisoquinoline alkaloids, CODM, T6ODM, and the functionally unassigned paralog DIOX2, renamed protopine O-dealkylase, showed novel and efficient dealkylation activities, including regio- and substrate-specific O-demethylation and O,O-demethylenation. Enzymes catalyzing O,O-demethylenation, which cleave a methylenedioxy bridge leaving two hydroxyl groups, have previously not been reported in plants. Similar cleavage of methylenedioxy bridges on substituted amphetamines is catalyzed by heme-dependent cytochromes P450 in mammals. Preferred substrates for O,O-demethylenation by CODM and protopine O-dealkylase were protopine alkaloids that serve as intermediates in the biosynthesis of benzo[c]phenanthridine and rhoeadine derivatives. Virus-induced gene silencing used to suppress the abundance of CODM and/or T6ODM transcripts indicated a direct physiological role for these enzymes in the metabolism of protopine alkaloids, and they revealed their indirect involvement in the formation of the antimicrobial benzo[c]phenanthridine sanguinarine and certain rhoeadine alkaloids in opium poppy.
Subject(s)
Benzylisoquinolines/metabolism , Biocatalysis , Dioxygenases/metabolism , Opium/metabolism , Papaver/enzymology , Benzylisoquinolines/chemistry , Berberine Alkaloids/chemistry , Berberine Alkaloids/metabolism , Chromatography, Liquid , Formaldehyde/metabolism , Gene Silencing , Kinetics , Mass Spectrometry , Methylation , Phylogeny , Substrate Specificity , VirusesABSTRACT
The evaluation of permeability in biopharmaceutics classification system of Chinese materia medica (CMMBCS) requires multicomponent as a whole in order to conduct research, even in the study of a specific component, should also be put in the multicomponent environment. Based on this principle, the high content components in Gegen Qinlian decoction were used as multicomponent environmental impact factors in the experiment, and the relevant parameters of intestinal permeability about puerarin were measured with using in situ single-pass intestinal perfusion model, to investigate and evaluate the intestinal permeability of puerarin with other high content components. The experimental results showed that different proportions of baicalin, glycyrrhizic acid and berberine had certain influence on intestinal permeability of puerarin, and glycyrrhizic acid could significantly inhibit the intestinal absorption of puerarin, moreover, high concentration of berberine could promote the absorption of puerarin. The research results indicated that the important research ideas of permeability evaluation in biopharmaceutics classification system of Chinese materia medica with fully considering the effects of other ingredients in multicomponent environment.
Subject(s)
Drugs, Chinese Herbal/pharmacokinetics , Intestinal Mucosa/metabolism , Isoflavones/pharmacokinetics , Materia Medica/pharmacokinetics , Animals , Berberine/pharmacokinetics , Biopharmaceutics , Chromatography, High Pressure Liquid , Flavonoids/pharmacokinetics , Glycyrrhizic Acid/pharmacokinetics , Intestines/chemistry , Kinetics , Male , Permeability , Rats , Rats, WistarABSTRACT
Tyrosine aminotransferase (TyrAT) catalyzes the transamination of L-Tyr and α-ketoglutarate, yielding 4-hydroxyphenylpyruvic acid and L-glutamate. The decarboxylation product of 4-hydroxyphenylpyruvic acid, 4-hydroxyphenylacetaldehyde, is a precursor to a large and diverse group of natural products known collectively as benzylisoquinoline alkaloids (BIAs). We have isolated and characterized a TyrAT cDNA from opium poppy (Papaver somniferum), which remains the only commercial source for several pharmaceutical BIAs, including codeine, morphine, and noscapine. TyrAT belongs to group I pyridoxal 5'-phosphate (PLP)-dependent enzymes wherein Schiff base formation occurs between PLP and a specific Lys residue. The amino acid sequence of TyrAT showed considerable homology to other putative plant TyrATs, although few of these have been functionally characterized. Purified, recombinant TyrAT displayed a molecular mass of approximately 46 kD and a substrate preference for L-Tyr and α-ketoglutarate, with apparent K(m) values of 1.82 and 0.35 mm, respectively. No specific requirement for PLP was detected in vitro. Liquid chromatography-tandem mass spectrometry confirmed the conversion of L-Tyr to 4-hydroxyphenylpyruvate. TyrAT gene transcripts were most abundant in roots and stems of mature opium poppy plants. Virus-induced gene silencing was used to evaluate the contribution of TyrAT to BIA metabolism in opium poppy. TyrAT transcript levels were reduced by at least 80% in silenced plants compared with controls and showed a moderate reduction in total alkaloid content. The modest correlation between transcript levels and BIA accumulation in opium poppy supports a role for TyrAT in the generation of alkaloid precursors, but it also suggests the occurrence of other sources for 4-hydroxyphenylacetaldehyde.
Subject(s)
Benzylisoquinolines/metabolism , Opium/metabolism , Papaver/enzymology , Tyrosine Transaminase/metabolism , Benzylisoquinolines/chemistry , DNA, Complementary/genetics , Gene Expression Profiling , Gene Expression Regulation, Plant , Hydrogen-Ion Concentration , Kinetics , Papaver/genetics , Phylogeny , RNA, Messenger/genetics , RNA, Messenger/metabolism , Recombinant Proteins/isolation & purification , Tyrosine Transaminase/genetics , Tyrosine Transaminase/isolation & purificationABSTRACT
The effect of human chorionic gonadotropin (hCG) stimulation on the activities of ethoxyresorufin O-deethylase (EROD), methoxyresorufin O-demethylase (MROD) and pentoxyresorufin O-depentylase (PROD) was studied in intact male pigs of purebred Landrace and Duroc breeds. Pigs were divided into four groups: two control groups of each breed, without hCG stimulation (n = 20 for each breed), and two experimental groups (n = 18 for each breed), with hCG stimulation (Pregnyl(®); N.V. Organon, Oss, The Netherlands, 30 IU/kg live weight). Pigs were slaughtered 3 days after hCG stimulation and enzyme activities were measured in hepatic microsomes using two approaches. First, only one substrate concentration was used for the analysis of each enzyme activity. We found that EROD activity was suppressed by hCG-stimulation in Landrace (p = 0.004), but not Duroc pigs (p > 0.05). Generally, EROD activity was higher in Duroc pigs compared with Landrace (p = 0.017). Methoxyresorufin O-demethylase and PROD activities did not differ between groups (p > 0.05). To further characterize EROD, MROD and PROD, enzyme kinetic studies were performed. V(max) values for EROD and MROD in both breeds were lower after hCG stimulation (p < 0.001 for Landrace and p < 0.05 for Duroc). Additionally, V(max) values for EROD significantly differed between Landrace and Duroc pigs being higher in Duroc pigs (p < 0.05). We concluded that both hCG stimulation and breed differences may be important in the regulation of EROD and MROD activities. This study provides the first data on the effect of hCG stimulation and thus high testicular steroids, on EROD, MROD and PROD activities. Further studies are needed to investigate individual CYP450 enzymes and their regulation in porcine tissues.
Subject(s)
Chorionic Gonadotropin/pharmacology , Cytochrome P-450 CYP1A1/metabolism , Cytochrome P-450 CYP2B1/metabolism , Cytochrome P-450 Enzyme System/metabolism , Liver/enzymology , Swine/metabolism , Animals , Cytochrome P-450 CYP1A1/genetics , Cytochrome P-450 CYP2B1/genetics , Cytochrome P-450 Enzyme System/genetics , Gene Expression Regulation, Enzymologic , Kinetics , Liver/drug effects , Male , Oxazines/metabolism , Reproductive Control Agents/pharmacology , Swine/geneticsABSTRACT
To determine the effects of opium on serum glucose, potassium and sodium in male and female Wistar rat, opium solution (60 mg/kg) injected intraperitoneally and the same volume of distilled water was used as control (7 rats in each group). Blood samples were collected at 0, 30, 60, 120, 240 and 360 minutes after injection from orbit cavity and the values of serum glucose, sodium (Na(+)) and potassium (K(+)) were measured. The data were then analyzed by the repeated measure ANOVA based on sex and case-control group. P < 0.05 considered as significant difference. Serum glucose increased significantly at 30, 60, 120 and 240 minutes after opium solution injection, in female rats compared to a control group. However, the male rats had this rise at 30, 60 and 120 minutes after opium solution injection compared to control group. While serum glucose in male rats was significantly higher than females at 30, 60 and 120 minutes, this value was higher in the female rats at 360 minutes. Therefore, serum glucose alterations following opium injection was significantly different in groups and in the sexes at different times. Sodium (Na(+)) rose at 60, 240 and 360 minutes significantly in all rats compared to control group. However, sodium alteration following opium injection was significantly different only between treated and control groups but sex-independent at all times. Potassium (K(+)) increased significantly at 60, 120, 240 and 360 minutes in male rats, compared to a control group. In female rats K(+) significantly raised at 30, 120, 240 and 360 minutes. Therefore, the alteration of K(+) in male and female rats was found time dependent and sex independent. According to our results, opium increased serum glucose in male and female rats differently, and it interferes with metabolic pathways differently on a gender dependent basis. Opium raised serum Na(+) and K(+), thus it interfere with water regulation and blood pressure via different mechanism.
Subject(s)
Blood Glucose/metabolism , Opium/pharmacology , Potassium/blood , Sodium/blood , Animals , Blood Glucose/drug effects , Female , Kinetics , Male , Rats , Rats, Wistar , Sex CharacteristicsABSTRACT
Neuromuscular blocking drugs produce muscle weakness by interaction with nicotinic-acetylcholine receptors. Cardiovascular side effects have been reported. In this study the neuromuscular blocking drug vecuronium and the controls gallamine and pancuronium slowed the rate of atropine induced [(3)H]N-methylscopolamine dissociation from Chinese hamster ovary cells expressing recombinant human muscarinic M2 receptors K(off) values min(-1); vecuronium (125 nM), atropine 0.45+/-0.07+blocker 0.04+/-0.02; gallamine (21 nM), atropine 0.42+/-0.05+blocker 0.15+/-0.04; pancuronium(21 nM), atropine 0.36+/-0.03+blocker 0.03+/-0.01). These data indicate that vecuronium, gallamine and pancuronium interact with an allosteric site on the muscarinic M2 receptor (located on the heart) and this may explain some of their cardiac side effects.
Subject(s)
Neuromuscular Blocking Agents/pharmacology , Pancuronium/pharmacology , Receptor, Muscarinic M2/metabolism , Vecuronium Bromide/pharmacology , Allosteric Regulation/drug effects , Animals , Atropine/pharmacology , Binding, Competitive/drug effects , CHO Cells , Cricetinae , Cricetulus , Gallamine Triethiodide/pharmacology , Humans , Kinetics , Muscarinic Antagonists/pharmacology , N-Methylscopolamine/metabolism , Pancuronium/metabolism , Radioligand Assay , Receptor, Muscarinic M2/antagonists & inhibitors , Receptor, Muscarinic M2/genetics , Recombinant Proteins/metabolism , TritiumABSTRACT
The interaction of pancuronium with sodium channels was investigated in squid axons. Sodium current turns on normally but turns off more quickly than the control with pancuronium 0.1-1mM present internally; The sodium tail current associated with repolarization exhibits an initial hook and then decays more slowly than the control. Pancuronium induces inactivation after the sodium inactivation has been removed by internal perfusion of pronase. Such pancuronium-induced sodium inactivation follows a single exponential time course, suggesting first order kinetics which represents the interaction of the pancuronium molecule with the open sodium channel. The rate constant of association k with the binding site is independent of the membrane potential ranging from 0 to 80 mV, but increases with increasing internal concentration of pancuronium. However, the rate constant of dissociation l is independent of internal concentration of pancuronium but decreases with increasing the membrane potential. The voltage dependence of l is not affected by changine external sodium concentration, suggesting a current-independent conductance block, The steady-state block depends on the membrane potential, being more pronounced with increasing depolarization, and is accounted for in terms of the voltage dependence of l. A kinetic model, based on the experimental observations and the assumption on binding kinetics of pancuronium with the open sodium channel, successfully simulates many features of sodium current in the presence of pancuronium.
Subject(s)
Axons/drug effects , Decapodiformes/metabolism , Membrane Potentials/drug effects , Pancuronium/pharmacology , Sodium/metabolism , Action Potentials/drug effects , Animals , Axons/metabolism , Binding, Competitive , Electric Conductivity , Kinetics , Models, BiologicalABSTRACT
Vecuronium kinetics and dynamics were determined in five infants (3 to 11 months old) and five children (1 to 5 years old) during anesthesia with 70% nitrous oxide and 0.9 MAC halothane. Vecuronium was infused intravenously at a rate of 2.5 micrograms/kg/min while twitch tension of the adductor pollicis muscle was recorded and venous blood samples were drawn for determination of vecuronium concentrations by mass spectrometry. The elimination t1/2 was determined by linear regression of the log postdistribution concentration-time data; these values and noncompartmental techniques were used to calculate total plasma clearance (Cl), volume of distribution at steady state (Vdss), and mean residence time. The steady-state plasma concentration resulting in 50% depression of twitch tension (Cpss50) was determined by an effect compartment and a sigmoid concentration vs. paralysis model. Vdss was larger in infants (357 +/- 70 ml/kg; mean +/- SD) than in children (204 +/- 116 ml/kg), and Cl was of the same order for infants and children (5.6 +/- 1.0 and 5.9 +/- 2.4 ml/kg/min). Mean residence time was longer in infants (66.3 +/- 22.9 minutes) than in children (34.3 +/- 8.0 minutes). Cpss50 was lower in infants (57 +/- 18 ng/ml) than in children (110 +/- 28 ng/ml). The quantity of vecuronium in the body at steady state at 50% depression of twitch tension (Vdss X Cpss50) was similar in infants and children (21.2 +/- 9.9 and 19.0 +/- 3.3 micrograms/kg). During comparable nitrous oxide-halothane anesthesia, age-related changes in Vdss, Cl, and Cpss50 were much like those found for d-tubocurarine.(ABSTRACT TRUNCATED AT 250 WORDS)
Subject(s)
Pancuronium/analogs & derivatives , Aging , Anesthesia , Child, Preschool , Female , Halothane , Humans , Infant , Infusions, Parenteral , Kinetics , Male , Neuromuscular Junction/drug effects , Nitrous Oxide , Pancuronium/blood , Pancuronium/metabolism , Vecuronium BromideABSTRACT
Antithrombin and its cofactor, heparin, target both the product of prothrombin activation by prothrombinase, thrombin, as well as the enzyme responsible for the reaction, factor (F)Xa. These studies were carried out to quantify the effects of each of the prothrombinase components on the half-life of FXa in the presence of antithrombin and the low-molecular-weight heparins (enoxaparin, Aventis, Laval, Quebec, Canada) or the heparin pentasaccharide (fondaparinux, Organon Sanofi-Synthelabo, Cypress, TX, USA). Experiments were carried out using a recombinant form of prothrombin in which the active site serine has been mutated to cysteine and subsequently labeled with fluorescein. This mutant allowed calculation of the second order rate constant for inhibition of FXa by antithrombin in such a way that competition for antithrombin by thrombin is eliminated and competition for FXa by prothrombin is accounted for. Intrinsic rate constants for the inhibition of FXa by antithrombin-enoxaparin and antithrombin-fondaparinux, in the presence of the various prothrombinase components, were calculated. Addition of phospholipid had no significant effect on the second order rate constant for inhibition of FXa by antithrombin, while addition of FVa appeared to be mildly protective. Further addition of prothrombin however, caused profound protection of FXa, increasing its half-life from 1.1 to 353 s in the case of fondaparinux, and from 0.4 to 42 s in the case of enoxaparin. Similar results were reported for unfractionated heparin previously [1]. Therefore, in the presence of unfractionated heparin, fondaparinux, or enoxaparin, prothrombinase is profoundly protected from antithrombin.
Subject(s)
Antithrombin III/pharmacology , Enoxaparin/pharmacology , Factor V/drug effects , Factor Xa/drug effects , Polysaccharides/pharmacology , Binding Sites/genetics , Catalysis , Drug Therapy, Combination , Factor Xa/metabolism , Fondaparinux , Half-Life , Humans , Kinetics , Models, Theoretical , Mutation , Prothrombin/genetics , Recombinant Proteins/geneticsABSTRACT
The lower detection limit of the conventional one-stage aPTT based clotting assay for determining FVIII:C levels is generally 1.0-2.0 IU/dl. Consequently, it has been impossible to study the clinical significance of levels of FVIII:C less than 1.0 IU/dl. Using a photo-optical automated coagulation analyzer, the Organon Teknika MDA II, we have performed qualitative and quantitative aPTT waveform analysis and measured FVIII:C levels by automated one-stage aPTT clotting assay in 36 severely affected Hemophilia A patients. Qualitative waveform analysis showed clear evidence of individual differences in the waveform profile suggesting differing coagulant activity from patient to patient. The FVIII:C level was less than 0.2 IU/dl in 23 cases and levels of FVIII:C between 0.2 and 1.0 IU/dl could be discriminated in 13 patients. The FVIII:C level in these patients was closely correlated with the minimum value of the second derivative of the aPTT waveform (Min2). This is a measure of the acceleration of change in optical transmission at the initiation of coagulation. Furthermore, the correlation of the
Subject(s)
Factor VIII/analysis , Blood Coagulation Tests/instrumentation , Blood Coagulation Tests/standards , Hemophilia A/blood , Hemophilia A/diagnosis , Humans , Kinetics , Partial Thromboplastin Time , Reference Values , Sensitivity and SpecificityABSTRACT
Muscle relaxants are of great benefit to the anaesthetist as adjuncts to anaesthesia. These drugs are used to facilitate endotracheal intubation and to reduce muscle tone during surgery, and may also find application in assisting ventilator care in the intensive care situation. The pharmacological effect of the relaxants may be readily assessed by the anaesthetist by means of a variety of techniques to quantify muscular activity in response to electrical stimulation. A number of factors may modify the effects of the muscle relaxants including anaesthetic agents, hypothermia, patient age and disease status and a variety of drugs. The disposition kinetics of the muscle relaxants have been well characterised although information on protein binding and placental transfer is somewhat scanty. A common characteristic of their pharmacokinetics is multicompartmental behaviour. Clearance of the relaxants ranges from total elimination by the kidneys (gallamine) to substantial hepatic clearance (fazadinium), and thus their clearance may be adversely affected by renal or hepatic disease. Dosage regimens have been designed using knowledge of the disposition kinetics of the relaxants to provide for continuous adequate relaxation during prolonged surgical procedures. With the use of sophisticated pharmacokinetic and pharmacodynamic models good relationships have been demonstrated between plasma concentrations of the relaxants throughout the entire range of relaxant response.
Subject(s)
Neuromuscular Blocking Agents/metabolism , Adolescent , Adult , Aged , Animals , Blood Proteins/metabolism , Drug Interactions , Gallamine Triethiodide/metabolism , Humans , Kidney Diseases/metabolism , Kinetics , Liver Diseases/metabolism , Middle Aged , Neuromuscular Blocking Agents/administration & dosage , Neuromuscular Blocking Agents/therapeutic use , Pancuronium/metabolism , Protein Binding , Rats , Tubocurarine/metabolismABSTRACT
1. The action of pancuronium on transmembrane sodium conductance was investigated in dorsal root ganglion neurones of chick embryos. The Na+ current was measured by use of the patch-clamp technique in whole-cell configuration. 2. Externally perfused pancuronium (50 microM to 1 mM) reversibly inhibited the current by a fast mechanism of action. Inhibition was concentration-dependent (with a half-effective dose of 170 microM) but not voltage-dependent. 3. The activation and inactivation kinetics of the Na+ current were estimated in pancuronium and in control solution by fitting experimental data with a Hodgkin-Huxley theoretical model. 4. The activation time constant tau m, at negative membrane voltages, was larger in the presence of pancuronium than in the control. In contrast, the inactivation time constant tau h was smaller during drug perfusion at membrane voltages < -10 mV. The steady-state inactivation h infinity was not affected by pancuronium. 5. These results suggest that pancuronium may reduce the sodium current by interacting with the sodium channels in both the resting and open states.
Subject(s)
Neurons, Afferent/drug effects , Pancuronium/pharmacology , Sodium Channels/drug effects , Sodium/metabolism , Animals , Cells, Cultured , Chick Embryo , Dose-Response Relationship, Drug , Electrophysiology , Ganglia, Spinal/cytology , Ganglia, Spinal/drug effects , Kinetics , Membrane Potentials/drug effects , Neurons, Afferent/cytology , Neurons, Afferent/metabolismABSTRACT
The young infant differs from the adult in his quantitative responses to many anaesthetic drugs and adjuncts. In the neonate, the larger extracellular fluid volume and blood volume, the smaller muscle mass and fat stores, and presumable greater blood flow to the central organs, not only influence the distribution of drugs to their active site but also secondary redistribution. The neonatal hepatic anzyme systems responsible for the metabolism of drugs are incompletely developed or absent. Glomerular filtration, important for drug excretion, is inefficient by adult standards. The neonate has increased toxicity and sensitivity to a variety of sedative-hypnotics, narcotics, and local anaesthetics. On the other hand, the infant requires more suxamethonium (succinylcholine) and ketamine on a weight basis that does the adult. The response of some infants to non-depolarising muscle relaxants resembles that of the myasthenic patients. The rate of uptake of alveolar levels of inhalation anesthetics is more rapid in infants and children than in adults. In addition, the neonate requires more anaesthetic than the adult for a given surgical stimulus. Biotransformation of inhalation anaesthetics is limited in neonates. Awareness of these pharmacological differences and their probable explanations allows one to provide rational, safer anaesthesia to infants.
Subject(s)
Anesthesia , Anesthetics/metabolism , Anesthetics, Local , Atropine , Barbiturates , Biotransformation , Child , Child, Preschool , Diazepam , Humans , Hypnotics and Sedatives , Infant , Ketamine , Kinetics , Muscle Relaxants, Central , Narcotics , Pancuronium , Succinylcholine , TubocurarineABSTRACT
Glucocorticoids are used in physiological and pharmacological amounts in the management of a variety of clinical conditions. Concomitant utilisation of other drugs or the presence of some diseases may affect the physiological action of the steroid in the tissues. Phenytoin, phenobarbitone, ephedrine and rifampicin accelerate the metabolism of glucocorticoids thereby decreasing their biological activity. A similar phenomenon occurs in patients with hyperthyroidism. In contrast, glucocorticoid action is enhanced in hypothyroid patients and in those with hepatic damage as the result of a defect in the clearance of the hormone from blood. In turn, glucocorticoids antagonise the effects of cholinesterase inhibitors and ganglion blocking agents. The above mentioned effects should be kept in mind whenever glucocorticoids are utilised in the diagnosis and management of endocrine or non-endocrine conditions.
Subject(s)
Glucocorticoids/pharmacology , Anticonvulsants/pharmacology , Cholinesterase Inhibitors/pharmacology , Contraceptives, Oral/pharmacology , Cushing Syndrome/diagnosis , Dexamethasone/blood , Diuretics/pharmacology , Drug Interactions , Ephedrine/pharmacology , Ganglionic Blockers/pharmacology , Glucocorticoids/metabolism , Humans , Hypnotics and Sedatives/pharmacology , Insulin/pharmacology , Kinetics , Liver Diseases/physiopathology , Pancuronium/pharmacology , Rifampin/pharmacology , Salicylates/pharmacology , Thyroid Diseases/physiopathologyABSTRACT
Since binding of an agonist to an ionotropic neurotransmitter receptor causes not only channel opening, but also desensitization of the receptor, inhibition of the receptor by the antagonist sometimes becomes very complicated. The transient state kinetics of ligand association and dissociation, and desensitization of the receptor were considered on the basis of the minimal model proposed by Hess' group, and the following possibilities were proposed. 1) When an agonist is simultaneously applied to the receptor with an antagonist whose affinity to the receptor is extremely strong and different from that of the agonist, it is usually impossible to estimate the real inhibition constant exactly from the responses because desensitization of the receptor proceeds before the equilibrium of the ligand binding. Simultaneous addition of the antagonist with strong affinity to the receptor may apparently accelerate inactivation (desensitization) of the receptor. The association rate constant of the antagonist can be estimated by analyses of the rate of the inactivation in the presence and the absence of the antagonist. 2) A preincubated antagonist with a slow dissociation rate constant, i.e., a very effective inhibitor, may cause apparent noncompetitive inhibition of the receptor, since the receptor is desensitized by an agonist as soon as the antagonist dissociates from the receptor and the dissociation of the antagonist from the receptor becomes the rate-determining step. A nicotinic acetylcholine receptor (nAChR) was expressed in Xenopus oocytes by injecting mRNA prepared from Electrophorus electricus electroplax and used for the experiments on inhibition by an antagonist.(ABSTRACT TRUNCATED AT 250 WORDS)
Subject(s)
Receptors, Neurotransmitter/antagonists & inhibitors , Acetylcholine/pharmacology , Animals , Binding, Competitive , Female , Gallamine Triethiodide/metabolism , Gallamine Triethiodide/pharmacology , Ion Transport/drug effects , Ion Transport/physiology , Kinetics , Mathematical Computing , Oocytes/drug effects , Oocytes/physiology , Pancuronium/metabolism , Pancuronium/pharmacology , Receptors, Glycine , Receptors, Neurotransmitter/metabolism , Receptors, Neurotransmitter/physiology , Strychnine/pharmacology , Time Factors , Tubocurarine/metabolism , Tubocurarine/pharmacology , Xenopus/physiologyABSTRACT
Atrial natriuretic peptide [rat (r) ANP6-33 or ANP99-126] binding sites were localized in discrete areas of rat brain and pituitary gland using quantitative autoradiographic techniques. High numbers of rANP6-33 binding sites were concentrated in the circumventricular organs (the organon vasculosum laminae terminalis, organon subfornicalis, and area postrema) and selected hypothalamic nuclei (the nucleus supraopticus, nucleus preopticus medianus and nucleus paraventricularis). High binding was also present in the choroid plexus and the bulbi olfactorii (laminae medullaris interna). A relatively low number of rANP6-33 binding sites was observed in other olfactory, limbic and brainstem areas (the nucleus tractus solitarii, nucleus motoris dorsalis vagii and nucleus hypoglossi), the eminentia mediana and the pituitary gland (anterior and posterior lobes). High-affinity rANP6-33 binding sites were demonstrated in the organon subfornicalis and the area postrema after incubation of consecutive sections from individual rat brains with 125I-rANP6-33 in concentrations from 20 to 400 pM. rANP6-33 binding sites were concentrated in areas associated with angiotensin II and/or vasopressin, suggesting an interaction among these peptides in the central nervous system.
Subject(s)
Atrial Natriuretic Factor/metabolism , Brain/metabolism , Peptide Fragments/metabolism , Pituitary Gland/metabolism , Receptors, Cell Surface/metabolism , Animals , Autoradiography , Kinetics , Male , Rats , Rats, Inbred Strains , Receptors, Atrial Natriuretic FactorABSTRACT
Neuromuscular blocking drugs have a high affinity for muscarinic acetylcholine receptors in the heart atria and ileal smooth muscle. In experiments on homogenates, alcuronium, gallamine, pancuronium, tercuronium and ritebronium inhibited the binding of the muscarinic antagonist (3H)quinuclidinyl benzilate (QNB) to rat heart atria with IC50 values of 0.15-0.53 mumol X 1(-1) and to ileal longitudinal muscles with IC50 values of 0.12-0.45 mumol X 1(-1). d-Tubocurarine and decamethonium inhibited (3H)QNB binding to these tissues with IC50 values of 6.2-8.5 mumol X 1(-1). For each neuromuscular blocking drug, the IC50 values were virtually identical for (3H)QNB displacement in the homogenates of the atria and of the ileal muscle. Alcuronium and gallamine differed from the other blocking agents in that they produced less steep (3H)QNB displacement curves both in the atria and the ileal muscle; Hill coefficients for the binding of alcuronium and gallamine to atrial and ileal homogenates were lower than unity. On isolated atria, gallamine, pancuronium, ritebronium and tercuronium antagonized the inhibition of tension development caused by the muscarinic agonist, methylfurmethide, with Kd values which were of the same order of magnitude as the IC50 values for the displacement of (3H)QNB binding to homogenates; the Kd of alcuronium was 12.5 times higher. d-Tubocurarine and decamethonium did not antagonize the effects of methylfurmethide at concentrations up to 100 mumol X 1(-1). On isolated ileal longitudinal muscle, gallamine and pancuronium antagonized the effects of methylfurmethide with Kd values that were 53 times and 100 times higher than their respective Kd values in the atria.(ABSTRACT TRUNCATED AT 250 WORDS)