Different regulation of collagen I gene transcription in three-dimensional lattice cultures.

Human skin fibroblasts were cultivated in confluent monolayers, retracting collagen lattices, retracting fibrin lattices and non-retracting fibrin lattices and the expression of messenger RNA specific for the alpha 1 chain of type I procollagen comparatively studied by Northern blot and dot blot hybridization. Two factors contribute to the lower level of procollagen messenger RNA in collagen lattices: the retraction and the nature of the fibrillar protein that constitutes the lattices. Fibrin lattices, when they do not retract, make as much collagen and procollagen mRNA as monolayer confluent cells.

Gallium chloride effects on neonatal rat heart cells in culture, in standard and oxidative conditions.

The effects of gallium chloride (GaCl3) at 7.17, 28.68 and 114.7 microns (0.5, 2 and 8 mg/l of Ga3+) were checked in cardiac cells derived from 2-4 day-old newborn rats, cultured for 72 h in Eagle's minimum essential medium (MEM), enriched with 10% foetal calf serum (v/v) and 2 mM of glutamine at 37 degrees C, with 95% air plus 5% CO2. After 3 hours of standard culture conditions (MEM with glucose 5 mM), Ga treatment induced an increase of glycogen stores without any influence on ATP, ADP, and AMP concentrations. A slight and transient decrease in the beat rate was noted after 15 min of exposure to GaCl3 at all concentrations, whereas there was no difference in the beat rate nor in the cell contraction amplitude after 3 hours of exposure. After 1.5 h in conditions of oxidation (Tyrode solution without glucose, FeCl2 20 microM, ascorbic acid 0.2 mM), GaCl3 at 8 mg/l decreased the malondialdehyde (MDA) production as assessed by the decrease of intracellular concentrations and the decrease of its release in the supernatant. The decreased MDA production following oxidative stress, the increase in glycogen stores in normal oxygen concentrations, as well as the maintenance of ATP concentrations and the lack of any chronotropic effect induced by GaCl3 suggests a protective rather than a deleterious cardiac effect.

Compared effects of ruthenium red and cis [Ru(NH3)4Cl2]Cl on the isolated ischaemic-reperfused rat heart.

The sequence ischaemia-reperfusion is characterized by reperfusion damage. The calcium overload occurring at the beginning of reperfusion is one of the main mechanisms responsible for reperfusion damage. Ruthenium red, a blocker of the mitochondrial calcium uniport system, could prevent this damage by preserving the ATP synthesis in the mitochondria. We tested ruthenium red and another ruthenium compound, cis-tetrammine dichlororuthenium (III) chloride in our experimental model of ischaemic-reperfused rat hearts. After a 15 minute-stabilization period, the hearts were submitted to a 30 minute global ischaemia period and then reperfused for 45 minutes with the standard perfusion solution or with ruthenium red or cis-tetrammine dichlororuthenium (III) chloride at 1, 3 or 9 microM. Ruthenium red at 3 microM exerted a protective effect in our experimental conditions by showing a significant improvement of the contractility recovery at the end of reperfusion and a significant decrease of the malondialdehyde production, which reflects free radical production. The cis-tetrammine dichlororuthenium (III) chloride (containing 1 Ru ion per molecule) at 9 microM was slightly less efficient than ruthenium red at 3 microM (containing 3 Ru ions per molecule). The heart ruthenium binding was better for the ruthenium red than for the cis-tetrammine dichlororuthenium (III) chloride, suggesting a role of the ruthenium ion complexation in the crossing of the membrane, whereas the cardiac effect seemed to be linked to the ruthenium ion heart concentration, which was similar for the ruthenium red at 3 microM and for the cis-tetrammine dichlororuthenium (III) chloride at 9 microM. One can hope that ruthenium compounds would limit reperfusion damage and infarct size after ischaemia in in vivo models.

Comparative pharmacokinetics of two diastereoisomers dexamethasone and betamethasone in plasma and cerebrospinal fluid in rabbits.

The two diastereoisomers dexamethasone (DXM) and betamethasone (BTM) were infused at two different doses (2, 10 mg.kg-1) in anesthetized rabbits. Samples of plasma and cerebrospinal fluid were collected over a 180-min period. Steroid concentrations were measured by high performance liquid chromatography. The terminal half life (85.7 +/- 20.8 min and 102.2 +/- 29.6 min for DXM; 117.6 +/- 19.8 min and 118.5 +/- 15.8 min for BTM) and the mean residence time (121.4 +/- 27.7 min and 146.1 +/- 41.3 min for DXM; 168.6 +/- 28.1 min and 172.2 +/- 20.6 min for BTM) were unchanged between the doses. Dose-dependent changes in the area under the curve normalized by the dose, then volume distribution and clearance were observed. The average percentage of DXM and BTM bound to plasma proteins were 78.1 +/- 11.5% and 88.3 +/- 5.1% respectively at the lower dose, and decreased significantly with 10 mg.kg-1. DXM appeared more rapidly in the CSF, the highest concentrations of DXM were obtained within 15 min after the end of the injection. The CSF levels were lower than that of plasma unbound and the passage through the blood-brain barrier was saturable. These results will complicate pharmacokinetic and pharmacodynamic analysis.

Effects of gallium chloride on changes in action potentials and contraction in guinea pig ventricular muscle.

The electrophysiological effects of gallium chloride (Ga ) and its activity on arrhythmias induced by digitalis were investigated in guinea pig papillary muscle. KCl microelectrodes were used to record transmembrane electrical activity from Purkinje cells from the papillary muscle of guinea pig hearts during superfusion and electrical stimulation in vitro at 37 degrees C. Myocardial contractility was continuously monitored. Ga was superfused alone in cumulative concentrations(4.5 . 10(-5) to 3.6 . 10(-4) M). Arrhythmias were induced by a superfusion of Digitoxin (7.5 . 10 (-7) M). A superfusion of Ga (4.5 . 10(-5), 9 . 10(-5), 1.8 . 10(-4) M and 3.6 . 10(-4) M) was started 20 min later and maintained for 70 min. Ga alone produced a dose dependent reduction of action potential duration and contractility. Ga potentiated the decrease in the amplitude and duration of the action potential induced by Digitoxin. The incidence of arrhythmias was immediately reduced by two concentrations of Ga (4.5 . 10(-5) and 9 . 10(-5) M) in the digitalized papillary muscles. It is concluded that Ga inhibits calcium movements and has negative inotropic and antidysrhythmic effects.

Acute effects of gallium chloride on ventricular function and metabolism of the Langendorff perfused rat heart.

The effects of two concentrations of GaCl3 (1.79 microM and 7.17 microM) were studied on isolated perfused paced rat hearts. All hearts were submitted to an equilibration period of 20 minutes under normal conditions of oxygenation (95% O2, 5% CO2) and with 11 mM glucose in Krebs-Henseleit buffer. At the end of the perfusion (80 min) tissue Ga contents were 98.0 +/- 13.8 and 200.2 +/- 28.5 nM/g of wet weight for the lower and the higher Ga concentrations respectively. Left ventricular developed pressure (LVdp) as well as +LVdp/dt and -LVdp/dt were similar in control and Ga-treated groups during the 60 minutes following the equilibration period. At the same time mean coronary flow and oxygen consumption were lower (p < 0.05) in hearts perfused with 7.17 microM Ga than in the control group. Lactate production did not differ in the control and Ga-treated groups. Mean creatine kinase release was lower (p < 0.05) in the 7.17 microM Ga-treated group than in the 1.79 microM Ga-treated and control groups. Intratissular malondialdehyde as well as glycogen and ATP concentrations did not differ in all groups at the end of the experiment. Gallium chloride partially prevented the unavoidable oedema resulting from using saline Krebs-Henseleit solution. In conclusion, acute GaCl3 administration improves the functionality of the Langendorff-heart model.

Pacemaker endocarditis due to Candida albicans: case report and review.

We describe a case of pacemaker endocarditis due to Candida albicans in a patient who responded favorably to combined surgical and antifungal therapy. Only five cases of candidal pacemaker endocarditis have been reported previously. We review these five cases and discuss the clinical presentation and therapy for this disease in comparison with candidal prosthetic valve endocarditis.

Insulin-like growth factor-I (IGF-I) stimulates protein synthesis and collagen gene expression in monolayer and lattice cultures of fibroblasts.

Fibroblasts cultivated in three-dimensional tissue-like matrices are characterized by a slowed metabolism and a decrease of protein synthesis, unless they are submitted to physical tensions. We checked the effects of insulin like growth factor-I (IGF-I), known as a potent stimulator of mitogenesis and protein synthesis for many cell types, in various models of cultures: confluent monolayers, collagen lattices, non-retracting or retracting fibrin lattices. IGF-I (1-100 ng.ml-1) had no effect on cell divisions in lattice cultures. It was able to stimulate collagen lattice retraction when the medium was supplemented with low concentrations of serum. IGF-I at 10 or 100 ng.ml-1 stimulated collagen and non-collagen syntheses in all culture systems, but stimulation of collagen synthesis only began at the highest concentration (100 ng.ml-1) in retracted lattices. Northern blot and dot-blot analyses of mRNAs extracted from monolayer cultures of fibroblasts showed that IGF-I stimulated pro alpha 1(I) collagen synthesis at the pretranslational level. Cycloheximide (7.5 micrograms.ml-1) completely inhibited pro alpha 1(I) collagen gene expression induced by IGF-I. These results show that IGF-I is a potent stimulus for protein synthesis and collagen gene expression in monolayers and tridimensional cultures of fibroblasts, but that it exerts no mitogenic activity in tridimensional lattices. Synergistic associations of IGF-I with other growth factors will have to be found in order to reverse the quiescent status of fibroblasts in lattices.

Cardiotoxic effects of salmeterol in comparison with salbutamol on the isolated perfused Langendorff-heart of the rat.

beta 2-Adrenoceptor agonists used in the relief of bronchospasm have long been known to produce circulatory side-effects. Salmeterol (CAS 89365-50-4) is a novel long acting highly selective beta 2-agonist. We used the Langendorff-heart rat model (constant perfusion pressure) to compare the direct effects of salbutamol (CAS 18559-94-9, SAL) and salmeterol (SMT) on the cardiac performances and their toxic cardiac effects (induced by 3 mmol/l perfusate calcium). At the first step the concentration-effect curve was established for the maximal concentration (Cmax) of salbutamol leading to the maximal chronotropic effect on the heart for 20 min after a 20 min stabilization period (basal values). All hearts were consequently submitted to a 20 min Krebs-Henseleit perfusion in order to study the reversibility of the myocardial performances. The types of the myocardial and coronary beta-adrenoceptors involved in SAL (Cmax) effects were identified using a selective beta 1 (atenolol) and a beta 2 (butoxamine) antagonist. SAL induced an increase in the heart rate via a selective stimulation of the beta 1-adrenoceptors (beta 1-AR). SMT appeared to be more potent than SAL on the heart rate. Direct toxic drug effects on the heart appeared gradually with SAL whereas they appeared sharply at the highest concentration of SMT. The enzyme leakage observed during the recovery period was more pronounced with SMT than SAL. Perhaps, this phenomenon might be due to the lipophilicity of SMT. However, these direct cardiac effects of SMT have to be considered in association with its airway smooth muscle relaxant effect (therapeutic effect) which has been proven much more potent than those of SAL. Therefore SMT was less cardiotoxic than SAL at similar therapeutic concentrations.