Antioxidant effect of 0.2% xanthan gum in ocular surface corneal epithelial cells

PURPOSE

Oxidative damage and inflammation are expected to be involved in age-related functional decline of lachrymal gland, that induces lachrymal dysfunction; this resulting in dry eye disease. Therefore, we investigated the potential antioxidant effect of 0.2% xanthan gum (XNT) in human corneal epithelial cells (HCE), in comparison with other widely used tear substitute polymers, such as 0.2% hydroxyethylcellulose (HEC), 0.2% hyaluronic acid (HA) and 0.5% carboxymethylcellulose (CMC).

METHODS

Subconfluent (80%) HCE (Human Corneal Epithelial) cultures were treated with the different polysaccharides at the above reported concentrations. The effect of every polymer was investigated with and without 0.5 mM H2O2 In detail, hydrogen peroxide was added 1 hour after the addition of polysaccharides. Twelve hours later, reactive oxygen species (ROS) production (dichlorofluorescein diacetate spectrofluorimetric test) was assessed and their values were normalized versus protein content. Morphological analysis was performed by optical microscopy.

RESULTS

No morphological differences in HCE compared to control cells (CTRL, cells treated with the buffer used for polymer solubilization) were observed in any of the tested polymers, whereas, in the presence of 0.5 mM H2O2 HCE clearly showed signs of cytotoxicity. Polymers did protect cultures from oxidative stress with XNT>HA = HEC>CMC, as evidenced by microscopic analysis. These results were confirmed from ROS measurements, which showed XNT as the only polysaccharide to restore the levels of ROS comparable to CTRL, in presence of H2O2.

CONCLUSIONS

0.2% xanthan gum was able to protect HCE by oxidative stress, bringing the ROS level down to CTRL values. Considering that in dry eye syndrome oxidative stress sustains inflammation and apoptotic cell death, the use of xanthan gum in ophthalmic preparations could be beneficial.

Amlodipine in ischaemic left ventricular dysfunction with mild to moderate heart failure

OBJECTIVE

In this study, we evaluated the effectiveness of amlodipine in patients with severe ischaemic left ventricular dysfunction (LVD) and mild to moderate heart failure, but not current angina, assessing the effects of the drug on symptoms, left ventricular function and exercise capacity.

PATIENTS AND METHODS

We studied 36 patients with ischaemic LVD (radionuclide ejection fraction <40%, left ventricular end-diastolic dimension >60mm) and mild to moderate heart failure (NYHA class II or III) without angina treated with ACE inhibitors (36 of 36), digitalis (34 of 36) and diuretics (30 of 36). Among the 36 recruited patients, 33 fulfilled the study protocol, including 2 weeks of run-in (standard therapy), 8 weeks of treatment (standard therapy + amlodipine 5mg once daily) and 2 weeks of washout (standard therapy). Symptoms graded on a 10-point scale (heart failure score; a higher score representing improvement in symptoms), radionuclide left ventricular ejection fraction (rLVEF), echocardiographic left ventricular end-diastolic dimension (LVEDD), peak aerobic capacity (VO(2max)), exercise time (ET) and total work load (TWL) were measured after run-in, treatment and washout periods. All patients underwent coronary angiography and (201)Thallium (Tl) myocardial scintigraphy.

RESULTS

With respect to baseline and washout, after amlodipine treatment the HF score improved (6.6 +/- 1.3 after amlodipine vs 5.9 +/- 1 at baseline and 5.9 +/- 1.1 at washout; p < 0.02), rLVEF increased (33.12 +/- 9.02% vs 29.74 +/- 7.72% and 30.02 +/- 7.39%, respectively; p < 0.001), and VO(2max) (14.35 +/- 4.05 ml/kg/min vs 12.68 +/- 3.21 ml/kg/min and 12.62 +/- 3.59 ml/kg/min, respectively; p < 0.003), ET (440 +/- 169 sec vs 395 +/- 158 sec and 402 +/- 162 sec, respectively; p < 0.02) and TWL (2183.2 +/- 439 kpm vs 1615.5 +/- 427 kpm and 1708.8 +/- 437 kpm, respectively; p < 0.01) were also increased. The increase in VO(2max) was related to systolic blood pressure at rest and at the peak of exercise, and to the presence of viable and/or ischaemic myocardium at (201)Tl myocardial scintigraphy.

CONCLUSION

Amlodipine, in addition to standard therapy (including in all cases an ACE inhibitor), reduced symptoms and improved exercise capacity and ventricular function in patients with mild to moderate heart failure due to myocardial ischaemia. Thus, amlodipine is useful in patients with ischaemic LVD and heart failure without angina. The improvement in exercise capacity was greater in patients with scintigraphic evidence of viable and/or ischaemic myocardium and higher blood pressure. However, our study presented some limitations (i.e. an open study with few patients), and only generated a hypothesis that could lead to a wider, multicentre, cooperative trial. Treatment of patients with chronic ischaemic left ventricular dysfunction (LVD) with heart failure symptoms but without angina is a difficult clinical problem. Despite the fact that surgical myocardial revascularisation may improve survival, most patients are not good candidates for surgery. Thus, 'polypharmacy' remains the principal option for these individuals. ACE inhibitors have become a cornerstone in the treatment of all forms of LVD, and have been demonstrated to improve functional class and survival. Nitrates, digitalis and diuretics are also commonly used for their effects on symptoms. Despite there being no evidence that calcium antagonists are useful for the treatment of heart failure or impaired ventricular function after myocardial infarction, these drugs are still prescribed to many patients with ischaemic LVD. However, it is possible that the concomitant administration of ACE inhibitors could reduce the reflex neurohumoral activity caused by some calcium antagonists, while preserving some of the beneficial properties of these agents. Among other calcium antagonists, amlodipine does not adversely affect the clinical status of patients. Some studies have shown that it reduces symptoms, improves exercise tolerance and does not result in neurohormonal stimulation. Moreover, amlodipine appears to have a mortality benefit in patients with dilated cardiomyopathy but not in patients with underlying coronary disease where it appears to have a 'neutral' effect. Thus, it is not clear whether amlodipine is useful in patients with ischaemic LVD, particularly in patients with silent coronary artery disease. In this study, we evaluated the effectiveness of amlodipine, in addition to standard therapy, in patients with ischaemic LVD and mild to moderate heart failure, assessing the effects of the drug on symptoms, LV function and exercise capacity.

Lactoferrin Expression by Bovine Ocular Surface Epithelia: A Primary Cell Culture Model to Study Lactoferrin Gene Promoter Activity

Tear lactoferrin, mainly secreted by the lachrymal glands, exerts a protective effect on the ocular surface, and an abnormal decrease of its production may lead to an increased risk of infection and pathological alterations of ocular surface epithelia. In this study we analyzed whether corneal and conjunctival epithelia could be an additional source of tear lactoferrin, and whether conjunctival epithelial cells in culture could be a suitable model system to address regulation of lactoferrin gene expression. Real-time PCR and Western immunoblotting showed that in bovines lactoferrin is indeed produced by these epithelia, and that the human lactoferrin promoter can direct the expression of a CAT reporter gene, thus indicating that these cells are a true source of lactoferrin, and may be used in vitro to study the regulation of lactoferrin expression.

Differential expression of cyclooxygenase-1 and cyclooxygenase-2 in the cornea during wound healing

Cyclooxygenases (COXs) are the key enzymes in the production of prostaglandins (PGs) and exist in two isoforms. Isoform 1 (COX-1) is constitutively expressed in most tissues, whereas cyclooxygenase-2 (COX-2) is rapidly induced by a variety of different stimuli. In this study, we have quantitatively analyzed mRNA expression of COX-1 and COX-2 and protein distribution during corneal reparative processes after wound. Total RNA was isolated from cornea samples of New Zealand rabbits that had been subjected to corneal wound by mechanical brush scraping. Quantification of RT-PCR results was made by using a DNA mimic approach. The localization and expression of the enzymes was studied by immunocytochemistry and Western blotting. In normal corneas COX-1 is expressed throughout the cornea in the whole tissue, while COX-2 is strongly expressed in stromal keratocytes. Following injury, COX-2 levels drastically increase and, at least in the epithelium, COX-2 becomes the predominant isoform of cyclooxygenases at an early stage of healing. Moreover, in the epithelium COX-2 is expressed predominantly by those cells close to the wound. These cells become migratory and move toward the injured area. In contrast, COX-1 levels remain unaffected in all corneal tissues. The system returns to the pre-injury state in about 24h. Thus, the expression of COX-2 in the corneal epithelium during wound repair is tightly regulated both temporally and spatially.

Shewanella sp. GA-22, a psychrophilic hydrocarbonoclastic antarctic bacterium producing polyunsaturated fatty acids

AIMS

The effects of different growth media and temperature on production of polyunsaturated fatty acids (PUFA) by Shewanella sp. GA-22 were investigated. The attempts to characterize the GA-22 genes, homologous to those of PUFA biosynthesis gene cluster, was performed.

METHODS AND RESULTS

Physiological and phylogenetic characterization of new Antarctic isolate GA-22 was performed. Total fatty acids were isolated from the cells growing under different conditions and analysed by gas chromatography-mass spectrometry (GC-MS). Using degenerated primers derived from the conserved regions within PUFA fatty acid synthase operons, five fragments of homological genes were amplified from GA-22 DNA, and two of them corresponding to pfaA and pfaC synthase subunits were sequenced.

CONCLUSIONS

Strain GA-22 was shown to be able to produce three different PUFA: linoleic, arachidonic and eicosapentaenoic acids. The PUFA production was temperature- and carbon source-dependent. The deduced gene products exhibited high similarity to corresponding fatty acid synthases PfaA and PfaC.

SIGNIFICANCE AND IMPACT OF STUDY

The PUFA production was detected on media supplemented with crude oil, gasoline and n-tetradecane. The apparent conservation of PUFA genes may point to the potential utilization of designed primers as functional markers in culture-independent ecological studies, and for initial screening in biotechnological fields.

Apoptotic cell death and impairment of L-type voltage-sensitive calcium channel activity in rat cerebellar granule cells treated with the prion protein fragment 106-126

Prion diseases are neurodegenerative pathologies characterized by the accumulation, in the brain, of altered forms of the prion protein (PrP), named PrP(Sc). A synthetic peptide homologous to residues 106-126 of PrP (PrP106-126) was reported to maintain the neurodegenerative characteristics of PrP(Sc). We investigated the intracellular mechanisms involved in PrP106-126-dependent degeneration of primary cultures of cerebellar granule neurons. Prolonged exposure of such neurons to PrP106-126 induced apoptotic cell death. The L-type voltage-sensitive calcium channel blocker nicardipine reproduced this effect, suggesting that blockade of Ca(2+) entry through this class of calcium channels may be responsible for the granule cell degeneration. Microfluorometric analysis showed that PrP106-126 caused a reduction in cytosolic calcium levels, elicited by depolarizing K(+) concentrations in these neurons. Electrophysiological studies demonstrated that PrP106-126 and nicardipine selectively reduce the L-type calcium channel current. These data demonstrate that PrP106-126 alters the activity of L-type voltage-sensitive calcium channels in rat cerebellar granule cells and suggest that this phenomenon is related to the cell death induced by the peptide.

Evidence of two populations of GABA(A) receptors in cerebellar granule cells in culture: different desensitization kinetics, pharmacology, serine/threonine kinase sensitivity, and localization

GABA(A) receptors of rat cerebellar granule cells in culture have been studied by the whole cell patch clamp technique. The biphasic desensitization kinetic observed could be due either to different desensitization mechanisms of a single receptor population or to different receptor populations. The overall data indicate that the latter hypothesis is most probably the correct one. In fact, the fast desensitizing component was selectively potentiated by a benzodiazepine agonist and preferentially down-regulated by activation of the protein serine/threonine kinases A and G, as a consequence of the latter characteristic that receptor population was preferentially down-regulated by previous activation of N-methyl-d-aspartate glutamate receptors, via production of nitric oxide and PKG activation, most probably in dendrites. The other population is benzodiazepine insensitive and not influenced by activation of PKA or PKG. This slowly desensitizing population may correspond to the extrasynaptic delta subunit containing GABA(A) receptors described by other authors. Instead, the rapidly desensitizing population appears to represent dendritic synaptic GABA(A) receptors.

Cerebellar granule cell GABA(A) receptors studied at the single-channel level: modulation by protein kinase G

Rat cerebellar granule cells GABA(A) receptors were studied at the single-channel level in outside-out patches. Three conductance levels were detected as activated by 0.1 microM GABA: 11, 20 and 30 pS. Single-channel I-V relationships were linear. The probability of opening did not vary over time within single patches. Kinetic analysis brought to a mean open time constant of 3.2, 2.9 and 2.8 ms respectively for each conductance level and a closed time histogram fitted by the sum of two exponential functions (tau c1 = 2.1 ms, 43%; tau c2 = 18.2 ms, 57%). Protein kinase G (PKG) activation did not affect single-channel conductances, but resulted in a reduction over time of single-channel open probability for all the conductance levels. Kinetically, protein kinase G modified the mean open time constants and the relative areas of the two components of the closed state distribution whereas the mean closed time constants remained unaffected. These results confirm and add details about cerebellar granule GABA(A) receptors down regulation by PKG.

Prion protein fragment 106-126 induces apoptotic cell death and impairment of L-type voltage-sensitive calcium channel activity in the GH3 cell line

The prion diseases are transmissible neurodegenerative pathologies characterized by the accumulation of altered forms of the prion protein (PrP), termed PrP(Sc), in the brain. Previous studies have shown that a synthetic peptide homologous to residues 106-126 of PrP (PrP 106-126) maintains many characteristics of PrP(Sc), i.e., the ability to form amyloid fibrils and to induce apoptosis in neurons. We have investigated the intracellular mechanisms involved in the cellular degeneration induced by PrP 106-126, using the GH3 cells as a model of excitable cells. When assayed in serum-deprived conditions (48 hr), PrP 106-126 (50 microM) induced cell death time-dependently, and this process showed the characteristics of the apoptosis. This effect was specific because a peptide with a scrambled sequence of PrP 106-126 was not effective. Then we performed microfluorimetric analysis of single cells to monitor intracellular calcium concentrations and showed that PrP 106-126 caused a complete blockade of the increase in the cytosolic calcium levels induced by K+ (40 mM) depolarization. Conversely, the scrambled peptide was ineffective. The L-type voltage-sensitive calcium channel blocker nicardipine (1 microM) also induced apoptosis in GH3 cells, suggesting that the blockade of Ca2+ entry through this class of calcium channels may cause GH3 apoptotic cell death. We thus analyzed, by means of electrophysiological studies, whether Prp 106-126 modulate L-type calcium channels activity and demonstrated that the apoptotic effect of PrP 106-126 was due to a dose-dependent inactivation of the L-type calcium channels. These data demonstrate that the prion protein fragment 106-126 induces a GH3 apoptotic cell death inducing a selective inhibition of the activity of the L-type voltage-sensitive calcium channels.

Involvement of phosphatase activities in the run-down of GABA(A) receptor function in rat cerebellar granule cells in culture

Run-down of GABA activated Cl- currents was found when rat cerebellar granule cells in culture were studied by the whole-cell patch-clamp technique in the absence of ATP in the pipette medium. This event could be prevented, even in the absence of ATP, by using the perforated-patch technique or by adding to the pipette medium either a blocker of protein tyrosine phosphatase, sodium vanadate, or deltamethrin, a blocker of the protein serine/threonine phosphatase calcineurin. Conversely, run-down could be partially induced, even in the presence of ATP, by blockers of tyrosine kinases. A reduction of GABA(A) receptor activity was also found in outside-out membrane patches when ATP was not on the membrane inside. The run-down phenomenon involved all three conductance levels found in these patches: 11, 20 and 30 pS. In all three cases it was due to a reduction of channels' open probability. The single-channel experiments showed that also in this case run-down was prevented by either sodium vanadate or deltamethrin on the membrane cytoplasmic side. Overall, through relatively unphysiological conditions (cells in culture and patch-clamp techniques), the study of the run-down phenomenon shows that the tyrosine phosphorylation state of GABA(A) receptors is of importance in maintaining it in a proper functional state. The data also show that tyrosine phosphorylation state is controlled by a protein tyrosine phosphatase, whose activity in turn is blocked via serine/threonine phosphorylation.

Importance of the intracellular domain of NR2 subunits for NMDA receptor function in vivo

NMDA receptors, a class of glutamate-gated cation channels with high Ca2+ conductance, mediate fast transmission and plasticity of central excitatory synapses. We show here that gene-targeted mice expressing NMDA receptors without the large intracellular C-terminal domain of any one of three NR2 subunits phenotypically resemble mice made deficient in that particular subunit. Mice expressing the NR2B subunit in a C-terminally truncated form (NR2B(deltaC/deltaC) mice) die perinatally. NR2A(deltaC/deltaC) mice are viable but exhibit impaired synaptic plasticity and contextual memory. These and NR2C(deltaC/deltaC) mice display deficits in motor coordination. C-terminal truncation of NR2 subunits does not interfere with the formation of gateable receptor channels that can be synaptically activated. Thus, the phenotypes of our mutants appear to reflect defective intracellular signaling.

A dual mechanism for impairment of GABAA receptor activity by NMDA receptor activation in rat cerebellum granule cells

The function of the GABAA receptor has been studied using the whole cell voltage clamp recording technique in rat cerebellum granule cells in culture. Activation of NMDA-type glutamate receptors causes a reduction in the effect of GABA. Full GABAA receptor activity was recovered after washing out NMDA and NMDA action was prevented in a Mg+2 containing medium. The NMDA effect was also absent when extracellular Ca+2 was replaced by Ba+2 and when 10 mM Bapta was present in the intracellular solution. Charge accumulations via voltage activated Ca+2 channels greater than the ones via NMDA receptors do not cause any reduction in GABAA receptor function, suggesting that Ca+2 influx through NMDA receptor channels is critical for the effect. The NMDA effect was reduced by including adenosine-5'-O-3-thiophosphate (ATP-gamma-S) in the internal solution and there was a reduction in the NMDA effect caused by deltamethrin, a calcineurin inhibitor. Part of the NMDA induced GABAA receptor impairment was prevented by prior treatment with L-arginine. Analogously, part of the NMDA effect was prevented by blockage of NO-synthase activity by N omega-nitro-L-arginine. A combination of NO-synthase and calcineurin inhibitors completely eliminated the NMDA action. An analogous result was obtained by combining the NO-synthase inhibitor with the addition of ATP-gamma-S to the pipette medium. The additivity of the prevention of the NMDA impairment of GABAA receptor by blocking the L-arginine/NO pathway and inhibiting calcineurin activity suggests an independent involvement of these two pathways in the interaction between NMDA and the GABAA receptor. On the one hand Ca+2 influx across NMDA channels activates calcineurin and dephosphorylates the GABAA receptor complex directly or dephosphorylates proteins critical for the function of the receptor. On the other hand, Ca+2 influx activates NO-synthase and induces nitric oxide production, which regulates such receptors via protein kinase G activity.

Nitric oxide and GABAA receptor function in the rat cerebral cortex and cerebellar granule cells

The aim of the present work was to investigate the mechanism by which the diffusible factor nitric oxide regulates GABAA receptor function in the brain. The effect of nitric oxide on GABAA receptor function has been studied in two different neuronal preparations: rat cerebral cortex microsacs and rat cerebellum granule cells in culture. In the first case, GABA-stimulated 36Cl-accumulation was studied as an index of GABAA receptor function. The maximal rate of GABA-stimulated 36Cl- accumulation (Vmax) was reduced by treatment of microsacs with nitric oxide chemical donors such as sodium nitroprusside (-26%) and S-nitroso-acetyl-penicillamine (-11%). The greater effect of the former agent is due to an additional interference by its breakdown products. The biochemical precursor L-arginine (1 mM) produced the same Vmax decrease as S-nitroso-acetyl-penicillamine. This effect was reversed by a nitric oxide synthase blocker and appears truly nitric oxide mediated. The action of nitric oxide in this system does not seem to imply cyclic GMP formation. GABAA receptor function was studied by whole-cell patch-clamp in rat cerebellum granule cells in culture. In this case, L-arginine (100 microM) profoundly reduced the Cl- current elicited by 10 microM GABA and its effect subsided following washing out. The effect of L-arginine was observed almost exclusively on the rapidly desensitizing component of the GABA-activated current. The action of L-arginine was blocked by a protein kinase G inhibitor and mimicked by its activators. Thus, it appears that this effect in these cells involves nitric oxide formation, cyclic GMP accumulation and protein kinase G-catalysed phosphorylation of GABAA receptor.

Pharmacological types of calcium channels and their modulation by baclofen in cerebellar granules

Voltage-dependent calcium currents were measured by whole-cell recording technique in cultured cerebellar granule neurons from 8 d old rats, in 10 mM BaCl2 and with a holding potential of -80 mV. A saturating dose (10 microM) of the dihydropyridine nimodipine reversibly inhibited the maximum current by 25% and the dose dependence showed IC50 close to 50 nM. omega-Conotoxin GVIA (cgtx, 5 microM) and omega-agatoxin IVA (agatx, 200 nM) irreversibly inhibited the current by 17% and by 47%, respectively. The effect of nimodipine was additive with that of the toxins. The GABAB agonist (+/-)baclofen, or (-)baclofen (100 microM), reduced the calcium current by 30 +/- 5%, with a IC50 4 microM. The effect was mediated by a pertussis toxin-sensitive G-protein. In cells treated with cgtx during the experiment or preincubated with the toxin for 30 min, the effect of baclofen was significantly reduced. However, the action of baclofen was not confined to cgtx-sensitive channels: application of nimodipine or agatx resulted in a 50% reduction of the baclofen effect as well. In contrast, baclofen inhibited approximately the same amount of current both before and after the increase caused by the dihydropyridine agonist BayK 8644 and did not modify the slow BayK-induced tail current. These results indicate (1) the modulation through GABAB receptors does not clearly discriminate between pharmacologically distinct calcium channels and (2) L-type calcium channels represent an heterogeneous population in these neurons.

Functional characterization of the effect of nimodipine on the calcium current in rat cerebellar granule cells

1. We investigated the effect of nimodipine on the calcium current in dissociated cerebellar granule cells from 8-day-old rats. We measured the whole cell current and the depolarization-induced internal calcium elevation in Fura2-loaded cells exposed to high-potassium solutions. 2. Nimodipine maximally depressed the peak calcium current from holding potential (Vh) = -80 mV by 25% and the inactivation resistant residual current from Vh = -50 mV by 44%. The nimodipine-sensitive current had the same amplitude under both conditions and the half-maximal inhibition concentration (IC50) was close to 50 nM. 3. In contrast to other components of the calcium current, the nimodipine-sensitive current did not inactivate significantly during 1-s depolarization and it was weakly sensitive to the holding potential and to depolarizing conditioning prepulses. The effect of nimodipine was higher on the current elicited by small depolarizations and the current at -30 mV was depressed by < or = 70%. Depolarizing prepulses enhanced the effect of 1 nM (but not that of 1 microM) nimodipine. 4. In Fura2-loaded cells, nimodipine strongly antagonized the internal calcium rise due to superfusion with 15-75 mM potassium. The effect was significantly more potent on the internal calcium rise determined by lower depolarizations, with 80% inhibition of the peak response to 25 mM KCl. The dose dependence of this depression was best approximated by a two-site curve with IC50(1) = 0.27 nM and IC50(2) = 65 nM. The time course of recovery was dependent on the duration of treatment, suggesting a close interaction between nimodipine and the lipid membrane. 5. The effect of 1 microM nimodipine was not influenced by predepolarizations determined by treatments with calcium-free elevated potassium solutions, but when doses as low as 1 nM were applied the fast decay of the calcium level suggested a voltage dependence of the effect. Nimodipine also depressed < or = 90% of the plateau phase of the depolarization-induced internal calcium rise at different depolarizations. 6. Incubation in omega-conotoxin, fraction GVIA (5 microM) did not cause any significant decrease in the calcium response, whereas omega-agatoxin, fraction IVA (0.5 microM) depressed the calcium peak by 40-60% and its effect was additive with that of nimodipine. 7. We conclude that the nimodipine-sensitive current is a persistent, inactivation-resistant current that activates at a membrane potential lower than the other components and is likely to be responsible for the elevation of calcium determined by nonovershooting, prolonged depolarizations in these cells.(ABSTRACT TRUNCATED AT 400 WORDS)

Glutamate receptor-driven activation of transcription factors in primary neuronal cultures

We have used primary neuronal cultures prepared from fetal cerebral hemispheres to investigate the effects of different glutamate receptor agonists and antagonists on the expression of transcription factor encoding genes, such as c-fos, fosB, c-jun, junB, junD, c-myc, and zif/268. The addition of glutamate (100 microM) to the culture medium rapidly activated c-fos, fosB, c-jun, junB and zif/268 gene expression, reaching the maximal level at 30-60 minutes for zif/268 and at 60 minutes for the other genes. The onset of fosB mRNA accumulation was slightly delayed in comparison to the other genes. No clear induction was found for junD and c-myc. Different glutamate receptor agonists, such as NMDA, kainate, quisqualate, trans-(+/-)-1-aminocyclopentane-1,3-dicarboxylic acid (t-ACPD) and alpha-amino-3-hydroxy-5-methyl-4-isoxazole-propionate (AMPA) were able to increase c-fos, c-jun, and zif-268 mRNA levels with rapid and transient kinetics similar to those observed after glutamate treatment. Similar results were obtained for junB and fosB after kainate and quisqualate stimulation. Pretreatment with MK-801, a non competitive NMDA antagonist, produced an almost complete inhibition of glutamate-driven expression of transcription factor genes, thus suggesting that NMDA receptor plays a major role in glutamate induced-gene expression. On the contrary the kainate/AMPA receptor antagonist, DNQX, did not influence glutamate induced-gene expression. Under the conditions used in the present study, NMDA was effective in inducing the simultaneous activation of several IEGs even when added to the culture medium containing millimolar concentration of magnesium. When experiments were performed in Krebs solution, NMDA was effective in stimulating zif/268 and c-fos mRNAs only in the absence of Mg2+, while glutamate activated c-fos and zif/268 both in the presence and absence of magnesium ions. As expected, NMDA effect was fully inhibited by MK-801. The level of AP-1 DNA binding activity, as measured by electrophoretic mobility shift assay, increased after addition of glutamate and NMDA to cultured neurons and such increase was antagonized by the pretreatment with MK-801.

Inactivation of voltage-dependent calcium current in an insulinoma cell line

We have studied the mechanism of Ca current inactivation in the beta-cell line HIT-T15 by conventional and perforated patch recording techniques, using two pulse voltage protocols and a combination of current and tail current measurements. In 5 mM Ca, from a holding potential of -80 mV, the maximum current showed a complex time course of inactivation: a relatively fast, double exponential inactivation (tau h1 approximately 12 ms and tau h2 approximately 60 ms) and a very slowly inactivating component (tau > 1 s). The faster component (tau h1) was due to the voltage-dependent inactivation of a low-threshold-activated (LVA), T-type current, which deactivates more slowly (tau approximately 3-5 ms) than the other components (tau approximately 0.2-0.3 ms). The intermediate component (tau h2) was due to the Ca-dependent inactivation of a portion of the high-threshold-activated (HVA) current. A saturating dose of the dihydropyridine (DHP) nifedipine (10 microM) did not affect the LVA current, but inhibited by 68 +/- 5% the transient, Ca-sensitive portion of the HVA current and by 33 +/- 12% the long lasting component. We suggest that three components of the calcium current can be resolved in HIT cells and the main target of DHPs is a HVA current, which inactivates faster than the DHP-resistant HVA component and does so primarily through calcium influx.

[Thromboembolism of the right branch of the pulmonary artery: its diagnosis by biplanar transesophageal echocardiography]

We report on a patient with pulmonary thromboembolism, primarily diagnosed by urgent TEE. The thrombus was localized in the distal portion of the right pulmonary artery and was easily recognized by transversal plane TEE inspection. Pulmonary scintigraphy was subsequently performed and confirmed TEE findings.

Platelet-activating factor and its methoxy-analogue ET-18-OCH3 stimulate immediate early gene expression in rat astroglial cultures

In the present paper we analyzed c-fos and zif/268 expression in rat primary astroglial cell cultures after treatment with Platelet-activating Factor (PAF) and its 2-O-methyl-analogue, 1-O-octadecyl-2-O-methoxy-glycero-3-phosphocholine (ET-18-OCH3). Both compounds, at a dose (2 microM) that did not produce toxic effects on astroglial cells, induced a rapid and transient increase of c-fos and zif/268 mRNA level. Pretreatment of astroglial cells with the PAF antagonist BN50730 (5 microM) 10 min prior to the addition of alkyl-phospholipids almost completely prevented the activation of the immediate early genes. On the contrary triazolam, another PAF inhibitor, did not block PAF induced gene expression when added to the medium at 5 microM concentration. ET-18-OCH3 effect on gene expression is blocked by the same antagonist (BN50730) which is effective in inhibiting PAF effect on astrocytes, suggesting that both substances act through the same binding site. Results obtained support the view that astroglial cells are a cellular target for this lipid mediator, and, like macrophages, respond to its methoxy-analogue.

Induction of primary response genes by excitatory amino acid receptor agonists in primary astroglial cultures

We have characterized the genomic response of astroglial cells to excitatory amino acids by using selective agonists and antagonists for the various receptor subtypes and by analyzing different primary response genes, such as members of the Fos (c-fos and fosB) and Jun (c-jun, junB, and junD) families, zif/268, and c-myc. A rapid and transient elevation of mRNA levels for c-fos, fosB, c-jun, junB, and zif/268 was observed after addition of glutamate to cultured astrocytes, whereas junD and c-myc expression was not affected. The level of AP-1 DNA binding activity, as measured by the electrophoretic mobility shift assay, also increased after addition of glutamate to cultured astrocytes. Glutamate-induced c-fos expression was not affected by the N-methyl-D-aspartate receptor antagonists MK-801 and D-2-amino-5-phosphonopentanoate, by the kainate/alpha-amino-3-hydroxy-5- methylisoxazole-4-propionate (AMPA) receptor antagonist 6,7-dinitroquinoxaline-2,3-dione (DNQX), or by the broad-spectrum antagonist kynurenate. Kainate and AMPA were also effective in inducing primary response gene expression, and their actions were antagonized by kynurenate and DNQX but not by MK-801. 1S,3R-1-Aminocyclopentane-1,3-dicarboxylic acid, a selective agonist for the metabotropic glutamate receptor, induced primary response gene expression, but its action was not antagonized by different glutamate antagonists, including L-2-amino-3-phosphonopropionate. In conclusion, our data suggest that cultured astrocytes express both kainate/AMPA ionotropic receptors and metabotropic receptors coupled to the rapid and coordinated activation of different classes of transcriptional factor genes.

Regulation of GABAA receptor in cerebellar granule cells in culture: differential involvement of kinase activities

GABAA receptor function was studied in rat cerebellar granule cells in culture, by the whole-cell patch-clamp approach. The data show that GABA activates Cl- currents in these neurons which reverse at the appropriate membrane potential and are blocked by picrotoxin. The GABA-activated currents desensitize with time of application of the neurotransmitter at concentrations > or = 10(-6) M. The dose-response curve for the peak Cl- current gives a Ka value of 2.3 microM with a Hill coefficient of 1.2. The peak Cl- current elicited by GABA decreases with time of cell registration, with a time-constant of 7.3 min. Residual responsiveness though is maintained thereafter. This "run-down" phenomenon can be completely prevented by adding adenosine-5'-triphosphate + Mg2+ in the pipette solution. Treatments which directly (8-bromoadenosine-3',5'-cyclic-monophosphate; adenosine-3', 5'-cyclic-monophosphate) or indirectly (forskolin, isobutylmethylxanthine) increase the adenosine-3',5'-cyclic-monophosphate intracellular content reduce the GABA-induced Cl- current. Conversely, treatment with the protein kinase A and C inhibitor 1-(5-isoquinolinylsulphonyl)-2-methylpiperazine potentiates the effect of GABA. On the whole, the data indicate that different protein kinase activities modulate the functional state of the GABAA receptors on granule cells from the rat cerebellum.

Metabotropic glutamate receptors in cultured cerebellar granule cells: developmental profile

Excitatory amino acid (EAA)-induced polyphosphoinositide (PPI) hydrolysis was studied during the development in culture of cerebellar granule cells. The developmental pattern was similar using metabotropic glutamate (Glu) receptor (mGluR) agonists, including L-Glu, quisqualate, and trans-(+/-)-1-amino-1,3-cyclopentanedicarboxylic acid: The stimulation of [3H]inositol monophosphate ([3H]-InsP) formation was low at 2 days in vitro (DIV), but the response increased steeply, reaching a peak at 4 DIV, followed by a progressive decline. In contrast, carbamylcholine-induced PPI hydrolysis exhibited a plateau after a pronounced increase during the first week in vitro. At 6 DIV, but not at 4 DIV, when the activity peaked, PPI hydrolysis elicited by Glu was reduced by the N-methyl-D-aspartate (NMDA) receptor antagonist MK-801, indicating that in cultured granule cells, NMDA receptors contribute to [3H]-InsP formation and that this component of the response develops relatively late. Accordingly, NMDA-induced [3H]-InsP formation, estimated under Mg(2+)-free conditions, increased markedly from very low values at 2 DIV to a plateau at 8-10 DIV. The developmental pattern of EAA-induced PPI hydrolysis was paralleled by changes in the level of an mRNA for a specific mGluR subtype (mGluR1 mRNA). RNA blot analysis performed with the pmGR1 cDNA probe revealed that the hybridization signal in RNA extracts from cultures at 1 DIV was very weak, but mGluR mRNA levels increased dramatically between 1 and 3 DIV, followed by a progressive decrease, so that by 15 DIV the mRNA levels were only approximately 10% of the values at 3 DIV.(ABSTRACT TRUNCATED AT 250 WORDS)

Development profile of metabotropic glutamate receptor mRNA in rat brain

We have studied the expression of metabotropic glutamate receptor (mGluR) mRNA by Northern blot analysis with a specific cDNA probe (the pmGR1 probe). In 1-day-old rats, the steady state levels of mRNA were higher in the hypothalamus and olfactory bulb, with intermediate levels in the cerebellum and low levels in the hippocampus and cerebral cortex. In the olfactory bulb, hypothalamus, and cerebral cortex, the expression of mGluR mRNA remained constant at 8 and 30 days of postnatal life. In contrast, in the cerebellum and hippocampus, mRNA levels increased progressively with age. There was no correlation between levels of mGluR mRNA and stimulation of polyphosphoinositide hydrolysis by 1-aminocyclopentane-1S,3R-dicarboxylic acid (trans-ACPD), which was much greater in brain slices from 8-day-old rats and was nearly absent in the adult cerebellum and olfactory bulb, where we have found the highest levels of mRNA. In addition, mGluR mRNA was detectable in cultured cerebellar granule cells but not in cultured neurons from cerebral hemispheres or in cultured astrocytes, which responded to trans-ACPD with an increased formation of [3H]inositol monophosphate. The discrepancies between levels of mGluR mRNA detected with the pmGR1 probe and trans-ACPD-stimulated polyphosphoinositide hydrolysis suggest either that different subtypes of mGluRs exist or that mRNA levels are not critical for the dynamic changes in the activity of mGluRs during development.

Non-invasive assessment of changes in left ventricular diastolic time intervals after acute blood volume reduction in haemodialysis

The effects of acute blood volume reduction induced by haemodialysis on diastolic time intervals were studied in 19 patients by echo- and phonocardiography. Haemodialysis significantly decreased left ventricular diameters. The isovolumic relaxation time was prolonged and negatively correlated with left ventricular end diastolic dimensions. To study the effect of load reduction on left ventricular filling time, cardiac cycles with the same R-R interval, before and after haemodialysis, were compared. At any given R-R interval dialysis resulted in a significant prolongation of the filling time. This study shows that diastolic time intervals are dependent on left ventricular loading conditions, and this effect should be considered when these time intervals are evaluated in the clinical setting.

[Echopolycardiographic evaluation of left ventricular function after hemodialysis]

The acute effects of haemodialysis on left ventricular (LV) function were studied by echocardiography and systolic time intervals in 19 patients maintained on long-term haemodialysis. Dialysis resulted in a significant reduction in body weight, an increase in heart rate and a small reduction in systolic blood pressure. A significant decrease was observed in LV diastolic and systolic dimensions, with an increase in the mean rate of circumferential shortening (mean VCF). The LV ejection time (LVET) decreased significantly, while changes in the pre-ejection period (PEP) were insignificant. The PEP/LVET ratio increased in all patients. Haemodialysis reduced the serum potassium levels; an increase was noted in the serum calcium concentrations, with a significant, although small, correction of blood pH. The major haemodynamic change induced by dialysis was a decrease in blood volume with a reduction in LV pre-load. These changes are suggested by the reduction in body weight and by the shortening in LV end-diastolic dimension and LVET. There was also a reduction in after-load, as expressed by the shortening in LV systolic diameter and by the decrease in systolic blood pressure. It should be emphasized that the study of LV function in patients on chronic dialysis is greatly influenced by the loading conditions. In such patients the assessment of LV function by echocardiography and systolic time intervals provides information regarding the haemodynamic changes induced by dialysis; however, no direct evidence can be derived about the functional state of the left ventricle.