Lionel Cazin

Pseudomonas fluorescens as a potential pathogen: adherence to nerve cells

In order to determine the infectious potential of the psychrotrophic bacterium Pseudomonas fluorescens, a species closely related to the opportunistic pathogen P. aeruginosa, we investigated the binding activity of this bacterium on primary cultures of rat neonate cortical neurons and glial cells, adrenal paraneurons and NG108-15 neuroblastoma cells. Incubated at concentrations of 10(6) and 10(8) CFU/mL, P. fluorescens MF37 exhibited a high binding activity on neurons in the same range as that of P. aeruginosa PAO1. A significant, but lower, adherence of P. fluorescens was also detected on glial cells and adrenal paraneurons. In contrast, when P. fluorescens MF37 or P. aeruginosa PAO1 were incubated with neuroblastoma cells, no binding was observed. In neurons, the association of P. fluorescens with the plasma membrane occurred both on neurites and cell body. Leakage of the cytoplasmic content was frequently noted. Studies performed using the fluorescent probe Hoechst 33258 revealed that in 10% of neurons, P. fluorescens induced the appearance of densely stained clusters of DNA that was typical of an early step of apoptosis. In glial cells exposed to P. fluorescens, marked changes in the morphology of the nucleus, including fragmentation into lobular structures and aggregation of DNA, were also reminiscent of the existence of a possible apoptotic mechanism. Taken together, these results reveal that P. fluorescens can bind to nerve cells and affect their physiology and, in agreement with recent clinical observations, suggest that P. fluorescens could behave as a pathogen.

Patch-Clamp Study of the Ionic Currents Underlying Action Potentials in Cultured Frog Pituitary Melanotrophs

The ionic conductance mechanisms underlying the action potential behaviour of frog melanotrophs in primary culture were studied by using the patch-clamp technique in whole-cell configuration. The action potentials spontaneously generated by these cells were predominantly sodium spikes with a calcium component. Voltage-dependent sodium, calcium, potassium and calcium-activated potassium currents were identified and analysed separately. The voltage-dependent sodium current was characterized by its fast kinetic, its low-threshold activation, its voltage-dependent inactivation and a tetrodotoxin sensitivity. Calcium currents were identified on the basis of their ionic selectivity to divalent cations (Ba2+, Ca2+, Co2+) and their time course. Only two of the three well-documented calcium currents could be detected in frog melanotrophs. A sustained calcium current (ICaS) and an inactivating calcium current (ICaN) were elicited by step depolarizations up to -20 mV. ICaN inactivated for membrane potentials more positive than -50 mV; its inactivation appeared to be both voltage- and calcium-dependent. Transient calcium current (ICaT) has never been observed. Two types of potassium currents were identified: voltage-dependent potassium (IKV) and calcium-activated potassium currents, (IK[Ca]). They were both suppressed by tetraethylammonium chloride, whereas only IK(Ca) was blocked by cobalt. These major ionic currents underlying spontaneous electrical activity are assumed to be involved in the process of alpha-melanocyte-stimulating hormone release. The present study provides the ground for future investigations regarding the relationships between the electrical and secretory activities in amphibian pars intermedia cells.

Dopamine-induced inhibition of action potentials in cultured frog pituitary melanotrophs is mediated through activation of potassium channels and inhibition of calcium and sodium channels

A patch-clamp study was conducted in order to investigate the effects of dopamine on the ionic currents in cultured frog melanotrophs. Brief applications of dopamine (1 microM) hyperpolarized the cell and inhibited the spontaneous action potentials. The hyperpolarization was accompanied by an increase in membrane conductance. Under voltage clamp, dopamine evoked a net outward current. The dopamine-induced outward current was negligible at the equilibrium potential for potassium ions. It was also observed that dopamine increased the intensity of a voltage-dependent outward potassium current monitored by constant depolarizing pulses. In addition, voltage-dependent L- and N-like calcium currents and sodium current were reduced. In the cell-attached configuration, two distinct channel types were activated and one channel type was blocked by dopamine exposure to the extrapatch membrane, which indicates the involvement of an intracellular factor in the signal transduction pathway. A higher conductance channel (100 pS) was characterized by a very low basal activity which rapidly increased upon dopamine application. A lower conductance channel (30 pS) displayed a basal activity with frequent opening events, and a delayed (30-40 s) increase of activity in response to dopamine. Both currents reversed at a deduced potential corresponding to the equilibrium potential for potassium ions. The channel type inhibited by dopamine had a low conductance of 15 pS. The inhibition of the electrical activity induced by dopamine was totally blocked by the D2 receptor antagonist S(-)-sulpiride (1 microM) but was not affected by the D1 receptor antagonist SKF-83566 (1 microM). It is concluded that dopamine activates potassium channels and inhibits calcium and sodium channels in frog melanotrophs. The results also indicate that stimulus-response coupling is mediated by intracellular messenger system(s).

Electrophysiological effects of various neuroactive steroids on the GABAA receptor in pituitary melanotrope cells

The action of steroids on the bioelectrical response to gamma-aminobutyric acid (GABA) has never been studied in pituitary cells. In the present study, we have thus investigated the effects of a series of neuroactive steroids on the GABA-activated current in frog melanotrope cells in primary culture, using the patch-clamp technique in the whole-cell configuration. Bath perfusion of 3alpha-isomers of pregnanolone or tetrahydrodeoxycorticosterone (1 microM) significantly enhanced the current evoked by short pulses of GABA (3 microM) and accelerated its desensitization. In contrast, the 3beta-isomers (30 microM) had no effect on the GABA-activated current. Addition to the bath solution of dehydroepiandrosterone or dehydroepiandrosterone sulfate (10 microM) inhibited the GABA-activated current without modifying its kinetics while pregnenolone sulfate (10 microM) both inhibited the GABA-activated current and accelerated its decay rate. The effects of pregnane steroids were not impaired by the central-type benzodiazepine receptor antagonist flumazenil (10 microM). In conclusion, the present study reveals that neuroactive steroids may exert multiple modulatory activities on the GABA(A) receptor borne by melanotrope cells. The effect of steroids on the current evoked by GABA is rapid, reversible, stereospecific and not mediated through the benzodiazepine binding site of the GABA(A) receptor.

Multiple modulatory effects of the neuroactive steroid pregnanolone on GABAA receptor in frog pituitary melanotrophs.

1 The effects of the neuroactive steroid pregnanolone (5β‐pregnan‐3α‐ol‐20‐one) on the electrical response to GABA were investigated in cultured frog pituitary melanotrophs using the patch‐clamp technique. 2 Low concentrations of pregnanolone (0.01–1 μm) in the extracellular solution enhanced the current evoked by submaximal concentrations of GABAA receptor agonists and prolonged the GABA‐induced inhibition of the spontaneous action potentials in a dose‐dependent manner. 3 Pregnanolone augmented the opening probability of the single GABA‐activated channels but did not modify the conductance levels. 4 Pregnanolone (1 μm) shifted the GABA dose–response curve towards the low GABA concentrations, reducing the EC50 from 4.2 to 1.8 μm. 5 Internal cell dialysis with pregnanolone (1 or 10 μm) did not alter the GABA‐evoked current. 6 Pregnanolone accelerated the desensitization of both the current and conductance increases caused by GABA. 7 High concentrations of pregnanolone (30 μm) markedly and reversibly diminished the current evoked by 10 μm GABA. 8 At high concentrations (10–30 μm), pregnanolone induced an outward current which reversed at the chloride equilibrium potential. 9 It is concluded that, in frog pituitary melanotrophs, pregnanolone exerts a dual inverse modulation and a direct activation of the GABAA receptor–channel depending on the concentrations of both GABA and steroid. Pregnanolone acts on an extracellular site on the GABAA receptor inducing conformational changes of the receptor–channel complex, resulting in a desensitized less‐conducting state.

Cytotoxic effects of the lipopolysaccharide from Pseudomonas fluorescens on neurons and glial cells

Pseudomonas fluorescens is an emerging pathogen closely related to Pseudomonas aeruginosa. In the present study, the effect of the lipopolysaccharide (LPS) from P. fluorescens MF37 was investigated using indicators of apoptosis and necrosis and was compared to the effect of the LPS from P. aeruginosa PAO1. Capillary electrophoresis analysis of the LPS from P. fluorescens MF37 revealed the existence of three forms of the endotoxin and the absence of homology with the LPS from P. aeruginosa. In neurons and glial cells the LPS from P. fluorescens induced major morphological changes including a condensation of the cytoplasmic proteins, a leakage of the cytoplasmic content, the formation of blebs on the nuclear membrane and a marked reorganization of the cytoskeleton. In glial cells, the LPS from P. fluorescens provoked the migration of phosphatidylserine at the surface of the cytoplasmic membrane, a sign of apoptosis, but this reaction was associated to an increase in the permeability to propidium iodide characteristic of necrosis. Biochemical studies revealed an important activation of an inducible nitric oxide synthase and a release of lactate dehydrogenase, a stable cytosolic enzyme. These results demonstrate that the LPS from P. fluorescens induces apoptosis and a concomitant and limited necrosis, reveal the unexpected cytotoxicity of this endotoxin and provide the first demonstration of the apoptotic effect of a non-aeruginosa Pseudomonas on nerve cells.

In vitro study of frog (Rana ridibunda Pallas) neurointermediate lobe secretion by use of a simplified perifusion system: IV. Interaction between dopamine and thyrotropin-releasing hormone on α-melanocyte-stimulating hormone secretion

The interaction between dopamine and TRH on alpha-melanocyte-stimulating hormone (MSH) release from the intermediate lobe of amphibian pituitary has been studied in vitro using the perifusion model. Dopamine (10(-10) to 10(-6) M) was responsible for a dose-related inhibition of alpha-MSH secretion. The inhibitory effect of dopamine (10(-8) and 3.16 X 10(-8) M) was completely abolished in the presence of haloperidol (10(-5) and 10(-6) M, respectively). It has been previously established that, in amphibians, TRH stimulated alpha-MSH release in vitro and that the action of TRH was not mediated via an inhibition of the release of endogenous dopamine (M. C. Tonon, P. Leroux, M. E. Stoeckel, S. Jégou, G. Pelletier, and H. Vaudry, 1986, Endocrinology 112, 133-141). In the present study we demonstrate that TRH (10(-7) M) reverses the inhibitory effect of dopamine (for concentrations ranging from 3.16 X 10(-8) to 10(-6) M) on alpha-MSH secretion and that the effects of TRH and dopamine are additive. Thus, these results indicate that the intracellular events associated with TRH-induced stimulation and dopamine-induced inhibition of alpha-MSH release are not linked together.

Gramicidin‐perforated patch revealed depolarizing effect of GABA in cultured frog melanotrophs

1 In frog pituitary melanotrophs, GABA induces a transient stimulation followed by prolonged inhibition of hormone secretion. This biphasic effect is inconsistent with the elevation of cytosolic calcium and the inhibition of electrical activity also provoked by GABA in single melanotrophs. In the present study, standard patch‐clamp configurations and gramicidin‐perforated patches were used to investigate the physiological GABAA receptor‐mediated response and intracellular chloride concentration ([Cl−]i) in cultured frog melanotrophs. 2 In the gramicidin‐perforated patch configuration, 1 μM GABA caused a depolarization associated with an action potential discharge and a slight fall of membrane resistance. In contrast, at a higher concentration (10 μm) GABA elicited a depolarization accompanied by a transient volley of action potentials, followed by a sustained inhibitory plateau and a marked fall of membrane resistance. Isoguvacine mimicked the GABA‐evoked responses, indicating a mediation by GABAA receptors. 3 In gramicidin‐perforated cells, the depolarizing excitatory effect of 1 μm GABA was converted into a depolarizing inhibitory action when 0.4 μm allopregnanolone was added to the bath solution. 4 After gaining the whole‐cell configuration, the amplitude and/or direction of the GABA‐evoked current (IGABA) rapidly changed before stabilizing. After stabilization, the reversal potential of IGABA followed the values predicted by the Nernst equation for chloride ions when [Cl−]i was varied. 5 In gramicidin‐perforated cells, the steady‐state I–V relationships of 10 μm GABA‐ or isoguvacine‐evoked currents yielded reversal potentials of −37.5 ± 1.6 (n= 17) and −38.6 ± 2.0 mV (n= 8), respectively. These values were close to those obtained by using a voltage‐ramp protocol in the presence of Na+, K+ and Ca2+ channel blockers. The current evoked by 1 μm GABA also reversed at these potentials. 6 We conclude that, in frog pituitary melanotrophs, chloride is the exclusive charge carrier of IGABA. In intact cells, the reversal potential of IGABA is positive to the resting potential because of a relatively high [Cl−]i (26.5 mm). Under these conditions, GABA induces a chloride efflux responsible for a depolarization triggering action potentials. However, GABA at a high concentration or in the presence of the potentiating steroid allopregnanolone exerts a concomitant shunting effect leading to a rapid inhibition of the spontaneous firing.

Ovarian cancer: Stat3, RhoA and IGF-IR as therapeutic targets

Seeking to improve ovarian cancer therapy, we compared biological characteristics of the moderately-aggressive OVCAR-3 cell line with two highly aggressive ovarian cancer cell populations: the SK-OV-3 cell line, and HASCJ primary cells isolated from the ascitic fluid of a patient with FIGO stage IV ovarian cancer. Secretion of angiogenic factors was not discriminative, whereas cell invasion through Matrigel and vasculogenic mimicry were much greater in the more aggressive cells. Among 10 agents tested for their ability to decrease cancer cell aggressivity using these two models, inhibitors of Stat3, IGF-IR and Rho GTPase were found to be the most promising.

Stimulation of angiogenesis resulting from cooperation between macrophages and MDA-MB-231 breast cancer cells: proposed molecular mechanism and effect of tetrathiomolybdate

BackgroundInfiltration by macrophages (Mφ) indicates a poor prognosis in breast cancers, in particular by inducing angiogenesis. Our study aimed 1) to investigate the mechanism by which cooperation between Mφ and aggressive breast cancer cells (MDA-MB-231) induces angiogenesis; 2) to examine the effect of tetrathiomolybdate (TM) on this angiogenic activity.MethodsMφ coincubated with MDA-MB-231 were used as a model to mimic the inflammatory microenvironment. Angiogenesis induced by the culture media was tested in the chick chorioallantoic membrane (CAM). Mφ phenotype was evaluated by 1) expression of the M1 marker CD80, and secretion of interleukin 10 (IL-10), an M2 marker; 2) capacity to secrete Tumour Necrosis Factor α (TNFα) when stimulated by lipopolysaccharide/interferon γ (LPS/IFNγ); 3) ability to induce MDA-MB-231 apoptosis. To explore the molecular mechanisms involved, cytokine profiles of conditioned media from MDA-MB-231, Mφ and the coculture were characterised by an antibody cytokine array. All experiments were carried out both in presence and in absence of TM.ResultsIncubation of Mφ with MDA-MB-231 induced a pro-angiogenic effect in the CAM. It emerged that the angiogenic activity of the coculture is due to the capacity of Mφ to switch from M1 Mφ towards M2, probably due to an increase in Macrophage Colony Stimulating Factor. This M1-M2 switch was shown by a decreased expression of CD80 upon LPS/IFNγ stimulation, an increased secretion of IL-10, a decreased secretion of TNFα in response to LPS/IFNγ and an inability to potentiate apoptosis. At the molecular level, the angiogenic activity of the coculture medium can be explained by the secretion of CXC chemokines/ELR+ and CC chemokines. Although TM did not modify either the M2 phenotype in the coculture or the profile of the secreted chemokines, it did decrease the angiogenic activity of the coculture medium, suggesting that TM inhibited angiogenic activity by interfering with the endothelial cell signalling induced by these chemokines.ConclusionsCooperation between Mφ and MDA-MB-231 transformed M1 Mφ to an angiogenic, M2 phenotype, attested by secretion of CXC chemokines/ELR+ and CC chemokines. TM inhibited this coculture-induced increase in angiogenic activity, without affecting either Mφ phenotype or cytokine secretion profiles.