Subpopulations of neonatal rat sensory neurons express functional neurotransmitter receptors which elevate intracellular calcium

We have attempted to identify which subpopulations of rat sensory neurons possess functional neurotransmitter receptors which elevate the free concentration of intracellular calcium. Subpopulations of sensory neurons were identified using three accepted criteria: (i) the distribution and proportion of neurons with differing somatic diameters; (ii) the expression of substance P-like immunoreactivity; and (iii) the responsiveness of each neuron to capsaicin. The total neuronal population was primarily grouped into three classes according to somatic diameter and defined as small- (< 17 microns), intermediate- (17-25 microns) and large- (> 25 microns) sized neurons. It was not possible to distinguish between small and intermediate-sized neurons since a similar percentage of each class expressed substance P-like immunoreactivity or sensitivity to capsaicin. Large-sized neurons did not possess these characteristics and, therefore, represented a distinct neuronal population. In single, intact neurons of differing diameter, the ability of a variety of receptor agonists to elevate the free concentration of intracellular calcium was determined using the calcium-sensitive indicator, Fura-2. Local application of capsaicin, adenosine, bradykinin, ATP and substance P elevated the resting level of the free concentration of intracellular calcium in small and intermediate-sized neurons. The large-sized neurons were unresponsive to these receptor agonists with the exception of ATP. The response to ATP was relatively transient in nature and did not differ between neurons of differing somatic diameter.(ABSTRACT TRUNCATED AT 250 WORDS)

Synaptic- and agonist-induced chloride currents in neonatal rat sympathetic preganglionic neurones in vitro

1. By using the whole-cell recording configuration of the patch-clamp technique in a spinal cord slice preparation, we have made recordings from visually identified neurones in the lateral horn of the thoracic and lumbar spinal cord of neonatal rats (newborn to 14 days postnatal). 2. Some of the recorded neurones were labelled with the fluorescent dye Lucifer Yellow (n = 27). Their morphology was typical for sympathetic preganglionic neurones (SPNs). Based on the size of the cell soma and the electrophysiological properties, unlabelled neurones were also regarded as SPNs. 3. Spontaneous synaptic activity of different patterns could be observed in 73% of the recorded neurones (n = 106). It reversed at the chloride equilibrium potential (ECl) and could be reversibly blocked by strychnine (1-10 microM), but not by bicuculline (10 microM) or SR95531 (5-10 microM). 4. Synaptic activity could be elicited by focal electrical stimulation in the vicinity of the recorded neurone. These evoked synaptic events exhibited features similar to the spontaneous synaptic activity. 5. Application of glycine (100 microM-1 mM) by a fast microperfusion system induced a chloride current in twenty-seven out of thirty cells tested. The currents were reversibly blocked by strychnine (1-10 microM), but were only weakly sensitive to bicuculline (10 microM). Stability of current responses to glycine was increased by inclusion of ATP (4 mM) in the intracellular medium. 6. Application of gamma-aminobutyric acid (GABA; 100 microM-1 mM) by the fast microperfusion system induced a chloride current in all twenty neurones tested. These currents were reversibly blocked by bicuculline (10 microM). Strychnine (1-10 microM) blocked this current only weakly. Run-down of GABA-induced currents was prevented to a great extent by inclusion of ATP (4 mM) in the pipette. 7. These results suggest that the inhibitory synaptic activity recorded from SPNs in thin, transverse slices of neonatal rat spinal cord is mediated by glycine receptor-gated Cl- channels. GABAA receptor-gated Cl- channels might be activated by inputs from other spinal segments and/or descending pathways from higher brain regions.

Serotonin inhibits Ca2+ currents in porcine melanotrophs by activating 5-HT1C and 5-HT1A receptors

1. We have investigated the effect of serotonin (5-HT) on Ca2+ currents in cultured porcine pituitary intermediate lobe (IL) cells. Electrophysiological recordings were performed in the whole-cell configuration of the patch-clamp technique. All membrane currents other than Ca2+ currents were blocked pharmacologically and by ionic substitution. 2. Two types of Ca2+ currents were recorded in IL cells, differing by their activation and inactivation properties. The first type of Ca2+ current was activated at membrane potentials more positive than -60 mV and had a transient time course during the 100 ms depolarizing voltage steps. The properties of this current correspond to those of the T-type or low-voltage-activated Ca2+ current. The second type of Ca2+ current had a threshold for activation between -30 and -20 mV and showed no sign of inactivation with time during the voltage steps. The properties of this current are similar to those of the L-type or high-voltage-activated Ca2+ current. 3. Current to voltage (I-V) relationships obtained either by conventional 100 ms voltage steps from a holding potential (VH) of -100 mV to various test potentials or by 800 ms voltage ramps from -100 to +50mV matched one another closely and showed two inward current humps corresponding to the activation of the T-type and L-type Ca2+ currents respectively. The ramp protocol was used to characterize the effect of 5-HT on the Ca2+ current I-V relationship. 4. 5-HT (100nM to 50 microM) reversibly inhibited the amplitude of the Ca2+ current triggered by 100 ms voltage jumps from a Vh of -100 mV to a test potential of 0 mV. 5. The effect of 5-HT was dose dependent with a threshold between 10 and 100 nM and a maximal effect at 10 microM. At a concentration of 10 microM, the average inhibition of Ca2+ current by 5-HT was 18.3 +/- 6.5% (n = 27). 5-HT inhibited Ba2+ current in a similar fashion. 6. When examining the effect of 5-HT on Ca2+ current I-V relationships, we observed a reversible inhibition of the high-threshold component corresponding to the L-type Ca2+ current. We never observed any effect of 5-HT on the T-type current. 7. The effect of 5-HT (10 microM) was antagonized to various extents by mianserin (1 microM) but not by ketanserin (0.1 microM), suggesting the involvement of 5-HT1C receptors.(ABSTRACT TRUNCATED AT 400 WORDS)

Caffeine-induced Ca2+ release inhibits GABAA responsiveness in rat identified native primary afferents

It has been shown previously that an increase in cytoplasmic Ca2+ concentration depresses the GABA-A response. However, little attention has been paid to the Ca2+ source involved. In the present study, we show that the Ca2+ increase triggered by caffeine-induced Ca2+ release from the intracellular pool inhibits the GABA-A response, whereas Ca2+ influx through voltage-activated Ca2+ channels has no effect on this response.

Acetylcholine synthesis in a primary culture of porcine intermediate lobe cells

Abstract Previous pharmacological studies with the pituitary gland have suggested that acetylcholine (ACh) might be involved in the regulation of intermediate lobe (IL) function. Whether ACh is endogenous to the IL cells or provided from an extrinsic source is unclear. The present experiments tested the possibility that the endocrine cells of the IL may be a source of ACh by measuring certain cholinergic markers in a primary culture of dissociated porcine cells. The endogenous ACh content was readily measurable in both the freshly dissociated IL cells and in 2- or 4-day primary cultures. Choline acetyltransferase activity was also measurable in the freshly dissociated and cultured IL cells and was reduced by 53% in the presence of a specific inhibitor, napthylvinylpyridine (50 muM). IL cells incubated in the presence of [(14)C]choline (1 muM) were able to synthesize [(14)C]ACh and the accumulation of the new ACh was inhibited by hemicholinium-3 (30 muM), a competitive inhibitor of high affinity choline uptake at cholinergic nerve terminals. In conclusion, these results demonstrate that the endocrine cells of the IL are capable of synthesizing and storing ACh.

Modulation of GABA-gated chloride currents by intracellular Ca2+ in cultured porcine melanotrophs

1. The modulatory role of intracellular Ca2+ concentration ([Ca2+]i) on gamma-aminobutyric acid type A (GABAA) receptor-gated Cl- currents was investigated in dialysed and intact cells of cultured porcine pituitary intermediate lobe (IL) cells using the patch-clamp technique. In order to isolate Ca2+ and Cl- currents all other membrane currents were blocked pharmacologically. Isoguvacine, a specific GABAA receptor agonist, was used to activate selectively GABAA receptor-mediated whole-cell and single-channel Cl- currents. 2. In the whole-cell recording (WCR) configuration inward Ca2+ currents triggered before and/or during the application of isoguvacine (100 microM), did not inhibit the GABAA receptor-mediated response. This lack of effect of calcium currents was obtained in all situations tested, i.e. when the intracellular Ca2+ concentration was only weakly buffered (0.5 mM-EGTA in the pipette solution), not buffered at all (no EGTA added to the pipette solution) or when the resting [Ca2+]i was buffered at 10(-7) M (pCa 7) with internal EGTA. 3. At pCa 7, simultaneous application of isoguvacine (100 microM) and caffeine (10 mM) resulted in a 47 +/- 15% reduction of the whole-cell GABAA response. In the same conditions, a ten times lower concentration of caffeine (1 mM), induced a transient increase of the GABAA response which turned into a steady-state inhibition during the subsequent applications. 4. At pCa 7, when isoguvacine (100 microM) was applied together with 3Me-His2-TRH (50 nM), a potent analogue of the calcium-recruiting thyrotrophin-releasing hormone, the GABAA receptor-gated Cl- current was increased by 40 +/- 8%. In the absence of the Ca2+ chelator EGTA in the pipette solution, either potentiating or inhibitory effects of 3Me-His2-TRH on the GABAA response were observed. 5. If a high concentration (18 mM) of the calcium chelator EGTA was included in the pipette solution, caffeine and 3Me-His2-TRH had markedly lower effects on the GABAA response than those observed at pCa 7, suggesting that the effect of both substances was mediated by an increase in [Ca2+]i. 6. In the absence of extracellular Ca2+, the effects of caffeine and 3Me-His2-TRH were not significantly different from those obtained in the presence of Ca2+ (5 mM), suggesting that Ca2+ influx was not the major route for increasing [Ca2+]i. 7. In the cell-attached (CA) configuration, the presence of isoguvacine (3-5 microM) in the pipette solution triggered the opening of channels displaying multiple current levels.(ABSTRACT TRUNCATED AT 400 WORDS)

Bicuculline blocks nicotinic acetylcholine response in isolated intermediate lobe cells of the pig

1. The effect of bicuculline on nicotinic acetylcholine (ACh) responses in isolated intermediate lobe (IL) cells of the pig was investigated by use of patch-clamp techniques. Bicuculline was found to reduce ACh-evoked whole-cell currents (IACh) in all cells tested (n = 40). 2. The blocking effect of bicuculline on IACh was dose-dependent, the concentration producing half-maximal blockade being 43.8 microM. 3. The blockade of IACh by bicuculline was not voltage-dependent at membrane potentials above -60 mV, but a slight voltage-dependence was observed at holding potentials (HP) of -80 and -100 mV. 4. The inhibitory effect of bicuculline on IACh was partially competitive at a HP of -60 mV. 5. Neither SR 95531, a pyridazinyl gamma-aminobutyric acid derivative, nor t-butylbicyclophosphorothionate (TBPS) blocked IACh in IL cells. 6. It is concluded that bicuculline interacts directly with the ACh receptor-ionophore complex on porcine IL cells.

Lipopolyamine-mediated transfection allows gene expression studies in primary neuronal cells

A simple and efficient transfection technique based on lipopolyamine-coated DNA that can be used for gene transfer in cerebellar granular neurons is described. Gene transfer is achieved by exposure of cells to a DNA/lipid complex obtained by simple mixing of lipopolyamine and plasmid DNA. This procedure may represent a general tool of physiological investigations in primary cells. We show that the promoters of the introduced chimera genes are regulated by their respective trans-acting factors and may be modulated via membrane receptors and second messengers. This procedure has no noticeable toxic effects, nor does it seem to interfere with complex physiological behavior like neuronal differentiation.

Electrophysiological study of tert-butylbicyclophosphorothionate-induced block of spontaneous chloride channels

The action of TBPS (tert-butylbicyclophosphorothionate) on spontaneous chloride channels recorded from porcine pars intermediate lobe cells in primary culture has been studied. This compound, which binds specifically to the gamma-aminobutyric acidA (GABAA) receptor complex, is known as a channel-gating (non-competitive) GABA antagonist. The present results show that TBPS reduces spontaneous chloride channel activity in a dose-dependent manner, with an IC50 equal to 55 nM, which is a value comparable to its affinity for the GABAA binding sites. Single-channel analysis revealed that TBPS affects neither the amplitude nor the open time of these spontaneous channels but prolongs the longer closed times, resulting in a dramatic decrease in opening probability.

Nicotinic acetylcholine receptors in porcine hypophyseal intermediate lobe cells

1. Acetylcholine (ACh) was found to depolarize isolated porcine intermediate lobe cells maintained in primary cells culture. We investigated the ACh-induced responses in both whole-cell and cell-attached configurations of the patch-clamp technique. 2. From noise analysis of ACh-evoked whole-cell currents, we estimated an elementary conductance of 20 pS and a channel open duration of about 1.7 ms at -60 mV. From single-channel recordings, we obtained a slope conductance of 26 pS and a mean open time of 1.8 ms at membrane potentials between -60 and -80 mV. 3. ACh-evoked responses were blocked by d-tubocurarine (d-TC), hexamethonium and mecamylamine, but were insensitive to alpha-bungarotoxin. These characteristics define a neuronal type of nicotinic receptors. 4. The whole-cell current induced by ACh showed a strong inward rectification with no outward current being obtained. This phenomenon was observed when the intracellular ion is either sodium or caesium, and even when Ca2+ and Mg2+ were totally removed from the intracellular medium. 5. ACh-gated channels in intermediate lobe cells were cation selective and were permeable to Na+ and Cs+. In Ca2(+)-free extracellular solution, single-channel conductances were much larger (46 pS) than in the presence of 2 mM-Ca2+ (26 pS). 6. The possibility of an excitatory cholinergic control of intermediate lobe cells is discussed.

Pharmacological characterization of the aminopyridazine SR 95639A, a selective M1 muscarinic agonist

In order to design a selective M1 muscarinic agonist, we synthesized SR 95639A (morpholinoethylamino-3-benzocyclohepta-(5,6-c)-pyridazine, dihydrochloride), a semi-rigid analogue of the aminopyridazine antidepressant drug minaprine. SR 95639A displaced [3H]pirenzepine from its binding sites in rat hippocampal membranes with an IC50 value of 0.27 microM. It only weakly displaced [3H]N-methylscopolamine from cerebellar, cardiac and ileal membranes (10-48 microM), and, up to 100 microM, did not interact with the main other receptors of the rat brain. In rat isolated sympathetic ganglia, SR 95639A induced dose-dependent depolarizations which were antagonized by pirenzepine, and dose dependently suppressed the M current. These latter effects were also pirenzepine-sensitive. After i.p. or oral treatment in mice, SR 95639A never induced the classical cholinergic syndrome, up to lethal doses. Finally, SR 95639A (i.p. and p.o.) antagonized contralateral rotations induced by intrastriatal injection of pirenzepine, in mice. These results suggest that SR 95639A is a selective agonist at central muscarinic M1 receptors and may represent a useful tool for further characterization of the nature and function of muscarinic receptor subtypes.

Spontaneous spiking activities of porcine pars intermedia cells: effects of thyrotropin-releasing hormone

The electrophysiological properties of porcine melanotrophs in primary culture were studied with patch clamp techniques. In the cell-attached (c/a) configuration, extracellular spikes were recorded but in only 47 of the 259 cells examined; active cells were more frequently found in short-term cultures (48 h, 22 out of 71). In the whole-cell (WCR) configuration, the mean resting potential was -46.6 mV and the mean input resistance 2.41 G omega. In the current clamp mode, of the 99 cells recorded, 39.4% displayed spontaneous spiking activities, 14.1% spiked when a depolarizing current was applied, and 46.5% were silent. Two patterns of spontaneous activity were recorded. The first consisted of rapid membrane depolarizations (mean duration: 16.0 ms) which reached a mean value of +8.9 mV. These action potentials occurred either at random intervals or at a mean frequency of 1.19 Hz. Tetrodotoxin (TTX), a sodium channel blocker, completely abolished these action potentials. The second pattern consisted of regular bursts (mean duration: 1.69 s and mean frequency: 0.15 Hz) of spikes with smaller amplitudes (culminating at -9.5 mV) and greater durations (79.7 ms). This pattern could be recorded in the presence of TTX in the external medium. In the c/a configuration, thyrotropin-releasing hormone (TRH) and (3Me-His2)-TRH enhanced spike frequency, whereas histidyl-proline-diketopiperazine, a metabolite of TRH, had no effect. In WCR, out of the 27 cells tested, TRH (5.10(-9)-5.10(-8) M) induced firing in 4 quiescent cells and increased the frequency of action potentials in 4 spontaneously active cells. This was usually, but not necessarily, preceded by a hyperpolarization (n = 5). TRH (5.10(-8) M) enhanced the secretion of melanocyte-stimulating hormone (alpha MSH) from perfused isolated melanotrophs by 62.8 +/- 9.8% (n = 9) over basal levels. (3Me-His2)-TRH and (Pro3)-TRH mimicked the TRH response, whereas histidyl-proline-diketopiperazine was without effect.

Thyrotropin-releasing hormone stimulates porcine melanotrope cells in primary culture

The action of thyrotropin-releasing hormone (TRH) on melanotrope cells maintained in primary culture was studied with biochemical and electrophysiological techniques. TRH effects on polyphosphoinositide (PPI) breakdown was measured in [3H]myoinositol labelled cells maintained in suspension for 24 hours or in primary culture. TRH (50 nM) or its potent analogue (3Me-His2)-TRH increased total PPI levels by 50-125% in separate experiments after 30 min of treatment whereas corticotropin-releasing hormone (CRF) was without effect. The effect of TRH was dose-dependent (ED50 = 5 nM), the maximal effect being reached with 50 nM TRH. Using the patch-clamp technique in the cell-attached configuration spikes were recorded extracellularly. In 6 of the 13 cells tested, (3Me-His2)-TRH (10 nM) elicited an increase in the spontaneous spiking rate. Furthermore, TRH (50 nM) increased melanocyte-stimulating hormone (alpha-MSH) secretion 2-fold after 8 h of treatment. These results suggested that TRH activated phospholipase C and electrical activity in melanotrope cells; the resulting phosphoinositide breakdown and increase in intracellular free Ca2+ ultimately led to a stimulation of hormone release.

Small-conductance chloride channels activated by calcium on cultured endocrine cells from mammalian pars intermedia

Porcine intermediate lobe (IL) endocrine cells maintained in primary culture have been studied using patch-clamp derived configurations to record unitary activity on outside-out vesicles. Solutions were devised so as to record Cl current in isolation and to fix cytoplasmic Ca concentration [Ca]i between 0.1 microM and 3 microM. Between [Ca]i 0.5 and 1 microM, the chloride permeability was restricted to single events with a small amplitude, that varied linearly with the membrane potential. Mean slope conductance of this chloride channel was 2.5 pS. Single channel analysis yielded two mean open time values of 10 and 55 ms at -80 mV. Relaxations of chloride currents on outside-out patches was examined at different [Ca]i. Relaxation was negligible at 0.15 microM [Ca]i, whereas at higher [Ca]i, the current exhibited relaxation in response to voltage jumps the kinetic of which could be fitted by two exponentials. At 0.5 microM [Ca]i, the fast relaxation time constant was shown to be voltage insensitive with a value of about 10 ms. The slow relaxation time constant had a mean value of 75 ms at -60 mV and increased with membrane depolarization with a twofold change over 120 mV. Another voltage effect was to favour the slow opening mode at the more depolarized potentials: the ratio of fast to slow relaxations being 5:1 at -60 mV as compared to 1:1 at +80 mV). Finally the estimated probability of opening (po) linearly increased with voltage. po displayed a bell-shaped dependence on [Ca]i, so that full activation of the channels was not achieved.

Quantitative evaluation of the properties of a pyridazinyl GABA derivative (SR 95531) as a GABAA competitive antagonist. An electrophysiological approach

We have investigated the effects of an aryl-aminopyridazine derivative of GABA (SR 95531) on dose-response curves of GABA-induced depolarizations from dorsal root ganglion neurones recorded intracellularly. The reversible shift to the right of the dose-response curves in a parallel fashion and the dissociation constant (KB) value of 0.13 +/- 0.02 microM (n = 15) indicate that this compound is a potent competitive GABAA antagonist. The competitive nature of SR 95531-induced antagonism was confirmed by single channel analysis. In excised membrane patches from bovine chromaffin cells (outside out configuration), 0.2-0.5 microM SR 95531 did not alter the mean open time of GABA-activated channels and did not introduce further short closing gaps within bursts. Whole cell recordings from cultured nodose ganglion neurones indicated that SR 95531 (10 microM) did not modify significantly any of the 3 types of calcium currents already reported in sensory neurones. This result might be of importance for further studies of presynaptic GABA actions on transmitter release.

Spontaneous and GABA-evoked chloride channels on pituitary intermediate lobe cells and their internal Ca requirements

On porcine intermediate lobe (IL) endocrine cells, spontaneously opening chloride channels have been studied and compared to GABA-A activated chloride channels. Elementary currents were recorded mainly from outside-out patches excised from IL cells maintained in culture for 1-4 weeks. Spontaneous inward currents were observed in Cs-loaded cells after replacing Na in the extracellular medium by the impermeant ion choline. This activity, at an internal calcium concentration of 10(-8) M corresponded to a channel for chloride ions with a main conductance level of 26 pS, and substates around 11 pS. The sequence of permeabilities to halides was I greater than Br greater than Cl. These conductance characteristics were common to the GABA-operated channels which also showed a main conductance substate of 23-31 pS. The open time of the 26 pS level mostly encountered in spontaneous activity, was distributed along two modes: one, the most frequent, around 1 ms, and the other around 4 ms. This latter mode was the predominant one observed during GABA and isoguvacine applications but in addition a bursting activity of 19 ms duration was also seen. Specific GABA-A receptor antagonists (bicuculline and SR42641, 1 microM) blocked activity evoked by GABA (1-10 microM), but did not affect spontaneous events. These spontaneous Cl events were only observed in a restricted range of internal Ca concentrations, i.e. between 1 nM and 0.1 microM, and were practically abolished at Cai 1 microM. The GABA-induced activity of Cl channels was also Ca-sensitive, being reduced when Cai reached 1 microM.

Intracellular effectors and modulators of GABA-A and GABA-B receptors: a commentary

The inhibitory neurotransmitter GABA activates two receptor subtypes that can be distinguished by their pharmacology. The GABA-A site is competitively antagonized by bicuculline and exclusively coupled to a chloride channel. The GABA-B receptor, for which baclofen is the only specific agonist, is resistant to bicuculline inhibition and, depending upon its localization, will activate K currents and/or inhibit Ca currents. Both electrophysiological and biochemical approaches have been applied to the study of each receptor. The membrane and intracellular components that to date have been implicated in GABA-B activation are discussed: G proteins, adenylate cyclase and intracellular calcium levels. This latter factor is also discussed with respect to GABA-A receptor action.

Electrophysiological study of SR 42641, a novel aminopyridazine derivative of GABA: antagonist properties and receptor selectivity of GABAA versus GABAB responses

A new arylamino-pyridazine gamma-aminobutyric acid (GABA) derivative, SR 42641, has been tested for its ability to antagonize the actions of GABA on mammalian sensory neurones. SR 42641 and bicuculline reversibly decreased GABAA-induced depolarizations and currents recorded intracellularly from dorsal root ganglion neurons (DRG). Dose-response curves were shifted to the right in a parallel fashion. KB values (determined under voltage clamp conditions) were respectively 0.12 +/- 0.05 and 0.38 +/- 0.08 microM. Similar values were obtained with current clamp recording conditions. The study of the GABA-induced Cl- current under voltage-clamp conditions did not show any voltage-dependency of the antagonist effect of SR 42641. In nodose ganglion neurones, SR 42641 (0.4-4.5 microM) did not alter the (-)-baclofen-induced shortening of the calcium component of action potentials. At concentrations higher than 10 microM, SR 42641 itself prolonged calcium-dependent action potentials. Patch-clamp recordings from DRG cultured neurones indicated that SR 42641 did not affect the calcium current responsible for sustained calcium entry into cells. We conclude that SR 42641 is a potent competitive GABA antagonist, specific for the GABAA receptor. It does not act at the level of the chloride ionophore.

Low concentrations of GABA reduce accommodation in primary afferent neurons by an action at GABAB receptors

The pattern of accommodation of spike activity during sustained membrane depolarization was investigated in primary afferent neurons recorded intracellularly in vitro in the rat. We show that gamma-aminobutyric acid (GABA) and baclofen reduce accommodation in some fast conducting dorsal root ganglion neurons. This effect was restricted to those A delta cells with axons displaying a rather fast conduction velocity (15-25 m/s). GABA-induced blockade of accommodation was not observed in large A beta neurons. Pharmacological studies with baclofen, as opposed to isoguvacine, indicate that this effect is due to GABAB receptors activation. The effect is also shown to be resistant to bicuculline antagonism. In slow conducting afferents, GABAB receptor activation is known to shorten the CA2+ component of action potentials. By contrast, no such component was observed in the A delta cells studied. Furthermore, Ca2+-activated K+ conductances are not implicated in the reduction of accommodation caused by GABAB receptor activation. In conjunction with the actual knowledge about the distribution of GABA receptors on primary afferents, our result indicates that GABAA and GABAB receptors coexist on all categories of A delta and C primary afferents in the rat.

Ionic conductances related to GABA action on secretory and biosynthetic activity of pars intermedia cells

We have examined the action of GABA on the electrical, secretory and synthetic activities of rat and porcine intermediate lobe (IL) cells in primary culture. Chloride and calcium currents were investigated using patch-clamp techniques. A chloride current activated by 1-100 microM isoguvacine, a specific GABA-A agonist, and antagonised by bicuculline and SR 95103 was recorded at the whole cell and single channel level current. Whole cell calcium currents were investigated and shown to be reduced by 40 microM cadmium, zero external calcium and 10 microM baclofen, a specific GABA-B receptor agonist. Both GABA-B receptor activation and use of calcium deficient medium inhibited peptide release from IL cells. Finally, pro-opiomelanocortin (POMC) mRNA levels were measured using a hybridization technique. Removal of calcium from the culture medium or long-term (48 hr) incubation with 10 microM GABA or muscimol (a mixed GABA-A and GABA-B agonist) significantly reduced POMC mRNA levels.

GABAA and GABAB receptors on porcine pars intermedia cells in primary culture: functional role in modulating peptide release

A primary culture of porcine pars intermedia cells with particularly high yields has been developed. The cells, grown in monolayers, secrete the pro-opiomelanocortin-derived peptide alpha-melanocyte-stimulating hormone over several weeks. The patch-clamp technique has been used to demonstrate the presence of gamma-aminobutyrateA (GABAA) receptors on the cells. GABA or the selective GABAA receptor agonist isoguvacine produced a depolarizing increase in chloride conductance that desensitized rapidly. The response was antagonized by bicuculline and by the aminopyridazine derivative of GABA (SR 95103), a novel GABAA receptor antagonist. The effects of specific agonists for each receptor were tested on peptide release from cells maintained in a perfusion system. Isoguvacine (10 microM) potentiated Ba2+-evoked release of alpha-melanocyte-stimulating hormone, whereas (-)-baclofen (50 microM) decreased both basal and stimulated hormone release. This negative effect on peptide secretion was reproduced when GABA (50 microM) was perfused in the presence of bicuculline (10 microM) to block GABAA receptor activation. The possible mechanisms underlying these GABAA and GABAB effects on stimulus-secretion coupling in this neuroendocrine model are discussed.

Synthesis and activity of 5-(aminomethylene)-1,3-cyclohexanediones: enolic analogues of gamma-aminobutyric acid

Eight 1,3-cyclohexanediones with an aminoalkyl side chain in the 5-position were synthesized as rigid enolic analogues of GABA (gamma-aminobutyric acid). Biochemical investigations about their abilities to displace [3H]GABA and [3H]baclofen [beta-(p-chlorophenyl)-gamma-aminobutyric acid] in binding studies or to inhibit the high-affinity sodium-dependent GABA uptake showed that these compounds were generally devoid of affinity for the two GABA receptors and for the GABA carrier. Only compound 1 exhibited a weak affinity in the GABA-A binding experiments (IC50 = 6.5 X 10(-5) M). Graphic computer modeling was applied in an attempt to explain this activity in comparison to some reference GABA agonists. Electrophysiological studies on dorsal root ganglia (DRG) also excluded agonistic or antagonistic properties on GABA-A or GABA-B receptor models but pointed out an atypical prolongation of Ca2+-dependent action potential for compound 1.

Properties of the GABA receptors located on spinal primary afferent neurones and hypophyseal neuroendocrine cells of the rat

Electrophysiological techniques have been used to study the pharmacological characteristics of GABA receptors in two in vitro preparations likely to provide the ionic basis for GABAergic inhibition of excitation-secretion coupling. The shortening of Ca2+ spikes duration by GABAB receptors was shown to occur in slow conducting dorsal root ganglion cells, independently of marked depression of inward calcium currents. Ion-selective electrodes (K+ or Ca2+) were used to show the presence of both GABAA and GABAB receptors on the neurosecretory terminals and gland cells from hypophyseal neuro-intermediate lobe (NIL). In this latter preparation, potentiation of hormone release was observed under GABAA receptor activation, whilst inhibition was seen with GABAB agonists.