Seasonal closures as a measure of trawling effort control in two Mediterranean trawling grounds: effects on epibenthic communities

Within the framework of ecosystem-based management, we focused on the use of seasonal closures as effective measures to minimise the degradation of benthic communities by trawling. These closures imply the complete cessation of trawling fleet activity and are commonly used in the Mediterranean to reduce the annual fishing effort, with the ultimate goal of effective resource management. In this study, we aimed to investigate how epibenthic communities respond to seasonal closures. The potential benefits of short-term annual closures in two Mediterranean fishing grounds were evaluated by analysing changes in community structure and composition that were linked to the closure. A decrease of faunal abundance was observed with the resumption of fishing activity after the closure at both fishing grounds. Remarkably, results indicated that some large and mobile fauna were able to respond to these closures. We concluded that the currently planned closures are too short to benefit benthic communities.

Regulation of intracellular chloride concentration in rat lactotrope cells and its relation to the membrane resting potential

Rat lactotrope cells in primary culture exhibit physiological properties closely associated with chloride ions (Cl-) homeostasis. In this work, we studied the regulation of intracellular Cl- concentrations ([Cl-]i) and its relation to the membrane resting potential, using a combination of electrophysiology and spectrofluorimetry. Variations in [Cl-]i resulting from the patch clamp technique, pHi, antagonists of Cl(-)-Ca(2+)-dependent channels, an anion exchanger antagonist, and an antagonist of K(+)-Cl- cotransport were considered with respect to their involvement in membrane potential. We show that: (i) The patch-pipette does not always impose its Cl- concentration. (ii) In rat lactotrope cells, membrane resting potential is partially determined by [Cl-]i. (iii) Besides ion channel activity, electroneutral ion transports (cotransports such as K(+)-Cl- and Na(+)-K(+)-2Cl-) participate actively in maintaining a high [Cl-]i. (iv) Finally, Cl- homeostasis is probably linked to cell energetics.

Interactions between intracellular chloride concentrations, intracellular pH and energetic status in rat lactotrope cells in primary culture

Rat lactotrope cells in primary cultures have a higher intracellular Cl- concentration ([Cl-]i) than that predicted by a passive distribution across the membrane. This suggests that active cellular mechanisms ensure this ionic equilibrium. In this study, we examined the interactions between pHi, [Cl-]i regulation and cell energetics. We analyzed: 1. the interactions between extracellular Cl- concentrations, [Cl-]i and cellular energy; 2. the influence of [Cl-]i on respiratory chain function; 3. the correlation with glycolysis and; 4. the role played by pHi in these cellular mechanisms. We show that low [Cl-]i decreases ATP cell content, ATP/ADP ratio and modify phosphorylative oxidations. ATP production is rather due to the anaerobic pathway of the glucose metabolism than the aerobic one and depends also on other metabolic substrates among which glutamine probably has a special role. Finally, pHi appears as a determinant in the balance between aerobic and anaerobic pathways. These results are discussed in relation to the role of Cl- in normal and pathological (effect of hypoxia on mature and immature neurons) cell situations.

Effects of ELF and static magnetic fields on calcium oscillations in islets of Langerhans

Several experimental studies have produced contradictory results on the effects of extremely low frequency (ELF) magnetic fields on cellular processes involving calcium ions. Furthermore, the few positive results have not been independently replicated. In most of these studies, isolated cells were used. Our study used mouse islets of Langerhans, in which very regular oscillations of calcium concentration can be observed at length. These oscillations are sustained by processes that imply energetic and inter-intracellular communication. Various magnetic fields were applied, either sinusoidal at different frequencies (50 Hz or multiples of the natural oscillation frequency) at 0.1 or 1 mT or static at 1 mT. Islets were also exposed to "cyclotron resonance" conditions. There was neither alteration of the fundamental oscillation frequency nor the degree of organisation under all exposure conditions. Using this sensitive model, we could not show new evidence of alterations of calcium processes under exposure to various magnetic fields.

Calcium store depletion induced by mitochondrial uncoupling in prostatic cells

The effects of mitochondrial uncoupling on the calcium homeostasis of prostatic cells were investigated using the prostatic cancer cell line LNCaP and indo-1 spectrofluorimetry. Carbonyl cyanide m-chloro-phenylhydrazone (CCCP) was used as uncoupler. Resting LNCaP cells responded to CCCP by a biphasic increase in [Ca2+]i. The first phase of increase which corresponded to the release of a mitochondrial CCCP-sensitive Ca2+ store was followed by a second increase phase consisting of Ca2+ influx through the plasma membrane. The relationship between the CCCP- and the InsP3-sensitive stores was investigated using thapsigargin (TG). The release part of the Ca2+ response to TG was reduced in a time-dependent manner by previous exposure of the cells to CCCP, suggesting that CCCP also acts on non-mitochondrial stores. Our results show that CCCP releases Ca2+ from both mitochondrial and non-mitochondrial stores in prostatic cells. The possible mechanisms of these effects are discussed.

Effects of Cl(-) substitution on electrophysiological properties, Ca(2+) influx and prolactin secretion of rat lactotropes in vitro

In this study, we compared the effects of different chloride (Cl(-)) substitutes - methane sulfonate (CH(3)SO(-)(3)), bromide (Br(-)), nitrate (NO(-)(3)), thiocyanate (SCN(-)) and perchlorate (ClO(-)(4)) - on the secretory activity and calcium current activation of rat lactotropes in primary culture. We observed that CH(3)SO(-)(3) decreased basal prolactin (PRL) secretion. Br(-) had no effect, whereas the more lyotropic anions, such as NO(-3), SCN(-) and C1O(-4), increased basal PRL secretion. The latter three substitutes induced a significant shift in the voltage dependence of T-type calcium channel activation towards hyperpolarized values. However, this shift alone cannot explain the increase in secretion. Anion permeability studies also demonstrated that the organic anion CH(3)SO(-3) was less permeant than Cl(-), whereas monovalent inorganic anions were more permeant, with the following anion permeability sequence: SCN(-) > ClO(-4) > NO(-3) > Br(-). In conclusion, deprivation of Cl(-) ions has converse consequences on basal and induced secretion; permeating anions result in a transient increase in intracellular Ca(2+) ions. This process involves voltage-dependent Ca(2+) channels. We propose that an alteration in intracellular anion concentrations may influence the activation of internal effectors such as G proteins or channel proteins and, therefore, interfere with exocytosis. These effects are correlated with an external action of lyotropic anions, particularly NO(-3), ClO(-4) and SCN(-), on the gating properties of T-type calcium channels, probably through changes in cell surface charges. The results demonstrate the modulatory effect of anions on the secretory activity of rat lactotropes and underline the specific role played by chloride in stimulus-secretion coupling.

Regulation of intracellular pH in rat lactotrophs: involvement of anionic exchangers

Regulation of the intracellular pH (pHi) of normal rat lactotrophs was studied. As this cell type, cultured with 10% FCS, can achieve a relatively alkaline pHi (7.3-7.5), we investigated the presence of a mechanism based on Cl-/HCO3- exchange. Using the pHi-sensitive probe SNARF-1 (seminaphtorodafluor) in its permeant form, SNARF-1/AM, we studied pHi recovery after acidic loading in individual cells with a microspectrofluorometric approach. We showed the involvement of anionic exchange in lactotroph cell pHi regulation. Acute CO2-bicarbonate cell acidic loading combined with external Cl- depletion induces the activation of a Cl-/HCO3- exchange. This exchange is 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid sensitive and corresponds to the type 3 anionic exchanger (AE3). However, after nigericin acidification, Na+/H+ exchange can also participate in recovery. In addition, incubation experiments strongly suggest that a 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid-insensitive anionic exchanger (type 2 anionic exchanger or AE2) is present in rat lactotrophs. The presence and involvement of carbonic anhydrase in pHi regulation have been demonstrated. Finally, using Northern blot and reverse transcription-PCR techniques, messenger RNAs for both AE2 and AE3 were identified in anterior pituitary cell extracts. We concluded that in normal rat lactotrophs, pHi regulation is achieved by a complex system in which Cl-/HCO3- exchange has a pivotal role.

An mRNA encoding a putative GABA-gated chloride channel is expressed in the human cardiac conduction system

GABA-gated chloride channels are the main inhibitory neurotransmitter receptors in the CNS. Conserved domains among members of previously described GABAA receptor subunits were used to design degenerate sense and antisense oligonucleotides. A PCR product from this amplification was used to isolate a full-length cDNA. The predicted protein has many of the features shared by other members of the ligand-gated ion channel family. This channel subunit has significant amino acid identity (25-40%) with members of GABAA and GABAC receptor subunits and thus may represent a new subfamily of the GABA receptor channel. Although we cannot rule out that this clone encodes a receptor for an unidentified ligand, it was termed GABA chi. This gene is mainly expressed in placenta and in heart; however, placenta appears to express only an unspliced mRNA. In situ hybridization reveals that the GABA chi subunit mRNA is present in the electrical conduction system of the human heart. Our results suggest that novel GABA receptors expressed outside of the CNS may regulate cardiac function.

Modulation of voltage-dependent Ca2+ conductance by changing Cl- concentration in rat lactotrophs

In pituitary cells, voltage-dependent Ca2+ channels play an important role in such physiological processes as exocytosis, secretion, the cell cycle, and proliferation. Thus mechanisms that modulate voltage-dependent Ca2+ channel activity participate indirectly in regulating intracellular Ca2+ concentration. We have shown a new modulating mechanism for voltage-dependent Ca2+ channels by demonstrating that Ca2+ influx is influenced by Cl-. To evaluate the role of Cl- on Ca2+ conductance coupling, we first measured the intracellular Cl- concentration of rat lactotrophs using the Cl(-)-sensitive fluorescence probe sulfopropylquinolinium by simple microspectrofluorometry or combined with electrophysiology. We found an average intracellular Cl- concentration of rat lactotrophs of approximately 60 mM (n = 39). Using the whole cell tight-seal recording technique, we showed that a reduction in external Cl- concentration ([Cl-]o) and a decrease in Cl- conductances affected Ca2+ conductance as measured by Ba2+ movement through the Ca2+ channels (I(Ba)). Low [Cl-]o (39 mM) induced a decrease in Ca2+ entry via voltage-gated Ca2+ channels (-27.75 +/- 4% of normalized I(Ba)). Similarly, blockade of the Cl- conductance by 1 mM 9-anthracene carboxylic acid induced a decrease in I(Ba) (-26 +/- 6% of normalized I(Ba)). This modulation of I(Ba) was inhibited by 24-h pretreatment of the cells with pertussis toxin (1 microg/ml), suggesting that changes in Cl- concentration induced by low [Cl-]o and 9-anthracene carboxylic acid interfered with the phosphorylation of G proteins involved in Ca2+ channel activation. These results suggest a feedback mechanism based on constant interaction between Ca2+ and Cl-. Finally, they also emphasize the physiological role of Cl- in rat lactotrophs.

Regulation of intracellular chloride concentration in rat lactotrophs: possible role of mitochondria

Increasing evidence is accumulating for the involvement of chloride ions in the stimulus-secretion coupling of pituitary cells. We show that the mean intracellular chloride concentration [Cl-]i of rat lactotroph cells maintained in culture is high, close to 60 mM (59.4 mM), using the Cl- sensitive fluorescent probe 6-methoxy-N-(3-sulfopropyl) quinolinium (SPQ), coupled with whole-cell patch-clamp recordings. We demonstrate that this high level is correlated with the presence of mitochondrial stores of Cl- as shown by the release of Cl- in response to various metabolic inhibitors. We determine that CCP (50 microM) induces a mean [Cl-]i increase of 15.8+/-5.8 mM, using combined electrophysiology and microspectrofluorimetry methods. These data strongly suggest that cell metabolism, including the mitochondrial function, modulate [Cl-]i.

Recording of a large-conductance chloride channel in normal rat lactotrophs

Membrane current fluctuations resembling channel openings and closings were observed in the whole cell configuration of the patch-clamp technique in normal rat lactotrophs in primary culture. Using high-gain head stage in whole cell configuration, we characterized the nature and pharmacological properties of the ionic channel underlying these fluctuations. This channel, found in small numbers (< 10 per cell), was specific for Cl- because its reversal potential varied with Cl- gradients, according to the Nernst equation, and its unitary amplitude was linearly related to membrane potential from -100 to 0 mV. Slope conductance was close to 100 pS. Analyzing open times, we demonstrated its Ca2+ and potential dependence. Four sublevels were observed. We suggest that this channel, belonging to the background Cl- channel group, takes part in the regulation of intracellular Cl- concentration of normal rat lactotrophs.

Long-term effects of calcium availability on prolactin and protein synthesis in human decidual cells

Ever since decidual cells were recognized as the source of decidual prolactin (dPRL), very few reports have dealt with the role of calcium (Ca2+) on dPRL synthesis and release. In a recent work, we described the presence of T-type Ca2+ channels in these cells, giving Ca(2+)-dependent action potentials. However, we failed to demonstrate any action of decidual cell Ca2+ modulation on acute dPRL release, but observed only long-term effects. We have now investigated these effects on decidual protein and dPRL synthesis after 24 h treatments. When Ca2+ channel blockers or EGTA (2 mM) were added to the culture medium, dPRL release and [3H] leucine incorporation into proteins decreased. Increasing external Ca2+ up to 2 mM instead of 0.8 mM or changing the external K+ concentration (30 mM instead of 5.6) had no consequence on dPRL release, whereas 2 mM of Ca2+ enhanced total protein synthesis. No toxicity was noted with these treatments. Finally a possible effect of Ca2+ modulation on dPRL synthesis was studied using [35S] methionine. The specific activity of [35S] methionine on dPRL was similar in control and treated cells (EGTA, 2 mM Ca2+, cobalt). These results support the idea that Ca2+ controls dPRL synthesis in decidual cells, acting only on general protein synthesis processes.

Gonadotropin-releasing hormone-induced changes of intracellular pH in pituitary gonadotrophs: influence of estradiol

Using the pH indicator, seminaphtorhodafluor, we studied the effects of GnRH on intracellular pH (pHi) in single gonadotroph cells, obtained from 3-week ovariectomized rats, treated or not with estradiol (E2) (OVX + E2, OVX). In a majority of cells (77.7% for OVX cells and 93.7% for OVX + E2 cells), GnRH induced acidification. A biphasic change of pHi, acidification followed by alkalinization, was observed in about 44% of the cells tested. In E2-treated cells, amplitude of acidification and duration of alkalinization were increased. Acidification and Ca2+ mobilization were related in time with a short delay (4-5 sec.). Depolarization with KCl and ionomycin, a Ca2+ ionophore, induced acidification. Taken together these observations suggest that acidification was caused by [Ca2+]i increase. When the Na+/H+ exchanger was blocked by amiloride or in Na(+)-free medium, GnRH-induced alkalinization was inhibited. Alkalinization disappeared completely when the cells were depleted in protein kinase C (PKC). Nevertheless, acute application of phorbol myristate acetate, known to activate PKC, was not sufficient to induce alkalinization. We conclude that PKC is necessary but not sufficient for alkalinization. In contrast, the GnRH response can be mimicked by a simultaneous application of phorbol myristate acetate and KCl. To further explore the putative role of pHi in the secretory process, LH release was studied. Using Na(+)-free medium or amiloride, we show that basal LH was not dependent upon the Na+/H+ exchanger activity. Conversely, GnRH-induced LH release was significantly decreased; this decrease was greater in E2-treated cells but prevented by bicarbonate. These data show that pHi and the Na+/H+ exchanger play an important role in the stimulus secretion coupling process of gonadotrophs. E2, which is an important factor in the regulation of gonadotropic hormone release, participates also in the pHi variations.

Biphasic changes in intracellular pH induced by thyrotropin-releasing hormone in pituitary cells

We studied the effects of TRH on intracellular pH (pHi) in individual cells of the GH3 pituitary clonal cell line using the seminaphtorhodafluor pH indicator. We show that, in a majority of cells, TRH action on pHi occurs in two phases: first acidification then alkalinization. Acidification and Ca2+ mobilization are related in time. K+ depolarization (KCl, 50 mM), and Ca2+ ionophores, A23187 (10 microM) or ionomycin (5 microM) lead to acidification. We conclude that a marked increase in [Ca2+]i can induce acidification and that the TRH-induced acidification is due to Ca2+ mobilization. TRH-induced alkalinization is due to Na+/H+ exchanger activation, since it is inhibited by amiloride (200 microM) and Na(+)-free medium. We show that this alkalinization does not occur after a 20-h pretreatment with phorbol myristate acetate (1 microM) which depletes protein kinase C. We also show that blocking Ca2+ entry does not affect the TRH-induced alkalinization, but an increase in [Ca2+]i concomitant with the activation of protein kinase C mimics TRH-induced alkalinization. We conclude that both Ca2+ mobilization and protein kinase C activation are necessary for TRH-induced alkalinization. Studies of secretion in Na(+)-free medium or with amiloride (200 microM) show that pHi does not seem to be involved in PRL short-term release (30 min) but suggest that activation of the Na+/H+ exchanger leading to cytoplasmic alkalinization may have an important role in PRL synthesis.

Calcium homeostasis in growth hormone (GH)-secreting adenoma cells: effect of GH-releasing factor

Human GH-secreting tumors are heterogenous regarding their basal secretory activity and response to GH-releasing factor (GRF). We have investigated whether such different secretory properties could be accounted for by alterations of intracellular mechanisms occurring at the calcium level. Basal free intracellular calcium concentrations ([Ca2+]i) and Ca2+ responses to GRF were studied in single cells cultured from fragments of five GH-secreting pituitary adenomas. We used the microspectrofluorimetric method and indo-1 as the fluorescent probe. The cell populations cultured from the tumors of patients A and C showed increased hormone secretion in response to GRF in vitro, whereas cultures from patients B, D, and E were unresponsive to the peptide. Basal [Ca2+]i measured in the five cell populations ranged from 82 +/- 18 to 118 +/- 27 nM. A 10-sec application of 10 nM GRF induced an increase in [Ca2+]i in 60% and 54% of A and C cells, respectively. In the nonresponsive cell populations, the number of calcium responses to GRF was lower, 26% (B cells), 5% (D cells), and 10% (E cells). Two principal responses types were observed: 1) an initial increase in [Ca2+]i, followed by a sustained plateau phase lasting for more than 200 sec; and 2) a monophasic peak of increased [Ca2+]i lasting approximately 1 min before returning to baseline levels. GRF responses were totally suppressed in the absence of Ca2+ ions in the external medium. Sixteen to 30% of the cells cultured from four of the five tumors showed spontaneous fluctuations of [Ca2+]i. These spontaneous Ca2+ transients were suppressed in Ca(2+)-free medium. The number of cells exhibiting such Ca2+ transients decreased with time in culture. Basal hormone secretion was higher in cultures from patient D, in which no spontaneous Ca2+ transients were observed in any of the 72 studied cells, and in cultures from patients E, in which only 16% of cells were spontaneously active. We conclude that 1) in human responsive somatotrophs, the involvement of Ca2+ in GRF stimulus-secretion coupling mechanisms is apparently similar to that described in somatotrophs of other species; 2) the lack of a secretory response to GRF observed in some tumors may result from impairment of Ca2+ responsiveness in either cell recruitment or response amplitude and/or duration; and 3) spontaneous rhythmic Ca2+ activity is apparently dissociated from basal hormone secretion in some of these tumor cells.

Voltage-dependent calcium current in human decidual cells and its relation to prolactin secretion

Human decidual cells synthesize and release decidual PRL (dPRL) immunologically and biochemically identical to human pituitary PRL. However, stimulators and inhibitors of PRL secretion such as TRH, bromocriptine or dopamine have no effect on dPRL release. The evidence for the involvement of Ca2+ in dPRL release is based on contradictory or unclear data. Since little is known about Ca2+ movement in human decidual cells we studied the membrane Ca2+ conductance of cultured decidual cells using the patch-clamp technique in the whole-cell configuration. We report the existence of Ca(2+)-dependent action potentials triggered by hyperpolarizing or depolarizing pulses and blocked by cobalt (Co2+; 5 mM). Spontaneous action potentials were observed in the cell-attached mode and found also to be Co(2+)-sensitive. A tetrodotoxin-insensitive and Ca(2+)-dependent rapidly inactivating inward current was investigated in voltage clamp. Its activation threshold was between -60 and -45 mV. Indo-1 measurements of free intracellular Ca2+ concentrations ([Ca2+]i, 169 +/- 14 nM and 141 +/- 8 nM in short-term culture vs. 149 +/- 5 nM in cells cultured for 3-6 days) showed that decidual cells have spontaneous transient fluctuations of [Ca2+]i and that [Ca2+]i was decreased by Ca2+ channel blockers. The existence of Ca2+ movements in decidual cells in culture is thus demonstrated. The occurrence of action potentials in decidual cells derived from fibroblasts, reputed to be inexitable cells, is an interesting biological observation. However, Ca2+ is not involved in the short-term release of PRL by decidual cells, and its effects on long-term secretion still requires further investigation.

Calcium-activated chloride conductance of lactotrophs: comparison of activation in normal and tumoral cells during thyrotropin-releasing-hormone stimulation

We studied a chloride (Cl-) conductance activated by calcium (Ca2+) in normal rat lactotrophs and compared its activation during TRH stimulation in normal rat lactotrophs and in GH3 tumoral lactosomatotrophs cells, using the whole-cell configuration of the patch-clamp technique. The Cl- specificity of the conductance was assessed by manipulation of internal and external Cl- concentrations. The reversal potentials were in agreement with those predicted by the Nernst equation. Ca2+ ionophore A23187 and membrane depolarizations activated the Cl- conductance. However, a feedback effect of Cl- gradient modifications on Ca2+ movements was also observed in normal lactotrophs. In the latter, TRH (100 nM) mobilization of intracellular Ca2+ activated this Cl- conductance together with the potassium (K+) conductance when both ions were present in the intracellular medium (IM) or alone when K+ was absent. Chloride conductance was not activated in the GH3 cells, where mobilization of intracellular Ca2+ by TRH (100 nM) activated only Ca2(+)-dependent K+ conductance. It seems likely that the activation of Cl- conductance in these two different cell types involves different mechanisms.

Growth hormone-releasing factor stimulates calcium entry in the GH3 pituitary cell line

The GH3 pituitary cell line has been extensively used to study various aspects of the stimulus secretion coupling process. It is known that GH3 cells release PRL and GH in the basal state and in response to various secretagogues. However, this cell line was considered unsuitable as a model for studying the effects of GHRF since the neuropeptide did not affect GH secretion or gene expression. This suggested that the GH3 cells may lack GHRF receptors. The present study investigates the effect of GHRF on free intracellular Ca2+ concentrations in GH3 cells. Cytosolic free calcium concentrations ([Ca2+]i) were monitored in individual cells by microspectrofluorimetry using the fluorescent dye indo 1. When the cells were challenged with a brief application of GHRF (100 nM; 15 sec), 36 out of 59 of these cells responded within a few seconds by a marked increase in [Ca2+]i. GHRF enhanced the frequency of [Ca2+]i oscillations in spontaneously active cells or triggered [Ca2+]i oscillations in inactive cells. The response to GHRF was totally blocked by external Ca2+ free solutions and Ca2+ channel blockers. Combined electrophysiological and fluorescent experiments were carried out in 16 cells. Eleven responded to GHRF. In all cases, the Ca2+ transients triggered by GHRF were associated with action potentials. The Ca2+ responses observed in our experiments clearly show that GH3 cells possess membrane receptors to GHRF. Thus, it is likely that the lack of secretory response observed in GH3 cells does not result from the absence of binding sites to the peptide. It is more likely to be related to alterations of transduction mechanisms resulting in uncoupling between stimulation and secretion.

Intracellular pH in individual pituitary cells: measurement with a dual emission pH indicator

Intracellular pH (pHi) can now be measured at the single cell level using dual emission wavelength microspectrofluorimetry with the fluorescent pH indicator SNARF 1 and its membrane permeant acetoxymethyl ester (SNARF 1/AM). We measured pHi of individual pituitary cells under both basal and stimulated conditions. The emitted fluorescence of SNARF 1 probe was calibrated following experimental manipulations of pHi in two types of rat pituitary cells. The calibration curves obtained in the two cell types were identical. We observed a Gaussian distribution of individual pHi with a wide dispersion (6.95 to 8) in the two cell populations. TRH (10(-7) M) and ionomycin (5 microM) induced a transient acidification followed by a sustained alkalinization, whereas K+ (50 mM) depolarization only exerted a transient acidification. These results show that the dual emission pH indicator SNARF 1 can be used to reliably investigate changes in pHi in individual endocrine cells.

Electrophysiological response to thyrotropin-releasing hormone of rat lactotrophs in primary culture

The response of rat pituitary cells to thyrotropin-releasing hormone (TRH) in primary culture was studied in the whole-cell configuration with the patch-clamp technique. Prolactin (PRL)-containing cells were identified in the culture with a peroxidase-antiperoxidase immunocytochemical method. The cells were cultured from the pituitaries of diestrous (D) and lactating (L) female rats. Membrane electrophysiological properties (resting potential and input resistance) of pituitary cells in primary culture varied widely. Under the recording conditions reported here, the mean resting potential of lactotrophs was about -30 mV. There were spontaneous fluctuations in membrane resting potential (10-15 mV) as well as of membrane input resistance, making these parameters difficult to evaluate accurately. Most of the cells exhibited spontaneous firing activity that was shown to be mainly calcium-dependent. There was no difference between L and D cells in resting membrane electrophysiological properties. TRH (10(-7) M) induced a transient hyperpolarization of the membrane similar to that previously described in the GH3 clonal pituitary cell line. Voltage-clamp studies showed that this hyperpolarization resulted from activation of an outward current, the reversal potential of which ranged from -48 to -86.5 mV. Experimental manipulations of the ionic composition of internal and external recording media suggested that both K+ and Cl- were involved. This hyperpolarizing response was observed both in D and L cells, although L cells had larger and faster responses than D cells. This observation may be of physiological significance because lactotrophs have been reported to exist in various subtypes.

Tamoxifen reduces calcium currents in a clonal pituitary cell line

The effect of the anti-estrogen Tamoxifen (Tx) on membrane electrical properties and the underlying calcium (Ca2+) conductances was examined in the clonal pituitary cell line GH3/B6 which exhibits calcium action potentials at rest. Electrophysiological recordings (109 cells) were made using either high resistance intracellular microelectrodes or the whole-cell recording (WCR) patch-clamp technique. Electrical activities of 39 spontaneously active GH3/B6 cells were recorded with sharp microelectrodes filled with 3 M KCl. The spikes were Ca2+-dependent since they were blocked by Cobalt ions (Co2+, 5 mM). When applied directly to the recorded cell, Tx (10(-7) M) inhibited action potential firing. This blockade was accompanied by a discrete hyperpolarization of the membrane potential (-2.8 +/- 2 m V) from rest (-39.5 +/- 5 m V) and a 10% increase in the input membrane resistance. The effect stopped soon after Tx removal (mean 11.4 +/- 6 sec), and Tx solvent was unable to elicit the response. Current clamp WCR with pipettes containing potassium gluconate (KGlu, 140 mM) confirmed these results (30 cells), but the addition of cell extract to KGlu was necessary to prevent rundown of the response and to obtain reproducible action potential blockade. Short (1-5 min) or long term (48 h) pretreatment with estradiol (10(-7) to 10(-5) M) did not change the response to Tx, thus indicating that its effect was not mediated through estrogen receptors. Voltage clamp WCR study of the effect of Tx (10(-7) M) using pipettes filled with cesium chloride (140 mM) showed that both fast and slow inactivating calcium conductances were inhibited (38 cells). The fast inactivating Ca2+ current was reduced by about 60-80% whereas slow inactivating Ca2+ current was completely inhibited. This action may represent one way by which the antitumoral effect of this antiestrogen is mediated.

Estrogen receptor development in the absence of growth hormone and prolactin: studies in dwarf mice

The concentration of high-affinity estradiol binding sites in the uteri and pituitaries of normal and two dwarf strains of mice was studied. The two dwarf strains are characterized by their total absence of growth hormone or prolactin synthesis and low or absent TSH production. The uteri of the dwarf mice are small but the receptor concentration per unit of DNA was similar to the normals. Nuclear and cytoplasmic distribution studies and saturation analysis detected no differences in receptor characteristics between dwarf and normal mice. These results demonstrate that prolactin, growth hormone and TSH do not control the developmental increase in uterine estrogen receptor that normally occurs in the young mouse. The concentration of estrogen receptor per unit of DNA in the pituitaries of the dwarfs was only 20-30% of normal animals of the same strain. This suggests that estrogen receptor in the mouse pituitary is associated to a great extent with lactotrophs and/or somatotrophs which are absent in the dwarfs.

Local effect of the blastocyst on estrogen and progesterone receptors in the rat endometrium

Nuclear receptors for both estradiol and progesterone were present in twofold higher concentrations in implantation sites than in nonimplantation regions of the endometrium of 6-day pregnant rats. Decidualization in the absence of an embryo was not accompanied by a similar increase in the concentration of nuclear receptors. Moreover, this difference in receptor distribution between the implantation and nonimplantation areas persisted when a major part of the maternal supply of sex steroids was suppressed by ovariectomy on day 5 of pregnancy. These results support the hypothesis that steroids originating from the embryo affect the endometrial implantation site.

[The first stages of ovum implantation in rats castrated before noon on the 5th day of gestation]

Ovariectomy performed on the 5th day of gestation before noon does not stop the first stages of ovoimplantation in the Rat. On the morning of the 6th day the reactivity to trypan blue is increased. Most of the blastocysts are well fixed in their implantation chamber. The closure of the uterine lumen is effective and the decidual reaction has developed around the blastocyst implantation chamber. These results are discussed and compared to morphological and physiological data. The hypotheses concerning the active role probably played by the blastocyst are also discussed.

Exogenous hormone uptake and retention in the rat uterus at the time of ovo-implantation

The uterine uptake of tritiated hormones, oestradiol and progesterone, was studied at the time of ovum implantation in the rat. Macromolecular dyes such as trypan blue were used to distinguish implanted sites from the unimplanted ones. A differential uptake was found between the implanted and unimplanted sites in normal 6th day pregnant females. Oestradiol was retained more at the unimplanted sites, whereas its half-life was approximately the same at the two levels. On the other hand progesterone was found in greater amounts in the implanted sites due to a difference in half-life for each site (30 min for unimplanted sites, 40 min for implanted ones during the first 30 min following injection). When endogenous oestradiol retention was suppressed by ovariectomy, higher uptake of [3H] oestradiol in unimplanted sites was not found. These results suggest a heterogeneity in the binding sites of oestradiol in the pregnant uterus.

[Action of distension upon uterine growth (author's transl)]

The uterine horn growth has been studied in castrated female rats under the influence of distension. One of the two horns was used as a control horn, to insure us that no endogenous hormone was responsible for the uterine growth. Morphological studies, as well at low as at high resolution, demonstrated the ability of distension to initiate an epithelial growth. The use of 3H thymidine, or H3 uridine also provided some evidence for RNA synthesis 30 mm after distension initiation, and DNA synthesis 24 to 48 hours after distension onset. In these cases all the uterine tissues were concerned.

[Does estradiol act in a unique way during progestation in the female rat? I. Uptake and retention of estradiol 17beta in the uterus of castrated rats under the influence of uterine distension]

In castrated female rats, uterine distension resulted in an increased uptake of tritiated oestradiol within the period studied (from 10 minutes to 24 hours after distension), whereas progesterone 14C incorporation was not increased. Using cold hormones (progesterone or oestradiol) before injection of radioactive ones, wer were able to demonstrate the specificity of this uptake 3.5 hours or 24 hours after initiation of distension. These results suggested that the oestradiol receptor may be synthetized without direct hormonal action. They are discussed with regard to oestradiol action, particularly during progestati-n and at the time of ovum implantation.