Release of glutamate and gamma-aminobutyric acid in the ovine fetal hippocampus: ontogeny and effect of hypoxia.

The effects of increased potassium ion concentration (50 mM) and hypoxia on the efflux of glutamate and gamma-aminobutyric acid (GABA) were studied in ovine fetal hippocampal slices using the static-pool-interface superfusion method at three selected gestational ages (85 days, 105 days, 135 days; term, about 147 days). There was no difference in spontaneous efflux of either amino acid across the three gestational ages. Potassium ion stimulated the efflux of glutamate in the hippocampus of the 85-days-old fetus only, and this efflux of glutamate was not calcium-ion dependent. Potassium ion stimulated the efflux of GABA in the ovine fetal hippocampus at days 85 and 105 only; this efflux was calcium-ion dependent. A ten-minute period of hypoxia did not enhance the efflux of either glutamate or GABA. The data indicate that both glutamate and GABA are present in the ovine fetal hippocampus, and can be released by depolarizing concentrations of potassium ion in the immature fetus. The lack of potassium ion-evoked efflux of glutamate and GABA in the mature fetal hippocampus may reflect a toxic response to this stimulus. The lack of calcium ion regulation of glutamate efflux compared with GABA efflux indicates either a difference in maturation of glutamatergic synaptic mechanisms compared with GABAergic mechanisms, or is indicative of glial release of glutamate. Prolonged, severe hypoxia (greater than 10 min) may be required to evoke efflux of glutamate in the developing fetal hippocampus.     

Simultaneous measurement of glutamate and dopamine release from isolated guinea pig cochlea

Glutamate is proved to be a neurotransmitter in the mammalian cochlea, transmitting signals between the inner hair cells and the afferent cochlear nerve terminals. The transmission in this synapse is modulated by the lateral olivocochlear efferent fibers by releasing dopamine and other neurotransmitters. This study undertakes to measure simultaneously the release of dopamine and glutamate from isolated guinea pig cochleae. We combined the in vitro microvolume superfusion method, that uses liquid scintillation analysis, to measure [3H]dopamine with high pressure liquid chromatography (HPLC) to determine the glutamate content of the superfusate at rest and during stimulation. The release of both neurotransmitters was significantly increased when electrical field stimulation was applied at a 10 Hz rate. The nonselective sodium-channel inhibitor tetrodotoxin (TTX) at 1 microM completely blocked the effect of stimulation, indicating the neural origin of both dopamine and glutamate. The dopamine receptor antagonist sulpiride at 100 microM and the dopamine receptor agonist bromocriptine at 20 microM did not change the release of glutamate. In contrast, both bromocriptine and sulpiride significantly increased the stimulation-evoked release of dopamine. The effect of sulpiride is most likely due to the blockade of dopamine autoreceptor. Possible explanations why bromocriptine increased the release include: (1) its partional agonist activity; (2) desensitizations of dopamine autoreceptors; or (3) the higher D1 receptor activity of bromocriptine than sulpiride. This study could provide further insights about the role of dopamine and glutamate in cochlear neurotransmission.     

Ontogeny of mitochondrial steroidogenesis in the guinea pig gonad

To determine whether steroidogenesis in the developing guinea pig may be limited by the formation of pregnenolone, cholesterol side chain cleavage activity was ascertained at various stages of development. The conversion of [1,2-³H]cholesterol to [1,2-³H]pregnenolone was detected in mitochondria isolated from fetal guinea pig ovaries and testes as early as day 35 of gestation, while no metabolism was noted in day 30 animals. Moreover, no [l,2-³H]progesterone was formed during the 60 minute incubation. From day 35 of gestation to the day of birth, the percentage of pregnenolone formed per testis (total activity) increased, while total activity in the ovary declined. In contrast, gonadal mitochondria from adult guinea pigs converted cholesterol to both pregnenolone and progesterone and total activity in these animals was substantially higher than in their fetal counterparts. In the three females examined, the rate of pregnenolone and progesterone synthesis varied according to the stage of the estrous cycle during which these animals were sacrificed. Conversion of pregnenolone to progesterone was most rapid in the early luteal phase animal, while conversion of cholesterol to pregnenolone occurred more rapidly in the periovulatory animals than in ovarian mitochondria from the late luteal phase of the cycle. The results indicate that during prenatal and postnatal development of the gonad, cholesterol side chain cleavage activity changes and that mitochondria may acquire a Δ⁵-3β-hydroxysteroid dehydrogenase.     

Ontogeny of androgen receptors in fetal guinea pig brain

Sexual differentiation of the guinea pig brain is androgen dependent. To understand the cellular mechanisms of androgen action, we studied the ontogeny of cytosolic (ARc) and nuclear (ARn) androgen receptors in the brains and anterior pituitaries of fetal, neonatal, and adult guinea pigs. Using cytosol from the hypothalamus-preoptic area-amygdala-septum of 60- to 65-day fetuses and nuclear preparations from 6-day-old neonates treated with testosterone propionate, validation studies revealed an AR with an apparent Kd of 1.9 +/- 1.1 (mean +/- SEM, n = 3) x 10(-10) M (ARc) and 3.4 +/- 3.2 (n = 3) x 10(-10) M (ARn). The cytosolic receptors were highly specific for androgens. After assay validation, AR content was determined from specific brain regions of fetuses obtained on Days 30, 40, 50, and 59 of gestation and on Days 6 and 120 postpartum. ARc differed significantly (p less than 0.05) between brain regions and times of gestation, but no sex differences were apparent. In contrast, ARn showed little difference between tissues or with gestational age, but there were significant differences between males and females, especially in late gestation and early postnatal life, with males having greater ARn binding (p less than 0.05). These data demonstrate the presence of ARc and ARn in the fetal brain and pituitary gland during the critical period of sexual differentiation (Days 30-37 of gestation), thus establishing the identity of cellular structures involved in androgen action.     

Measurement of arachidonic acid release from permeabilised myometrial cells of guinea pig uterus.

A technique has been developed for prelabelling and permeabilisation of guinea pig uterine myocytes to enable measurement of arachidonic acid release/phospholipase A2 activity in cells with intact membranes. Intact cells were prelabelled with [3H]inositol or [3H]arachidonic acid for measurement of phospholipase C and A2 respectively. In intact cells 10 nM endothelin-1 or 1 microM bradykinin stimulated both inositol polyphosphate and arachidonic acid release, whilst 1 microM oxytocin, arginine vasopressin or histamine were without effect. In Streptolysin-O permeabilised myometrial cells calcium-stimulation of inositol polyphosphate and arachidonic acid release was detected between 10 microM and 1 mM free calcium. The patterns of inositol polyphosphate and arachidonic acid release were broadly similar. Responses to 1 mM calcium were not detected in intact cells not treated with Streptolysin-O. For arachidonic acid release the K0.5 for calcium activation was about 7 microM, a level above that normally likely to be found in the uterine myocyte. Hence it is concluded that unless there are high local concentrations of calcium close to the plasma membrane, calcium is unlikely alone to be the primary regulator of arachidonic acid release and phospholipase A2.     

The differences in 12-hydroxyeicosatetraenoic acid and thromboxane B2 release from guinea pig platelets.

Anti-12(S)-hydroxyeicosatetraenoic acid (12-HETE)-antibody and anti-thromboxane B2 (TXB2)-antibody were generated and applied to the radioimmunoassay. The detection limit for 12-HETE was 16 pg. The cross-reactivities of anti-12-HETE-antibody were 4.6% for 15-HETE, 0.18% for 5-HETE and below 0.15% for leukotrienes and prostaglandins (PGs). 12-HETE and TXB2 released from guinea pig platelets were measured by radioimmunoassay. Platelet activating factor (PAF) at 10(-9) M induced the aggregation of platelets, the releases of immunoreactive-12-HETE (1.8 +/- 1.2 ng/10(8) platelets, mean +/- S.D.) and immunoreactive-TXB2 (18.5 +/- 17.3 ng/10(8) platelets). Collagen at 1 microgram/ml also evoked platelet aggregation, the releases of immunoreactive-12-HETE (2.7 +/- 1.1 ng/10(8) platelets) and immunoreactive-TXB2 (11.8 +/- 4.6 ng/10(8) platelets). By the stimulation with these compounds, TXB2 was produced in a greater amount than 12-HETE from guinea pig platelets. Although 10(-7) M and 10(-6) M U46619, a TXA2 mimetic, caused platelet aggregation, arachidonic acid metabolites were not released. These data suggest the presence of different mechanisms of platelet activation depending on each stimulus.     

Ontogeny of microsomal activities of triacylglycerol synthesis in guinea pig liver

Because the onset of triacylglycerol-rich lipoprotein synthesis occurs in guinea pig liver during fetal life, we investigated the microsomal enzyme activities of triacylglycerol synthesis in fetal and postnatal guinea pig liver. Hepatic monoacylglycerol acyltransferase specific and total microsomal activities peaked by the 50th day of gestation and declined rapidly after birth to levels that were virtually unmeasurable in the adult. Peak fetal specific activity was more than 75-fold higher than observed in the adult. The specific activities of fatty acid CoA ligase and lysophosphatidic acid acyltransferase increased 2- to 3-fold before birth; lysophosphatidic acid acyltransferase increased a further 2.6-fold during the first week of life. Specific activities of phosphatidic acid phosphatase, microsomal glycerophosphate acyltransferase, and diacylglycerol acyltransferase varied minimally over the time course investigated. These data demonstrate that selective changes occur in guinea pig hepatic microsomal activities of triacylglycerol synthesis before birth. Because of an approximate 11-fold increase in hepatic microsomal protein between birth and the adult, however, major increases in total microsomal activity of all the triacylglycerol synthetic activities occurred after birth. The pattern of monoacylglycerol acyltransferase specific and total microsomal activities differs from that of the rat in occurring primarily during the last third of gestation instead of during the suckling period. This pattern provides evidence that hepatic monoacylglycerol acyltransferase activity probably does not function to acylate 2-monoacylglycerols derived from partial hydrolysis of diet-derived triacylglycerol.     

Capsaicin-induced bronchoconstriction and neuropeptide release in guinea pig perfused lungs.

In the guinea pig isolated perfused lung, we have examined the relationship between the effects of capsaicin and neuropeptide release and the possible existence of an axon reflex arrangement. Bolus injections into the pulmonary artery of capsaicin (1-100 pmol), substance P (10-1,000 pmol), and neurokinin (NK) A (10-100 pmol) produced a concentration-dependent bronchoconstriction, whereas calcitonin gene-related peptide (CGRP, 20-40 nmol) was without effect. Repeated administration of capsaicin at 40- to 60-min intervals was not associated with tachyphylaxis. These data support the presence of a NK2- (or NKA) type of tachykinin receptor in the guinea pig airways. Tetrodotoxin (0.3-3 microM) inhibited the effect of capsaicin, indicating that an axon reflex was operant. Capsaicin increased overflow of CGRP-like immunoreactivity (-LI) and NKA-LI, the latter only during concurrent infusion of the enkephalinase inhibitor phosphoramidon (3 microM). Phosphoramidon also increased overflow of CGRP-LI, suggesting that both NKA and CGRP were catabolized by a similar enzyme. The purine nucleoside adenosine did not cause any detectable overflow of CGRP-LI, indicating that neuropeptides may not be involved in adenosine-evoked bronchoconstriction and that bronchoconstriction per se does not induce neuropeptide overflow. Capsaicin and NKA had only minor effects on buffer flow, whereas substance P produced pulmonary vasoconstriction. These data clearly demonstrate that capsaicin acts via an axon reflex in the guinea pig airways. Supramaximal concentrations of capsaicin are needed to detect neuropeptide overflow, but the possibility exists that released neuropeptides mediate its effects.     

Foetal glutamate as a possible precursor of placental glutamine in the guinea pig.

The role of foetal glutamate as a source of placental glutamine was investigated in the near-term pregnant guinea-pig placenta perfused in situ through the umbilical vessels. With normal foetal amino acid concentrations there was a significant two-way exchange of glutamate between the placenta and foetal perfusate, but a net release of the amino acid from the placenta. Radioactively labelled glutamate carbon entering the placenta by this exchange was freely incorporated into intracellular glutamine, but only 1.5% of it was found in glutamine transported out into the foetal circulation. In the guinea pig, therefore, foetal glutamate does not appear to be a precursor of glutamine released from the placenta on the foetal side.     

Calcium dependent release of acetylcholine and gamma-aminobutyric acid from the rabbit retina.

The concurrent release of endogenous ACh and GABA from the retina (in the presence of physostigmine) was measured using either an eye-cup preparation in rabbits anaesthetized with urethane or isolated rabbit retinas. There was a spontaneous resting release of ACh and GABA from the dark adapted retina of ca 5 and 160 pmol min-1 respectively. Stimulation of the initially dark adapted retina in vivo with flickering light (0.1-20 Hz) increased the release of ACh by up to 5 times the spontaneous resting release but did not cause a detectable increase in GABA release. The maximum light-evoked release of ACh was about 24 pmol min-1/retina and occurred at a frequency of 10 Hz. However, the maximum release of ACh per flash occurred at 0.1 Hz at which frequency the average ACh release per flash from one amacrine cell was ca 2.35 x 10(-18) mol. Exposure of the retina to the potent inhibitors of GABA uptake, SKF89976A and SKF100330A markedly reduced the resting release of ACh and abolished the light-evoked release of ACh but did not enable a light-evoked release of GABA to be detected. Bicuculline blocked the inhibitory actions of both SKF89976A and SKF100330A on ACh release but the combination of bicuculline and uptake inhibitor did not result in a light-evoked release of GABA. In contrast, KCl (20 mM) applied locally to the retina in vivo resulted in the release of both ACh and GABA (61 and 2.6-fold respectively). KCl (20 mM) also evoked large increases in ACh and GABA release from isolated rabbit retinas in room light (13.5 and 3.4-fold respectively). The K-evoked release of ACh and GABA from the rabbit retina both in vivo and in vitro was calcium dependent. These experiments are the first in which endogenous ACh and GABA release from the retina have been simultaneously measured and suggest that the release mechanisms for these transmitters are fundamentally similar.     

Hormonal control of metabolism of gamma-aminobutyric acid in the rat hypothalamus and hippocampus

It has been established that hydrocortisone administration increased the amount of total, free, bound and synaptosomal GABA in the hypothalamus, glutamate decarboxylase activity in the homogenate and synaptosomes and time of the mediator turnover. ACTH administration increased the GABA content and glutamate decarboxylase activity in synaptosomes. The total amino acid content and time of its turnover got higher only with single hormone administration. In the hippocamp hydrocortisone administration increased the total and free GABA contents, its turnover time, glutamate decarboxylase activity in the homogenate and decreased GABA-aminotransferase activity in the homogenate and synaptosomes. The GABA level in synaptosomes grew only with multiple hormone administration. Single administration of ACTH decreased the total GABA content, glutamate decarboxylase activity in the homogenate, while its multiple administration increased the GABA level in synaptosomes followed by a decrease of GABA-aminotransferase activity in the homogenate and synaptosomes. The GABA turnover time fell with single hormone administration and grew with the multiple one. Adrenalectomy induced no changes in the GABA content and activity of its metabolism enzymes in the hypothalamus, however the bound GABA level decreased, while the turnover time increased. In the hippocamp adrenalectomy decreased total, free and synaptosomal GABA contents, glutamate decarboxylase activity in a homogenate and turnover time. Subsequent hydrocortisone administration only partly normalized the revealed changes of the GABA metabolism in the brain structures under adrenalectomy.     

Leukotriene F4 and the release of arachidonic acid metabolites from perfused guinea pig lungs in vitro

Radioimmunoassay and bioassay techniques have been used to investigate the ability of leukortriene (LT)F₄ to release products of arachidonic acid metabolism from guinea pig isolated lungs perfused via the pulmonary artery. Also, the abilities of LTC₄, LTD₄ LTE₄ and LTE₄ to contract guinea pig ileal smooth muscle (GPISM) was studied. Each of the LT's contracted GPISM. The rank order of potency was LTD₄ > LTC₄ > LTE₄ > > LTF₄ in a ratio 1:7:170:280 respectively. Bioassay of pulmonary effluents indicated the passage of LTF₄ through the lungs caused a contraction of rabbit aorta as well as an FPL-55712 sensitive contraction of GPISM. The contractions of rabbit aorta were inhibited by pretreatment of the lungs with Indomethacin but not with the thromboxane synthetase inhibitor Dazoxiben. Radioimmunoassay of the lung effluents indicated LTF₄ to cause a 70-fold increase in thromboxane B₂ (TXB₂), 4-fold increase in prostaglandin (PG)E₂ and a 16-fold increase in 6-keto PGF_1α levels. The LTF₄-induced increments of these immunoreactive metabolites was inhibited by pretreatment of the lungs with Indomethacin. Pretreatment of lungs with Dazoxiben inhibited the LTF₄-induced increment in TXB₂ and enhanced the effluet levels of PGE₂ 24-fold (compared with untreated lungs). There were no detectable differences in either immunoreactive LTC₄ or immunoreactive LTB₄ levels. It is concluded LTF₄ is a relatively weak agonist on GPISM and can induce the release of cyclooxygenase products of arachidonic acid metabolism from guinea pig perfused lung.     

豚鼠背侧海马锥体细胞自发放电特征

实验采用细胞外玻璃微电极采集豚鼠海马神经元放电信号,并将信号转化为峰峰间期(interspike interval,ISI)以研究麻醉和清醒状态海马锥体细胞自发放电线性和非线性特点。实验建立了豚鼠海马锥体细胞与中间神经元电生理鉴别标准;麻醉和清醒状态下豚鼠海马CA1和CA3区锥体细胞自发放电频率、时程、复杂度等无显著区别;麻醉组豚鼠海马锥体细胞ISI序列的复杂度小于清醒组,锥体细胞分型和ISI变异度等表现不同。实验表明,麻醉和清醒状态下豚鼠海马锥体细胞自发放电呈不同线性和非线性特征。传统和非线性研究手段的结合,可能较全面地反映海马锥体细胞自发放电特性。     

Leukotriene F4 and the release of arachidonic acid metabolites from perfused guinea pig lungs in vitro

Radioimmunoassay and bioassay techniques have been used to investigate the ability of leukotriene (LT)F4 to release products of arachidonic acid metabolism from guinea pig isolated lungs perfused via the pulmonary artery. Also, the abilities of LTC4, LTD4, LTE4 and LTF4 to contract guinea pig ileal smooth muscle (GPISM) was studied. Each of the LT's contracted GPISM. The rank order of potency was LTD4 greater than LTC4 greater than LTE4 much greater than LTF4 in a ratio of 1:7:170:280 respectively. Bioassay of pulmonary effluents indicated the passage of LTF4 through the lungs caused a contraction of rabbit aorta as well as an FPL-55712 sensitive contraction of GPISM. The contractions of rabbit aorta were inhibited by pretreatment of the lungs with Indomethacin but not with the thromboxane synthetase inhibitor Dazoxiben. Radioimmunoassay of the lung effluents indicated LTF4 to cause a 70-fold increase in thromboxane B2 (TXB2), 4-fold increase in prostaglandin (PG)E2 and a 16-fold increase in 6-keto PGF1 alpha levels. The LTF4-induced increments of these immunoreactive metabolites was inhibited by pretreatment of the lungs with Indomethacin. Pretreatment of lungs with Dazoxiben inhibited the LTF4-induced increment in TXB2 and enhanced the effluent levels of PGE2 24-fold (compared with untreated lungs). There were no detectable differences in either immunoreactive LTC4 or immunoreactive LTB4 levels. It is concluded LTF4 is a relatively weak agonist on GPISM and can induce the release of cyclooxygenase products of arachidonic acid metabolism from guinea pig perfused lung.     

The release of gamma-aminobutyric acid, glutamate, and acetylcholine from striatal slices: a mass fragmentographic study

The release processes of endogenous Acetylcholine (ACh), gamma-aminobutyric acid (GABA), glutamate (Glu) and glutamine (GLN) were studied in superfused guinea-pig caudatal slices. Basal ACh release remained constant for up to 2 h, while the basal release of GABA, Glu and GLN declined to half or less of its initial values after 1 h of superfusion. Electrical stimulation increased the ACh release by 700-800% and that of GABA by 80% whereas it decreased the output of Glu by 50% and failed to modify the GLN efflux. KCl (25 nM) increased the output of ACh by 400%, that of GABA by approximately 500% and decreased that of Glu by 40%. Substituting of CaCl(2) by MgCl(2) in the superfusion medium reduced the basal efflux of GABA, Glu and GLN. Under these conditions, no evoked release of ACh or of GABA was detected, following electrical or KCl stimulation. Tetrodotoxin 5 x 10(-7) decreased the basal ACh release by 60% and increased the GABA efflux by 40%. The toxin abolished the stimulus-evoked ACh efflux but scarcely affected that of GABA. These results are consistent with a possible neurotransmitter role of ACh and GABA in the striatum and show some differences in the ionic mechanisms underlying GABA and ACh release.     

Simultaneous detection of gastric acid and histamine release to unravel the regulation of acid secretion from the guinea pig stomach

Gastric acid secretion is regulated by three primary components that activate the parietal cell: histamine, gastrin, and acetylcholine (ACh). Although much is known about these regulatory components individually, little is known on the interplay of these multiple activators and the degree of regulation they pose on the gastric acid secretion mechanism. We utilized a novel dual-sensing approach, where an iridium oxide sensor was used to monitor pH and a boron-doped diamond electrode was used for the detection of histamine from in vitro guinea pig stomach mucosal sections. Under basal conditions, gastrin was shown to be the main regulatory component of the total acid secretion and directly activated the parietal cell rather than by mediating gastric acid secretion through the release of histamine from the enterochromaffin-like cell, although both pathways were active. Under stimulated conditions with ACh, the gastrin and histamine components of the total acid secretion were not altered compared with levels observed under basal conditions, suggestive that ACh had no direct effect on the enterochromaffin-like cell and G cell. These data identify a new unique approach to investigate the regulation pathways active during acid secretion and the degree that they are utilized to drive total gastric acid secretion. The findings of this study will enhance our understanding on how these signaling mechanisms vary under pathophysiology or therapeutic management.