脑内γ—氨基丁酸（GABA）在急性失血性低血压时对血压的影响

本实验通过大鼠和家兔侧脑室注射GABA受体阻断剂荷包牡丹碱(Bicuculline)研究正常血压和急性失血性低血压时,中枢GABA对血压的调节作用。结果表明:在两种情况下,荷包牡丹碱均有明显的升压作用,但后者显著大于前者,且这种升压效应不被去肾或去肾上腺所影响。同时发现:急性失血性低血压时,兔脑脊液中GABA含量明显增加,提示在急性失血性低血压时,中枢GABA具有阻止血压回升的作用,这种作用是通过对中枢交感神经系统的抑制引起的。     

Correlation between the enhancement of flunitrazepam binding by GABA and seizure susceptibility in mice

Various populations of mice exhibit differential sensitivity to seizure-inducing agents. The relationship of seizure susceptibility to alterations in the GABA receptor complex was investigated in six different populations of mice consisting of four inbred strains (C57BL, DBA, C3H, and BALB) and two selected lines (long sleep and short sleep). Seizure activity was induced by intraperitoneal administration of the GAD inhibitor, 3-mercaptopropionic acid, and latencies to seizure onset and tonus were measured. In naive mice of the same populations, GABA enhancement of 3H-flunitrazepam binding was measured in extensively washed whole brain membranes at several GABA concentrations. Both differential seizure sensitivity to 3-mercaptopropionic acid and differential enhancement of 3H-flunitrazepam binding by GABA were observed in these six populations of mice. Correlational analyses indicated a positive correlation between the degree of GABA enhancement of 3H-flunitrazepam binding and resistance to the seizure-inducing properties of 3-mercaptopropionic acid. These data suggest that genetic differences in sensitivity to seizure-inducing agents that disrupt the GABAergic system may be related to differences in coupling between the various receptors associated with the GABA receptor complex.     

The anxiety-like phenotype of 5-HT receptor null mice is associated with genetic background-specific perturbations in the prefrontal cortex GABA-glutamate system

A deficit in the serotonin 5-HT(1A) receptor has been found in panic and post-traumatic stress disorders, and genetic inactivation of the receptor results in an anxiety-like phenotype in mice on both the C57Bl6 and Swiss-Webster genetic backgrounds. Anxiety is associated with increased neuronal activity in the prefrontal cortex and here we describe changes in glutamate and GABA uptake of C57Bl6 receptor null mice. Although these alterations were not present in Swiss-Webster null mice, we have previously reported reductions in GABA(A) receptor expression in these but not in C57Bl6 null mice. This demonstrates that inactivation of the 5-HT(1A) receptor elicits different and genetic background-dependent perturbations in the prefrontal cortex GABA/glutamate system. These perturbations can result in a change in the balance between excitation and inhibition, and indeed both C57Bl6 and Swiss-Webster null mice show signs of increased neuronal excitability. Because neuronal activity in the prefrontal cortex controls the extent of response to anxiogenic stimuli, the genetic background-specific perturbations in glutamate and GABA neurotransmission in C57Bl6 and Swiss-Webster 5-HT(1A) receptor null mice may contribute to their shared anxiety phenotype. Our study shows that multiple strains of genetically altered mice could help us to understand the common and individual features of anxiety.     

GABA receptor binding and hemodynamic responses to ICV GABA in adult spontaneously hypertensive rats

Blood pressure and heart rate responses after central administration of GABA (100-1000 micrograms, ICV) and after ganglionic blockade with hexamethonium (25 mg/kg, i.a.) were compared in conscious 12 week-old spontaneously hypertensive (SH) and age-matched Wistar-Kyoto (WKY) rats. Ganglionic blockade produced an equivalent change in mean arterial pressure between SH and WKY rats. Thus, the total functional sympathetic nervous system contribution to blood pressure is equivalent in these two strains. Intraventricularly-administered GABA produced a greater absolute decrease in mean arterial pressure in the SHR compared to the WKY. However, the percent changes in arterial pressure produced by GABA were not different between these strains. This greater absolute depressor effect of GABA does not appear to be due to differences in GABA receptor binding constants since GABA receptor affinity and number of binding sites were not significantly different in the forebrain, cerebellum or pons-medulla between SH and WKY rats.     

Influence of Sodium-Independent γ-Aminobutyric Acid Binding on the Assay of Sodium-Dependent γ-Aminobutyric Acid Binding in a Membrane Preparation of Rat Brain

A large amount of [³H]GABA was bound to crude synaptic membrane fractions of rat. by sodium-independent process in a medium that contained 100 μM [³H]GABA used for assaying GABA uptake site. This [³H]-GABA binding was different from receptor binding of GABA. It was confirmed that this sodium-independent [²H]GABA binding scarcely occurred in the presence of a physiological concentration of sodium chloride, and that sodium-independent GABA binding had a negligible influence on sodium-dependent GABA binding.     

In vivo labeling of the central GABA uptake carrier with 3H-Tiagabine.

The in vivo binding of 3H-Tiagabine to the central GABA uptake carrier in mouse brain was characterized. 3H-Tiagabine in vivo bound to a single class of binding sites with a Kd = 72.5 nM and a Bmax = 640 pmol/g tissue. 3H-Tiagabine binding in vivo was regionally distributed within the CNS, and showed a good correlation with 3H-Tiagabine binding in vitro. Pharmacological characterization of 3H-Tiagabine binding in vivo revealed a binding site exhibiting specificity for GABA uptake inhibitors. Experiments examining the in vivo receptor occupancy of the GABA uptake carrier for a series of GABA uptake inhibitors revealed that 20-30% of the GABA uptake sites were occupied at the ED50 for inhibiting DMCM-induced clonic convulsions, while a 50-62% receptor occupancy in vivo was needed to inhibit rotarod performance. These data suggest that 3H-Tiagabine in vivo binding may be a useful method for assessing GABA uptake inhibitor penetration into the CNS, and may be a useful tool for studying the physiological regulation of the GABA uptake carrier.     

Phosphatidylserine Enhancement of [3H]γ-Aminobutyric Acid Uptake by Rat Whole Brain Synaptosomes

Abstract: [³H] γ -Aminobutyric acid ([³H]GABA) binding to purified lipids was examined in an organic solvent-aqueous partition system. In addition, the [³H]GABA binding capacity in the partition system was compared with the capacity of lipids to alter sodium-dependent [³H]GABA uptake into synaptosomes isolated from rat whole brains. [³H]GABA was found to bind to all of the lipids studied in the organic solvent-aqueous partition system [phosphatidic acid (PA), phosphatidylethanolamine (PE), phosphatidylinositol (PI), phosphatidylserine (PS), gangliosides, and sulfatide], although PS exhibited the greatest binding capacity. [³H]GABA uptake into synaptosomes was enhanced by PS (48.0%) but was not altered by any other lipid. PS enhancement of [³H]GABA uptake required the presence of sodium and was blocked by nipecotic acid (10 μ m ). These results suggest that PS may play a role in the sodium-dependent GABA reuptake process in the presynaptic nerve end.     

Correlation between the steady state and turnover of gamma-aminobutyric acid during brain maturation in mice

In 2 inbred strains of mice (C57Bl/6J, DBA/2J) in 15 areas, the in vivo GABA turnover rates are significantly correlated with the GABA steady-state levels in 21 day-old mice. In 3 month-old mice the correlation stands only in some areas, the same ones in the 2 strains: olfactory bulbs, frontal cortex, septum, amygdala, hypothalamus, hippocampus, cerebellum. Moreover, the turnover rates decrease sharply with age.     

Na(+)- and Cl(-)-dependent [3H]GABA binding to catfish brain particles

The uptake of [3H]GABA by homogenates of catfish brain was previously shown to be temperature-sensitive and sodium-dependent, and to display saturation kinetics. The present study is a continuation of this work and was undertaken to characterize the initial binding of [3H]GABA to its transport system. [3H]GABA binding to catfish brain particles at 4 degrees C displayed saturability and was totally dependent on both Na+ and Cl-, the optimum concentrations of which were 150 mM and 75 mM, respectively. The effects of a number of drugs on binding were established. Unlabelled GABA was the most potent inhibitor (IC50 = 3.2 microM). The structural analogues nipecotic acid and guvacine were also strongly inhibitory. Interestingly, verapamil, a Ca2+ channel blocker, also inhibited [3H]GABA binding (IC50 = 38 microM). Harmaline, known to compete for Na+ binding in other transport systems, did not appear to influence Na+ binding but was effective at displacing [3H]GABA. These results suggest that the interaction of GABA with its carrier is similar to that found in the mammalian nervous system and is further evidence that GABA is involved in neurotransmission in catfish brain.     

Cannabinoid-serotonin interactions in alcohol-preferring vs. alcohol-avoiding mice

Because cannabinoid and serotonin (5-HT) systems have been proposed to play an important role in drug craving, we investigated whether cannabinoid 1 (CB1) and 5-HT(1A) receptor ligands could affect voluntary alcohol intake in two mouse strains, C57BL/6 J and DBA/2 J, with marked differences in native alcohol preference. When offered progressively (3-10% ethanol) in drinking water, in a free-choice procedure, alcohol intake was markedly lower (approximately 70%) in DBA/2 J than in C57BL/6 J mice. In DBA/2 J mice, chronic treatment with the cannabinoid receptor agonist WIN 55,212-2 increased alcohol intake. WIN 55,212-2 effect was prevented by concomitant, chronic CB1 receptor blockade by rimonabant or chronic 5-HT(1A) receptor stimulation by 8-hydroxy-2-(di-n-propylamino)-tetralin, which, on their own, did not affect alcohol intake. In C57BL/6 J mice, chronic treatment with WIN 55,212-2 had no effect but chronic CB1 receptor blockade or chronic 5-HT(1A) receptor stimulation significantly decreased alcohol intake. Parallel autoradiographic investigations showed that chronic treatment with WIN 55,212-2 significantly decreased 5-HT(1A)-mediated [35S]guanosine triphosphate-gamma-S binding in the hippocampus of both mouse strains. Conversely, chronic rimonabant increased this binding in C57BL/6 J mice. These results show that cannabinoid neurotransmission can exert a permissive control on alcohol intake, possibly through CB1-5-HT(1A) interactions. However, the differences between C57BL/6 J and DBA/2 J mice indicate that such modulations of alcohol intake are under genetic control.     

Determination of the Equilibrium Dissociation Constants and Number of Glycine Binding Sites in Several Areas of the Rat Central Nervous System, Using a Sodium-Independent System

Parameters affecting the binding of [3H]glycine to membrane fractions isolated from the cerebral cortex, midbrain, cerebellum, medulla oblongata, and spinal cord of the rat were investigated in a Na+-free medium. A [3H]glycine binding assay was established in which the binding was specific, saturable, pH-sensitive, and reversible. Conditions were chosen in an effort to minimize binding to glycine uptake sites. From data on specific [3H]glycine binding Scatchard plots were prepared and the KD and Bmax values were calculated. Two glycine binding sites (high and low affinity) were identified only in the medulla (KD: 44, 211 nM; Bmax: 361, 1076 fmol/mg protein) and spinal cord (KD: 19, 104 nM; Bmax: 105, 486 fmol/mg protein). The ranges of the KD and Bmax values for the other three areas studied were 59 to 144 nM and 882 to 3401 fmol/mg protein, respectively. When the glycine content of each area, expressed as fmol/neuron, was plotted against the respective KD (high affinity), a negative correlation was found (r = --0.90; p less than 0.05). A similar negative correlation was found between the glycine content and Bmax (r = --0.88; p less than 0.05). Hill plots indicated a slope of essentially 1.0 for all areas. GABA, taurine, strychnine, diazepam, bicuculline, and imipramine had little or no effect on [3H]glycine binding.     

Gamma aminobutyric acid in different strains of mice effect of ethanol

Four strains of mice (C57BL/6J, DBA/2J, LS and SS), which differ in their voluntary intake and/or neural sensitivity to ethanol, were examined for the contents of γ-aminobutyric acid (GABA) in various brain regions. The effect of an acute dose of ethanol (4 g/kg) on the contents of this amino acid neurotransmitter in these mice were studied. The objective is to determine if the differences in sensitivity to ethanol may be reflected in differences in brain GABA contents in these animals.Results indicate that a previously documented ethanol-induced elevation of GABA in the whole mouse brain is a phenomenon observed in a variety of brain regions. No correlation was observed between GABA contents in the brain and neural sensitivity to ethanol.     

Genetic Differences in Androgen Receptors and in Autoregulation of Testicular Human Chorionic Gonadotropin Binding Sites in the Mouse

Abstract

The autoregulation of testicular human chorionic gonadotropin (hCG) binding sites was studied in two strains of mice known to differ in their endocrine and reproductive characteristics (C57BL/10J and DBA/2J), and in their F₁ progeny (B10D2F₁). Basal hCG binding levels were higher in C57BL/10J than in DBA/2J mice, while B10D2F₁ mice had intermediate levels. Twenty-four h after injection, hCG produced dose-related changes in hCG binding in C57BL/10J and B10D2F₁ mice not observed in DBA/2J mice. However, 72 h after treatment with hCG there was a decrease in hCG binding in all the strains studied. These results suggest the participation of genetic factors in determining basal levels, dose-related changes and temporal response of testicular hCG binding sites to hCG administration. Androgen receptor levels were measured in the same strains of mice. DBA/2J mice had higher receptor levels in the kidney and coagulating gland, and lower levels in the hypothalamus and seminal vesicle when compred to C57BL/10J mice. B10D2F₁ mice had androgen receptor levels similar to those measured in C57BL/10J mice in all tissues studied, with the exception of the coagulating gland, where levels were similar to those observed in DBA/ZJ mice. These observations may indicate the existence of several loci coding for androgen receptors, with only one being expressed per tissue     

Action of analogues on γ-aminobutyric acid recognition sites in rat brain

With a view to finding potential GABA-mimetics, the effects of a number of structural analogues of GABA were studied on three parameters associated with GABA neural transmission of rat brain. These were (1) the binding of [³H]GABA to its receptor, (2) the binding of [³H]GABA to its transporter (sodium-dependent binding), and (3) the activity of GABA aminotransferase. Thirteen of the 21 compounds tested competitively inhibited both the low and the high affinity GABA receptor binding components. The most potent inhibitors were morpholinopropane sulphonic acid (MOPS) and aminoethylthiosulphonic acid (AETS). All of the compounds were markedly less effective in inhibiting the high affinity GABA receptor binding system than the low affinity system. The effect of each of the inhibitors was measured on [³H]diazepam receptor binding. Only 6-(morpholinomethyl)kojic acid, kojic amine, 1-piperidinepropane sulphonic acid and 4(4′-azido-benzoimidylamino)butanoic acid (ABBA) were able to induce a stimulation of binding. Four of the inhibitors of [³H]GABA binding were able to appreciably reduce GABA-induced enhancement of diazepam binding. These were N-(2-nitro,4-azidophenyl)aminopropane sulphonic acid, 8-amino-1-napthalene sulphonic acid, narcotine-N-oxide and 5-phenyl-2-pyrrolepropionic acid. These results demonstrate that MOPS and AETS are good inhibitors of GABA receptor binding although there is no other evidence that they might be agonists since they have no effect on diazepam receptor binding. Based on their ability to block GABA-induced stimulation of diazepam binding ABBA, 8-amino-1-naphthalene sulphonic acid and 5-phenyl-2-pyrrolepropionic acid may possess antagonistic properties. ABBA was the only compound to inhibit sodium-dependent [³H]GABA binding. None of the compounds had an effect on the activity of GABA aminotransferase. From this study at least two analogues, MOPS and AETS, have emerged that hold potential as GABA-mimetics. Also, the three GABA recognition sites of rat brain have been shown to possess marked pharmacological differences.     

Effect of Inhibitors of GABA Transaminase on the Synthesis, Binding, Uptake and Metabolism of GABA

Abstract: Four catalytic inhibitors of GABA aminotransferase (gabaculine, γ-acetylenic GABA, γ-vinyl GABA, ethanolamine O -sulphate) as well as aminooxyacetic acid and valproate were studied for effects on neurochemical assays for GABA synthesis, receptor binding, uptake and metabolism in mouse and rat brain preparations. Gabaculine did not interfere with GABA synthesis as reflected by the activity of glutamate decarboxylase (GAD), it was only a weak inhibitor (IC₅₀= 0.94 mM) of GABA receptor binding sites but was a moderately potent inhibitor of GABA uptake (IC₅₀= 81 μM) and very potent (IC₅₀= 1.8 μM) with respect to inhibition of the GABA-metabolizing enzyme GABA aminotransferase (GABA-T). γ-Acetylenic GABA was a weak inhibitor of GAD and GABA binding (IC₅₀ > 1 mM), but virtually equipotent to inhibit uptake and metabolism of GABA (IC₅₀ 560 and 150 μM, respectively). This was very similar to γ-vinyl GABA, except that this drug did not decrease GAD activity. Ethanolamine O -sulphate was found to show virtually no inhibition of GAD and GABA uptake, but was a fairly potent inhibitor of GABA binding (IC₅₀= 67 μM) and in this respect, 500 times more potent than as an inhibitor of GABA-T. Aminooxyacetic acid was a powerful inhibitor of both GAD and GABA-T (IC₅₀ 14 and 2.7 μM, respectively), but had very little affinity to receptor and uptake sites for GABA. Valproate showed no effects on GABA neurochemical assays which could be related to anticonvulsant action. The present results suggest that the anticonvulsant properties of the four catalytic inhibitors of GABA-T tested are at least in part mediated through a direct influence on GABA receptors and uptake sites.     

Initial licking responses of mice to sweeteners: effects of tas1r3 polymorphisms

Recent studies have established that the T1R3 receptor plays a central role in the taste-mediated ingestive response to sweeteners by mice. First, transgenic mice lacking the gene for T1R3, Tas1r3, show dramatically reduced lick responsiveness to most sweeteners. Second, strains with the taster allele of Tas1r3 (T strains) are more sensitive to low sweetener concentrations than strains with the nontaster allele (NT strains) and consume greater quantities of low- to midrange concentrations of sweeteners during 24-h tests. We asked how Tas1r3 polymorphisms influence the initial licking responses of four T strains (FVB/NJ, SWR/J, SM/J, and C57BL/6J) and four NT strains (BALB/cJ, 129P3/J, DBA/2J, and C3H/HeJ) to two sweeteners (sucrose and SC-45647, an artificial sweetener). We used the initial licking response as a measure of the taste-mediated ingestive response because its brief duration minimizes the potential contribution of nontaste factors (e.g., negative and positive postingestive feedback). Further, we used two complimentary short-term intake tests (the brief-access taste test and a novel 1-min preference test) to reduce the possibility that our findings were an epiphenomenon of a specific testing procedure. In both tests, the T strains were more responsive than the NT strains to low concentrations of each sweetener. At higher concentrations, however, there was considerable overlap between the T and NT strains. In fact, the initial licking response of several NT strains was more vigorous than (or equivalent to) that of several T strains. There was also considerable variation among strains with the same Tas1r3 allele. We conclude that Tas1r3 polymorphisms contribute to strain differences in initial lick responsiveness to low but not high concentrations of sweeteners.     

Genetic locus on mouse chromosome 7 controls elevated heart rate

Elevated heart rate (HR) is a risk factor for cardiovascular diseases. The goal of the study was to map HR trait in mice using quantitative trait locus (QTL) analysis followed by genome-wide association (GWA) analysis. The first approach provides mapping power and the second increases genome resolution. QTL analyses were performed in a C3HeB×SJL backcross. HR and systolic blood pressure (SBP) were measured by the tail-cuff plethysmography. HR was ～80 beats/min higher in SJL compared with C3HeB. There was a wide distribution of the HR (536-763 beats/min) in N2 mice. We discovered a highly significant QTL (logarithm of odds = 6.7, P < 0.001) on chromosome 7 (41 cM) for HR in the C3HeB×SJL backcross. In the Hybrid Mouse Diversity Panel (58 strains, n = 5-6/strain) we found that HR (beats/min) ranged from 546 ± 12 in C58/J to 717 ± 7 in MA/MyJ mice. SBP (mmHg) ranged from 99 ± 6 in strain I/LnJ to 151 ± 4 in strain BXA4/PgnJ. GWA analyses were done using the HMDP, which revealed a locus (64.2-65.1 Mb) on chromosome 7 that colocalized with the QTL for elevated HR found in the C3HeB×SJL backcross. The peak association was observed for 17 SNPs that are localized within three GABA(A) receptor genes. In summary, we used a combined genetic approach to fine map a novel elevated HR locus on mouse chromosome 7.     

Density and function of central serotonin (5-HT) transporters, 5-HT1A and 5-HT2A receptors, and effects of their targeting on BTBR T+tf/J mouse social behavior

BTBR mice are potentially useful tools for autism research because their behavior parallels core social interaction impairments and restricted-repetitive behaviors. Altered regulation of central serotonin (5-HT) neurotransmission may underlie such behavioral deficits. To test this, we compared 5-HT transporter (SERT), 5-HT(1A) and 5-HT(2A) receptor densities among BTBR and C57 strains. Autoradiographic [(3) H] cyanoimipramine (1 nM) binding to SERT was 20-30% lower throughout the adult BTBR brain as compared to C57BL/10J mice. In hippocampal membrane homogenates, [(3) H] citalopram maximal binding (B(max) ) to SERT was 95 ± 13 fmol/mg protein in BTBR and 171 ± 20 fmol/mg protein in C57BL/6J mice, and the BTBR dissociation constant (K(D) ) was 2.0 ± 0.3 nM versus 1.1 ± 0.2 in C57BL/6J mice. Hippocampal 5-HT(1A) and 5-HT(2A) receptor binding was similar among strains. However, 8-OH-DPAT-stimulated [(35) S] GTPγS binding in the BTBR hippocampal CA(1) region was 28% higher, indicating elevated 5-HT(1A) capacity to activate G-proteins. In BTBR mice, the SERT blocker, fluoxetine (10 mg/kg) and the 5-HT(1A) receptor partial-agonist, buspirone (2 mg/kg) enhanced social interactions. The D(2) /5-HT(2) receptor antagonist, risperidone (0.1 mg/kg) reduced marble burying, but failed to improve sociability. Overall, altered SERT and/or 5-HT(1A) functionality in hippocampus could contribute to the relatively low sociability of BTBR mice.     

Age-Dependent Changes in Brain GABA Turnover Rates in Two Inbred Strains of Mice

gamma-Aminobutyric acid (GABA) steady-state levels and turnover rates have been determined in 15 brain areas of 21-day- and 3-month-old DBA/2J (DBA) and C57B1/6J (C57) mice. These two inbred strains differ by their susceptibility to audiogenic seizures; moreover, the involvement of GABAergic neurotransmission has been suggested in the control of this behavior. Turnover rates are generally higher at 21 days than at 3 months of age. There are few significant differences in the GABA steady-state levels between 21-day-old seizure-prone DBA mice when compared with seizure-resistant C57 mice. In the DBA mice, the steady-state level is higher in the olfactory bulbs and lower in the posterior colliculus and the olfactory tubercles than in the C57 mice. Although there are some significant differences in GABA turnover rates and steady-state levels, intra or inter strains, it is difficult to correlate directly these differences with seizure susceptibility.