Benzodiazepine inverse agonist, DMCM- and peripheral agonist, Ro 5-4864-induced convulsions in mice: effect of adenosinergic agents

Adenosinergic agents such as adenosine, 2-chloro-adenosine, N6-cyclohexyladenosine produced dose-dependent protective effect against DMCM- and Ro 5-4864-induced convulsions and mortality. N6-cyclohexyladenosine produced most significant protective e ect against Ro 5-4864-induced convulsions whereas 2-chloroadenosine was more effective than N6-cyclohexyladenosine in antagonising DMCM-induced convulsions. Pretreatment of animals with subprotective doses of adenosine and dipyridamole significantly prolonged the latencies for the onset of myoclonic jerks and convulsions due to both DMCM and Ro 5-4864. DMCM and Ro 5-4864-induced mortality rate was also significantly reduced by pretreatment with subprotective doses of adenosine and dipyridamole. Similarly, subprotective doses of adenosine and diazepam further delayed the latencies for myoclonic jerks and convulsions due to DMCM and Ro 5-4864 treatment. The results suggest that adenosine and adenosine receptor agonists, 2-chloroadenosine and N6-cyclohexyladenosine are protective against both DMCM- and Ro 5-4864-induced convulsions. It is suggested that adenosinergic agents via activation of central A1 adenosine receptors may modulate the convulsant effects mediated by DMCM and Ro 5-4864. This study further supports the notion that adenosinergic mechanisms mediate neuroprotective e ects in the central nervous system.     

A subtype of adenosine receptors mediating pigment dispersion in leucophores of the medaka: evidence for an A2-receptor

1. Adenosine and its derivatives induced dispersion of leucosomes in leucophores of the medaka, Oryzias latipes. 2. Among the purines used, 5'-N-ethylcarboxiamideadenosine was the most effective and its potency was far greater than that of adenosine, N6-L-phenylisopropyladenosine and N6-cyclohexyladenosine. 3. Methylxanthines inhibited the purine action competitively, but beta adrenergic antagonists and dipyridamole did not. 4. Beta adrenergic agonists and forskolin synergistically augmented the purine action, while Li+ blocked it competitively. 5. The results suggest that medaka leucophores possess A2 adenosine receptors on the cell membranes, the stimulation of which induces leucosome-dispersion response by increasing the cellular level of cyclic AMP through activation of adenylate cyclase activity.     

狗肝脏苯甲二氮茸结合抑制因子的cDNA克隆及序列分析

在研究狗抗吗啡活性肽ＰＰＣ过程中,发现它与牛的ＤＢＩ（ｄｉａｚｅｐａｍｂｉｎｄｉｎｇｉｎｈｉｂｉｔｏｒ）的氨基酸序列有很高的同源性,但尚未见到有关狗的ＤＢＩ的文献报道,为了更好的探讨ＰＰＣ和ＤＢＩ相互间的关系,对狗的ＤＢＩ的ｃＤＮＡ进行了克隆和序列分析。本研究利用大鼠ＤＢＩ的基因片段为探针,从狗肝脏ｃＤＮＡ文库中,筛选得到了一阳性克隆,并进行了全自动和手工测序,得到了ＤＢＩ的全长基因。根据ＥＢＭＬｂａｎｋ序列检索,发现狗的ＤＢＩ核酸序列与牛的同源性为８１％,将其核酸序列翻译成氨基酸序列,进行同源序列比较,结果显示：狗的ＤＢＩ的氨基酸序列与猪、牛、人、酵母ＤＢＩ的同源性分别为８８．５％、８７．４％、８３．９％、４６．５％。研究还发现狗的ＤＢＩ序列与抗吗啡活性肽ＰＰＣＮ端６２个氨基酸只有两个不同,Ｃ端１７个氨基酸序列完全相同。只是ＰＰＣ比ＤＢＩ中间多了２３个氨基酸。     

Adenosine stimulates guanylate cyclase activity in vascular smooth muscle cells

Good evidence exists to indicate that the vasodilating effect of adenosine is mediated by cell surface receptors on vascular smooth muscle cells. The mechanism of transmembrane signal transduction for adenosine, however, is not fully understood. Since cGMP is a second messenger known to mediate vasodilation, I have examined the effect of adenosine on the intracellular concentration of cGMP in vascular smooth muscle cells from rat aorta. I found that adenosine at 10(-9) to 10(-5) M led to an increase in intracellular cGMP levels in a dose-dependent fashion. The effect of adenosine on cyclic guanosine inorganic monophosphate (cGMP) could be mimicked by the A-type receptor agonists N6-cyclohexyladenosine and 5'-N-ethylcarboxamidoadenosine and was attenuated by the A-receptor antagonist theophylline. The order of potency of the adenosine analogues was N6-cyclohexyladenosine greater than 5'-N-ethylcarboxamidoadenosine greater than adenosine. These findings suggest that the effect of adenosine on cGMPi is mediated by A1-type cell surface receptors. Concerning the mechanism by which adenosine could elevate cGMPi, I found that the effect of adenosine on cGMPi was potentiated by the cGMP phosphodiesterase-specific inhibitor M & B 22948. Moreover, I found that N6-cyclohexyladenosine, 5'-N-ethylcarboxamidoadenosine, and adenosine stimulated a guanylate cyclase in homogenates of the cultured smooth muscle cells in a dose-dependent fashion with the same order of potency as their effects on cGMPi. Further evidence was obtained to indicate that adenosine and its analogues stimulated a particulate guanylate cyclase activity, whereas they did not alter soluble guanylate cyclase activity. Since cGMP is known as a second messenger mediating relaxation of vascular smooth muscle cells, the results obtained in this study could suggest that adenosine exerts its vasorelaxing effect by activating an Ai-receptor-linked guanylate cyclase.     

Role of the peripheral-type benzodiazepine receptor and the polypeptide diazepam binding inhibitor in steroidogenesis

Steroidogenesis begins with the metabolism of cholesterol to pregnenolone by the inner mitochondrial membrane cytochrome P450 side-chain cleavage (P450scc) enzyme. The rate of steroid formation, however, depends on the rate of (i) cholesterol transport from intracellular stores to the inner mitochondrial membrane and (ii) loading of P450scc with cholesterol. We demonstrated that a key element in the regulation of cholesterol transport is the mitochondrial peripheral-type benzodiazepine receptor (PBR) and that the presence of the polypeptide diazepam binding inhibitor (DBI) was vital for steroidogenesis. We also showed that DBI, as the endogenous PBR ligand, stimulates cholesterol transport. In addition, DBI directly promotes loading of cholesterol to P450scc. We review herein our studies on the structure, function, topography and hormonal regulation of PBR and DBI in steroidogenic cells. Based on these data we propose a model where the interaction of DBI with PBR, at the outer/inner membrane contact sites, is the signal transducer of hormone-stimulated and constitutive steroidogenesis at the mitochondrial level. Hormone-induced changes in PBR microenvironment/structure regulate the affinity of the receptor. PBR ligand binding to a higher affinity receptor results in increased cholesterol transport. In addition, hormone-induced release (processing?) of a 30,000 M_W DBI-immunoreactive protein from the inner mitochondrial membrane may result to the intramitochondrial production of DBI which directly stimulates loading of P450scc with cholesterol. Thus, in vivo, hormonal activation of these two mechanisms results in efficient cholesterol delivery and utilization and thus high levels of steroid synthesis.     

猪脑苯甲二氮结合性抑制物的分离纯化及其镇痛活性

纯化猪脑苯甲二氮结合性抑制物 (DBI)并研究它在镇痛方面的生物学功能 .猪脑提取液经SephadexG 5 0分子筛层析、SP SepharoseFastFlow阳离子交换柱层析、SourceTM30SFPLC和RP HPLC分离得到DBI ,纯度达 93 5 % .经测定其相对分子质量 (Mr)为 980 8.3,pI为 7 2 .氨基酸组成及其序列检测结果表明 ,该蛋白由 86个氨基酸组成 ,与猪肠DBI的序列相同 ,而且N端都是乙酰化封闭的 .镇痛活性实验在SD雄性大鼠上进行 ,测量其对伤害性热和机械刺激反应的潜伏期作为指标 .将DBI注射到大鼠的侧脑室和脊髓蛛网膜下腔内 ,都产生明确的镇痛作用 ,在吗啡耐受的大鼠侧脑室注射DBI仍有镇痛作用 .无论在脊髓或脑水平 ,DBI对吗啡的抗伤害作用均无明显影响 .结果提示 ,中枢神经系统内 ,DBI在一定剂量内有明确的镇痛作用 ,对吗啡耐受的大鼠DBI仍有镇痛作用     

大豆种子吸胀冷害抗性与其质体膜脂不饱和度正相关

吸胀冷害是干种子在吸胀阶段遭受低温造成不萌发的现象,结果可能造成农作物损失严重。虽然吸胀过程中细胞膜的修复是关键事件,而且细胞膜在响应水分和温度胁迫中扮演重要角色,但是种子吸胀过程中膜变化的过程,特别是膜流动性变化过程研究较少。本文比较了吸胀冷害耐受型（LX）和敏感型（R5）两个大豆品种在吸胀冷害过程中膜脂不饱和度（double bond index, DBI）的变化,结果发现,LX和R5在常温（25℃）吸胀时变化趋势一致,质体膜脂DBI升高,质体外膜脂中磷脂酰甘油(phosphatidylglycerol, PG)分子DBI下降。LX和R5在低温（4℃）吸胀时DBI变化有很大差异,低温吸胀仅仅延缓了耐受型LX中质体膜脂DBI的升高,但是敏感性R5质体膜脂DBI不仅没有升高反而下降。用浓度33%的聚乙二醇 (polyethylene glycol, PEG)引发没有直接引起DBI变化,但是所引起的细微而显著的变化可能为萌发做好准备。PEG引发处理后的R5在吸胀冷害后第二和第三阶段质体膜脂DBI迅速增加,这个增加模式与LX的DBI增加相似。结果表明,吸胀冷害延缓或者阻滞了质体膜脂不饱和度的升高,大豆种子的吸胀冷害抗性与质体膜脂不饱和度正相关,提高质体膜质DBI可以提高吸胀冷害抗性。     

Effect of phenformin on the response of plasma intestinal glucagon-like immunoreactivity (GLI) to oral glucose in gastrectomized subjects.

The effect of phenformin (DBI) on the plasma intestinal glucagon-like immunoreactivity (GLI) and pancreatic glucagon (IRG) responses to oral and intravenous glucose loads were studied in 26 gastrectomized subjects, using a cross-reacting and an IRG-specific anti-serum. The drug produced no significant changes in fasting GLI and IRG levels. Thirty minutes after oral glucose alone, the total GLI level rose to a peak of 1.55 +/- 0.17 ng/ml in the untreated subjects and to a maximum level of 1.67 +/- 0.18 ng/ml in the DBI-pretreated subjects. However, the mean GLI levels obtained 120 and 180 min after oral glucose were significantly higher after treatment with DBI. The blood sugar and IRI responses to oral glucose were lowered significantly by DBI pretreatment. DBI did not alter the glucose, IRI, IRG and GLI response to intravenous glucose. These results suggest that the release of intestinal GLI is not related to the intestinal absorption of glucose.     

A cDNA encoding diazepam-binding inhibitor/acyl-CoA-binding protein in Helicoverpa armigera: molecular characterization and expression analysis associated with pupal diapause

The diazepam binding inhibitor (DBI) or the acyl-CoA-binding protein (ACBP) is a 9-10 kDa highly conserved multifunctional protein that plays important roles in GABA(A) receptor activity regulation, lipid absorption and steroidogenesis in various organisms. To study the functions of DBI/ACBP in insect development or diapause, we cloned the cDNA from Helicoverpa armigera (Har) utilizing rapid amplification of cDNA ends (RACE). By homology search, Har-DBI/ACBP is conserved with the DBI/ACBPs known from other insects. Northern blot analysis showed that DBI/ACBP gene expressed in nonneural and neural tissues. RT-PCR combined Southern blot analysis revealed that DBI/ACBP mRNA in the brain of nondiapause individual was much higher than that in the brain of diapausing insects. At early and middle stages of 6th instar larvae, the level of DBI/ACBP mRNA was higher in the midgut of diapause type than that in nondiapause type and low at late 6th instar larval stage and early pupal stage in both types. In the prothoracic gland (PG), DBI/ACBP expression appeared at a high level at middle and late stages of 6th larval instar in both nondiapause and diapause types, and declined after pupation. In vitro experiments revealed that DBI/ACBP mRNA in PG could be stimulated by synthetic H. armigera diapause hormone (Har-DH), suggesting that Har-DH may stimulate the PG to produce ecdysteroids by the DBI/ACBP signal pathway. By in vitro assay, we also found that FGIN-1-27, which has similar functions to DBI/ACBP in ecdysteroidogenesis, could induce PG ecdysteroidogenesis effectively, suggesting that DBI/ACBP regulates biosynthesis of ecdysteroids in PG. Thus, DBI/ACBP indeed plays a key role in metabolism and development in H. armigera.     

Genetic loss of diazepam binding inhibitor in mice impairs social interest

Neuropsychiatric disorders in which reduced social interest is a common symptom, such as autism, depression, and anxiety, are frequently associated with genetic mutations affecting γ‐aminobutyric acid (GABA)ergic transmission. Benzodiazepine treatment, acting via GABA type‐A receptors, improves social interaction in male mouse models with autism‐like features. The protein diazepam binding inhibitor (DBI) can act as an endogenous benzodiazepine, but a role for DBI in social behavior has not been described. Here, we investigated the role of DBI in the social interest and recognition behavior of mice. The responses of DBI wild‐type and knockout male and female mice to ovariectomized female wild‐type mice (a neutral social stimulus) were evaluated in a habituation/dishabituation task. Both male and female knockout mice exhibited reduced social interest, and DBI knockout mice lacked the sex difference in social interest levels observed in wild‐type mice, in which males showed higher social interest levels than females. The ability to discriminate between familiar and novel stimulus mice (social recognition) was not impaired in DBI‐deficient mice of either sex. DBI knockouts could learn a rotarod motor task, and could discriminate between social and nonsocial odors. Both sexes of DBI knockout mice showed increased repetitive grooming behavior, but not in a manner that would account for the decrease in social investigation time. Genetic loss of DBI did not alter seminal vesicle weight, indicating that the social interest phenotype of males lacking DBI is not due to reduced circulating testosterone. Together, these studies show a novel role of DBI in driving social interest and motivation.     

牦牛DBI基因的分子特征及其在乳腺组织中的表达与定位

地西泮结合抑制因子(Diazepam binding inhibitor,DBI)与酰基辅酶A具有高亲和力,在动物组织中广泛存在,与脂肪酸代谢、类固醇激素合成密切相关。为研究DBI基因的分子特征及该基因在乳腺发育中的作用,对牦牛DBI基因编码区进行克隆,进行生物信息学分析;采用实时荧光定量PCR (Quantitative real-time PCR,qPCR)、蛋白免疫印迹技术(Western blotting,WB)和免疫组织化学(Immunohistochemistry,IHC)方法对牦牛泌乳前期、泌乳期和干乳期的乳腺组织中DBI的相对表达量和表达部位进行研究。DBI序列分析显示：牦牛DBI基因编码区序列长264 bp,编码87个氨基酸残基,与牛的同源性高达99.62％;qPCR数据表明：牦牛泌乳前期乳腺组织中DBI基因的相对表达量显著高于泌乳期和干乳期(P< 0.05);WB结果显示：牦牛泌乳前期乳腺组织中DBI蛋白的表达量最高,干乳期次之,泌乳期最低(P< 0.05);IHC结果表明：不同发育时期的牦牛乳腺组织中DBI的表达部位并无明显差异,主要表达于乳腺腺泡上皮细胞、导管上皮细胞及小叶间质细胞。DBI在不同发育时期牦牛乳腺组织中的相对表达量具有明显差异(P< 0.05),揭示DBI可能参与牦牛乳腺发育的过程,这为进一步探究DBI基因在生物体中的作用提供相应的理论参考。     

Molecular biology of Diazepam Binding Inhibitor peptide

Complementary DNA (cDNA) clones containing the entire coding sequence for Diazepam Binding Inhibitor (DBI) peptide, a 10-kDa precursor of putative natural ligands of benzodiazepine recognition sites, were isolated from rat, human and cow libraries. The sequence of all these clones is highly conserved; however, the N-terminal sequence predicted by the human DBI clone differed from that of the other two clones. DBI cDNA, utilized as hybridization probe in Southern blot analysis, revealed that DBI of both human and rat might be encoded by a multiple family of 4–6 genes. Furthermore, we have used in situ chromosomes hybridization to map human DBI genes. The results indicate that a human DBI gene is localized on chromosome 2 and that three of the four hybridization signals detected by the human DBI probe are located on three other chromosomes. These findings raise a question as whether multiple DBI genes encode for different molecular forms of DBI. In the attempt to test this hypothesis, cow cDNA and human genomic libraries were screened with DBI cDNA. In this paper I report the isolation of clones from these libraries which, although hybridizing well to DBI cDNA, possess a low percentage of homology (46.7%), randomly distributed within the coding region of DBI cDNA. Whether or not these clones encode for peptides sharing the same physiological role as DBI is under investigation.Special issue dedicated to Dr. Erminio Costa     

Effect of dalargin on the content of endorphins, leucine-enkephalin ACTH and corticosterone of the blood of stressed rats

Stress caused by acute cysteamine duodenal ulcer was induced in Wistar male rats. All the endogenous opioides under study were involved in the stress-reaction mechanism. Protective dalargin (synthetic enkephalin analogue) administration revealed a tendency towards normalization of endorphin, L-enkephalin and ACTH blood levels.     

The role of abscisic acid and low temperature in chickpea (Cicer arietinum) cold tolerance. II. Effects on plasma membrane structure and function

The frost hardiness of many plants such as chickpea can be increased by exposure to low non-freezing temperatures and/or the application of abscisic acid (ABA), a process known as frost acclimation. Experiments were conducted to study the response over a 14 d period of enriched plasma membrane fractions isolated from chickpea plants exposed to low temperature and sprayed with exogenous ABA. Measurement of the temperatures inducing 50% foliar cell death (LT50), and subsequent statistical analysis suggest that, like many plants, exposure to low temperatures (5/-2 degrees C; day/night) induces a significant level (P <0.05) of frost acclimation in chickpea when compared with control plants (20/7 degrees C; day/night). Spraying plants with exogenous ABA also increased frost tolerance (P <0.05), but was not as effective as low temperature-induced frost acclimation. Both pre-exposure to low temperatures and pre-treatment with ABA increased the levels of fatty acid desaturation in the plasma membrane (measured as the double bond index, DBI). Exposure of chickpea plants to low temperatures increased the DBI by 15% at day 4 and 19% at day 14 when compared with untreated control plants. Application of ABA alone did not increase the DBI by more than 6% at any time; the effects of both treatments applied together was more than additive, inducing a DBI increase of 27% at day 14 when compared with controls. There was a good correlation (P <0.05) between the DBI and LT50, suggesting that the presence of more unsaturated lipid in the plasma membrane may prevent cell lysis at low temperatures. Both pre-exposure to low, non-freezing temperatures and pre-treatment with ABA induced measurable changes in membrane fluidity, but these changes did not correlate with changes in LT50, suggesting that physical properties of the plasma membrane other than fluidity are involved in frost acclimation in chickpea.     

Binding of the Adenosine A2 Receptor Ligand [3H]CGS 21680 to Human and Rat Brain: Evidence for Multiple Affinity Sites

A new radiolabeled adenosine receptor agonist, 2-[p-(2-carboxyethyl)phenethylamino]-5'-N-ethylcarboxamidoadeno sin e (CGS 21680), apparently specific for high-affinity binding sites of the A2 subtype in rat brain, was used to identify and pharmacologically characterize adenosine receptors in human brain. The binding of [3H]CGS 21680, as determined by standard radioligand binding technique in the presence of exogenously added adenosine deaminase, reached equilibrium after 40 min at 25 degrees C. In saturation studies, a single class of high-affinity binding sites with values for KD of 22 +/- 0.5 nM and Bmax of 444 +/- 63 fmol/mg of protein were observed. Similar binding characteristics were observed regardless of whether rapid filtration or centrifugation was used to separate bound versus free ligand. Of the 14 brain regions examined, [3H]CGS 21680 binding was highest in putamen, followed by globus pallidus and caudate nucleus. The level of [3H]CGS 21680 binding in these areas of basal ganglia was identical to 5'-N-[3H]ethylcarboxamidoadenosine ([3H]NECA) binding in the presence of 50 nM N6-cyclopentyladenosine (CPA). The rank order of agonist potencies as determined by a series of competition experiments was NECA greater than or equal to CGS 21680 greater than 2-chloroadenosine greater than N6-(R)-phenylisopropyladenosine greater than N6-cyclohexyladenosine greater than N6-(S)-phenylisopropyladenosine. This potency order was the same for the binding of [3H]CGS 21680 to rat, and of [3H]NECA in the presence of 50 nM CPA to rat and human, brain membranes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Subcellular Location and Neuronal Release of Diazepam Binding Inhibitor

Diazepam binding inhibitor (DBI), a peptide located in CNS neurons, blocks the binding of benzodiazepines and beta-carbolines to the allosteric modulatory sites of gamma-aminobutyric acid (GABAA) receptors. Subcellular fractionation studies of rat brain indicate that DBI is compartmentalized. DBI-like immunoreactivity is highly enriched in synaptosomes obtained by differential centrifugation in isotonic sucrose followed by a Percoll gradient. In synaptosomal lysate, DBI-like immunoreactivity is primarily associated with synaptic vesicles partially purified by differential centrifugation and continuous sucrose gradient. Depolarization induced by high K+ levels (50 mM) or veratridine (50 microM) released DBI stored in neurons of superfused slices of hypothalamus, hippocampus, striatum, and cerebral cortex. The high K+ level-induced release is Ca2+ dependent, and the release induced by veratridine is blocked by 1.7 microM tetrodotoxin. Depolarization released GABA and Met5-enkephalin-Arg6-Phe7 together with DBI. DBI is also released by veratridine depolarization, in a tetrodotoxin-sensitive fashion, from primary cultures of cerebral cortical neurons, but not from cortical astrocytes. Depolarization fails to release DBI from slices of liver and other peripheral organs. These data support the view that DBI may be released as a putative neuromodulatory substance from rat brain neurons.     

The heat-shock reaction is disturbed in a Drosophila virilis strain incapable of a neurohormonal stress reaction

Cellular stress response was investigated in two lines of D. virilis: wild type and line with disturbed neurohormonal stress-reaction. Analysis of proteins, synthesized in salivary glands of larvae of both lines under heat stress, revealed malfunction in heat shock reaction of mutant specimen. This malfunction expresses in decreased level of heat shock protein synthesis. Analysis of electrophoretic spectra of proteins from homogenates of imagoes of both lines maintained under normal conditions and those exposed to heat (38 degrees C, 60 min.) revealed correlation between protein spectrum and physiological state of the organism. Interlinear differences by proteins spectra in normal condition, controlled by a single gene (or by block of closely linked genes), were found. The question if there is a common genetic control for the neurohormonal stress-reaction and cellular stress response is discussed.     

Role of the substantia nigra in antiaggressive and anticonvulsant effects of diazepam during pharmacological kindling

Having set up pharmacological kindling in rats by repeated injection of picrotoxin at a subthreshold dose i.p., a study was made of activity produced by injecting the trypsinized protein fragment, T5 — diazepam binding inhibitor (DBI) in man at a dose of 10 µg — into the reticular section of the substantia nigra (SN). Severity of convulsive effects increased in animals under the influence of DBI and the anticonvulsant action of diazepam declined. Intranigral injection of DBI did not affect the threshold triggering attacking behavior in rats when current was passed through the electrically-conducting floor, nor did the antiaggressive action of diazepam change under these conditions. Findings would indicate that the benzodiazepine receptors of the SN contribute to suppression of epileptic response during kindling and to the production of anticonvulsive (but not antiaggressive) diazepam action.N. I. Pirogov Medical Institute, Odessa. Translated from Neirofiziologiya, Vol. 22, No. 4, pp. 482–485, July–August, 1990.     

An easy-to-use index of ecological integrity for prioritizing freshwater sites and for assessing habitat quality

Prioritizing and assessing the condition of sites for conservation action requires robust and ergonomic methodological tools. We focus here on prioritizing freshwater sites using two promising biodiversity indices, the Dragonfly Biotic Index (DBI) and Average Taxonomic Distinctness (AvTD). The AvTD had no significant association with either species richness or endemism. In contrast, the DBI was highly significantly associated with species richness and endemism, although the strengths of the associations were weak. These associations are related to how the sub-indices in the DBI are weighted, and how species are distributed geographically. Additionally, the DBI was found to be very useful for site selection based on its ability to measure ecological integrity, combined with level of threat, at multiple spatial scales. The AvTD was found to be useful principally for regional use. As the DBI is a low-cost, easy-to-use method, it has the additional use as a method for assessing habitat quality and recovery in restoration programs. The DBI operates at the species level, and is therefore highly sensitive to habitat condition and has great potential for environmental assessment and monitoring freshwater biodiversity and quality. Practical, worked examples of river restoration are given here. In view of the ease and versatility by which the DBI can be employed, we recommend its testing and possible integration into freshwater management and conservation schemes elsewhere in the world.     

Somatostatin down-regulates the expression and release of endozepines from cultured rat astrocytes via distinct receptor subtypes

Endozepines, a family of regulatory peptides related to diazepam-binding inhibitor (DBI), are synthesized and released by astroglial cells. Because rat astrocytes express various subtypes of somatostatin receptors (sst), we have investigated the effect of somatostatin on DBI mRNA level and endozepine secretion in rat astrocytes in secondary culture. Somatostatin reduced in a concentration-dependent manner the level of DBI mRNA in cultured astrocytes. This inhibitory effect was mimicked by the selective sst4 receptor agonist L803-087 but not by the selective sst1, sst2 and sst3 receptor agonists L779-591, L779-976 and L797-778, respectively. Somatostatin was unable to further reduce DBI mRNA level in the presence of the MEK inhibitor U0126. Somatostatin and the sst1, sst2 and sst4 receptor agonists induced a concentration-dependent inhibition of endozepine release. Somatostatin and the sst1, sst2 and sst4 receptor agonists also inhibited cAMP formation dose-dependently. In addition, somatostatin reduced forskolin-induced endozepine release. H89 mimicked the inhibitory effect of somatostatin on endozepine secretion. In contrast the PLC inhibitor U73122, the PKC activator PMA and the PKC inhibitor calphostin C had no effect on somatostatin-induced inhibition of endozepine release. The present data demonstrate that somatostatin reduces DBI mRNA level mainly through activation of sst4 receptors negatively coupled to the MAPK pathway, and inhibits endozepine release through activation of sst1, sst2 and sst4 receptors negatively coupled to the adenylyl cyclase/PKA pathway.