Direct selection of cybrids by streptomycin and valine resistance in tobacco

Summary Direct selection of cybrids by simultaneous selection for donor chloroplasts and for the recipient nuclei is described. Mesophyll protoplasts of two tobacco (Nicotiana tabacum) mutants, SR1 (streptomycin resistant) and Val^r-2 (valine resistant), were fused by polyethylene glycol treatment. Streptomycin resistance in the SR1 mutant is a maternally inherited chloroplast trait while valine resistance is a Mendelian (nuclear) digenic recessive character. The fused protoplast population was cultured and colonies were selected for resistance to valine (1 mM) and streptomycin (343 M). The efficiency of selection has been confirmed in three clones by demonstrating seed transmission of both streptomycin and valine resistances. In one subclone both streptomycin resistant and sensitive plants were obtained indicating that the streptomycin sensitive chloroplasts had not been totally eliminated by growth on the selective medium.     

Synthesis of alpha fetoprotein by immature rat uterus

Reported free and bound molecular forms of alpha fetoprotein detected in immature uterine cytosol could be due to either selective uptake from the serum and/or intracellular synthesis by this tissue. In this study immature rat uterus synthesized initially immunounreactive bound alpha fetoprotein, which becomes immunoreactive after treatment with 0.4M KCl, but failed to synthesize free alpha fetoprotein. This indicates that bound alpha fetoprotein is not a conversion product of the free form, and suggests a relationship between alpha fetoprotein synthesis and uterine growth and development.     

Protective effects of recombinant 53-kDa protein of Trichinella spiralis on acute lung injury in mice via alleviating lung pyroptosis by promoting M2 macrophage polarization

Trichinella spiralis represents an effective treatment for autoimmune and inflammatory diseases. The effects of recombinant T. spiralis (TS) 53-kDa protein (rTsP53) on acute lung injury (ALI) remain unclear. Here, mice were divided randomly into a control group, LPS group, and rTsP53 + LPS group. ALI was induced in BALB/c mice by LPS (10 mg/kg) injected via the tail vein. rTsP53 (200 µl; 0.4 μg/μl) was injected subcutaneously three times at an interval of 5 d before inducing ALI in the rTsP53+LPS group. Lung pathological score, the ratio and markers of classic activated macrophages (M1) and alternatively activated macrophages (M2), cytokine profiles in alveolar lavage fluid, and pyroptosis protein expression in lung tissue were investigated. RTsP53 decreased lung pathological score. Furthermore, rTsP53 suppressed inflammation by increasing IL-4, IL-10, and IL-13. There was an increase in alveolar M2 macrophage numbers, with an increase in CD206 and arginase-1-positive cells and a decrease in alveolar M1 markers such as CD197 and iNOS. In addition, the polarization of M2 macrophages induced by rTsP53 treatment could alleviate ALI by suppressing lung pyroptosis. RTsP53 was identified as a potential agent for treating LPS-induced ALI via alleviating lung pyroptosis by promoting M2 macrophage polarization.     

In Vivo Microdialysis Evidence for Transient Dopamine Release by Benzazepines in Rat Striatum

Abstract: The effects of benzazepine derivatives on extracellular levels of dopamine (DA) and l -3,4-dihydroxyphenylacetic acid (DOPAC) in the dorsal striatum of freely moving rats were studied using in vivo microdialysis. Direct injection of SKF-38393 (0.5 or 1.5 µg/0.5 µl), a selective D₁ receptor agonist, into the striatum through a cannula secured alongside a microdialysis probe produced a rapid dose-dependent transient increase in striatal DA efflux and a more gradual reduction in efflux of DOPAC. The rapid increase in DA efflux was not affected by infusion of tetrodotoxin (TTX; 2 µ M ) or Ca²⁺-free Ringer's solution and occurred after either enantiomer of SKF-38393. A TTX-insensitive increase in DA level similar to that induced by SKF-38393 was also seen after other benzazepines acting as agonists (SKF-75670 and SKF-82958, each 1.5 µg in 0.5 µl) and antagonists (SCH-23390, 1.5 µg in 0.5 µl) at the D₁ receptor and after (+)-amphetamine. These effects were inhibited by infusion of nomifensine (100 µ M ). It is concluded that the transient increases in striatal DA efflux seen after intrastriatal injection of SKF-38393 and other benzazepines are not mediated by presynaptic D₁ receptors but by an amphetamine-like action on the dopamine transporter.     

Long-Term GABA Treatment Elicits Supersensitivity of Quisqualate-Preferring Metabotropic Glutamate Receptor in Cultured Rat Cerebellar Neurons

Abstract: In primary cultures of rat cerebellar granule neurons, GABA treatment (50 μ M , 7 days) caused a withdrawal supersensitivity selective for the metabotropic glutamate receptors that mainly prefer l -glutamate, quisqua- late and, to a lesser extent, kainate. The withdrawal supersensitivity was absent when 10 μ M SR-95531 was coadministered with GABA during the treatment period, an event that suggests the GABA_A receptors primarily produced the GABA treatment effect. This was supported further by the inability of baclofen treatment to mimic completely the treatment effect of GABA. Withdrawal from 7 days of baclofen treatment only produced a slight increase in the metabotropic effect of l -glutamate and carbachol. In addition, in untreated neurons, baclofen had no acute effect, whereas GABA inhibited the effect of l -glutamate and carbachol. The inhibitory effect of GABA was reversed by SR-95531 and was absent in neurons treated with GABA. These observations suggest the involvement of GABA_A receptors and the apparent development of tolerance to GABA, respectively. Also, dependence on GABA may have occurred; the metabotropic effects of glutamate, kainate, and quisqualate were not altered in neurons maintained with GABA treatment.     

l-trans-Pyrrolidine-2,4-Dicarboxylic Acid-Evoked Striatal Glutamate Levels Are Attenuated by Calcium Reduction, Tetrodotoxin, and Glutamate Receptor Blockade

Abstract: l - trans -Pyrrolidine-2,4-dicarboxylic acid ( l - trans -PDC) reverses plasma membrane glutamate transporters and elevates extracellular glutamate levels in vivo. We investigated the possibility that l - trans -PDC-stimulated glutamate levels are mediated partially by increases in transsynaptic activity. Therefore, the degree to which l - trans -PDC-evoked glutamate levels depend on calcium, sodium-channel activation, and glutamate-receptor activation was investigated by infusing via reverse microdialysis (a) 0.1 m M calcium, (b) 1 µ M tetrodotoxin, a selective blocker of voltage-dependent sodium channels, (c) R (−)-3-(2-carboxypiperazin-4-yl)propyl-1-phosphonic acid (CPP), a selective NMDA-receptor antagonist, or (d) LY293558, a selective α-amino-3-hydroxy-5-methylisoxazole-4-propionate antagonist. In separate experimental groups, l - trans -PDC-evoked glutamate levels were reduced significantly by 55% in the presence of 0.1 m M calcium and by 46% in the presence of tetrodotoxin. Additionally, CPP and LY293558 significantly attenuated l - trans -PDC-evoked glutamate levels without altering basal glutamate levels. These data suggest that glutamate transporter reversal by l - trans -PDC initially elevates extracellular glutamate levels enough to stimulate postsynaptic glutamate receptors within the striatum. It is proposed that glutamate-receptor stimulation activates a positive feedback loop within the basal ganglia, leading to further glutamate release from corticostriatal and thalamostriatal afferents. Therefore, either extracellular striatal calcium reduction or tetrodotoxin perfusion leads to decreased action potential-dependent glutamate release from these terminals. In addition, blocking glutamate receptors directly reduces medium spiny neuronal firing and indirectly attenuates corticostriatal and thalamostriatal activity, resulting in an overall depression of l - trans -PDC-stimulated glutamate levels.     

In Vivo Striatal Dopamine Release by M1 Muscarinic Receptors Is Induced by Activation of Protein Kinase C

Islet-activating protein was unilaterally microinjected into rat striatum, and a dialysis cannula was implanted into the same area under anesthesia. After 2 days, various agents were perfused continuously into the striatum through the dialysis membrane, under freely moving conditions. Islet-activating protein (2 micrograms/2 microliters) treatment alone did not change in vivo striatal dopamine (DA) release and metabolism, but completely abolished the increase of striatal DA release evoked in vivo by the M1-selective agonist McN-A-343 (10(-7) M). Forskolin (10(-5) M), an adenylate cyclase activator, increased DA release and showed an additive effect on the DA release evoked by McN-A-343. Polymyxin B, a rather selective inhibitor of protein kinase C, decreased DA release and completely blocked the effect of McN-A-343. These results suggest that in vivo striatal DA release elicited by M1 muscarinic receptors is coupled with interaction with a Go protein and is induced by activation of protein kinase C.     

CTLA-4Ig immunotherapy of obesity-induced insulin resistance by manipulation of macrophage polarization in adipose tissues

It has been established that obesity alters the metabolic and endocrine function of adipose tissue and, together with accumulation of adipose tissue macrophages, contributes to insulin resistance. Although numerous studies have reported that shifting the polarization of macrophages from M1 to M2 can alleviate adipose tissue inflammation, manipulation of macrophage polarization has not been considered as a specific therapy. Here, we determined whether cytotoxic T-lymphocyte-associated antigen-4IgG1 (CTLA-4Ig) can ameliorate insulin resistance by induction of macrophages from proinflammatory M1 to anti-inflammatory M2 polarization in the adipose tissues of high fat diet-induced insulin-resistant mice. CTLA4-Ig treatment prevented insulin resistance by changing gene expression to M2 polarization, which increased the levels of arginase 1. Furthermore, flow cytometric analysis confirmed the alteration of polarization from CD11c (M1)- to CD206 (M2)-positive cells. Concomitantly, CTLA-4Ig treatment resulted in weight reductions of epididymal and subcutaneous adipose tissues, which may be closely related to overexpression of apoptosis inhibitors in macrophages. Moreover, proinflammatory cytokine and chemokine levels decreased significantly. In contrast, CCAAT enhancer binding protein α, peroxisome proliferator-activated receptor γ, and adiponectin expression increased significantly in subcutaneous adipose tissue. This novel mechanism of CTLA-4lg immunotherapy may lead to an ideal anti-obesity/inflammation/insulin resistance agent.     

Prostaglandin E(2)-induced interleukin-6 release by a human airway epithelial cell line

Human airway epithelial cell release of interleukin (IL)-6 in response to lipid mediators was studied in an airway cell line (BEAS-2B). Prostaglandin (PG) E(2) (10(-7) M) treatment caused an increase in IL-6 release at 2, 4, 8, and 24 h. IL-6 release into the culture medium at 24 h was 3,396 +/- 306 vs. 1,051 +/- 154 pg/ml (PGE(2)-treated cells vs. control cells). PGE(2) (10(-7) to 10(-10) M) induced a dose-related increase in IL-6 release at 24 h. PGF(2 alpha) (10(-6) M) treatment caused a similar effect to that of PGE(2) (10(-7) M). PGE(2) analogs with relative selectivity for PGE(2) receptor subtypes were studied. Sulprostone, a selective agonist for the EP-3 receptor subtype had no effect on IL-6 release. 11-Deoxy-16,16-dimethyl-PGE(2), an EP-2/4 agonist, and 17-phenyl trinor PGE(2), an agonist selective for the EP-1 > EP-3 receptor subtype (10(-6) to 10(-8) M), caused dose-dependent increases in IL-6 release. 8-Bromo-cAMP treatment resulted in dose-related increases in IL-6 release. RT-PCR of BEAS-2B cell mRNA demonstrated mRNA for EP-1, EP-2, and EP-4 receptors. After PGE(2) treatment, increases in IL-6 mRNA were noted at 4 and 18 h. Therefore, PGE(2) increases airway epithelial cell IL-6 production and release.     

Influence of Co2+, Ni2+ and Fe2+ on the production of tetrapyrroles by Methanosarcina barkeri

Summary The selective formation of three tetrapyrroles, Co-containing corrinoids, Ni-containing factor F₄₃₀ and Fe-containing cytochromes (haems) by Methanosarcina barkeri Fusaro (DSM 804) was achieved as a function of the concentrations of Co²⁺, Ni²⁺ and Fe²⁺ in a methanol minimmum medium. It was found that about 70% of the total tetrapyrroles synthesized was excreted into the culture supernatant. Hence, the continuous production of tetrapyrroles in a fixed-bed reactor (supporter: porous diatomaceous clay) was carried out at a dilution rate of 10 day^-1 (850 ml medium/85 ml column/day). The effluent discharged from the reactor contained the excreted tetrapyrroles, the concentrations of which were dependent upon the Co²⁺, Ni²⁺ and Fe²⁺ concentrations in the feed medium. The maximum productivities from the reactor (1 l basis) were 52 M corrinoids/day, 24 M F₄₃₀/day and 8 M haems/day, respectively.     

Synthesis and antimuscarinic activity of a series of 4-(1-Imidazolyl)-2,2-diphenylbutyramides: discovery of potent and subtype-selective antimuscarinic agents.

In a study directed toward the development of new, selective agents with potential utility in the treatment of altered smooth muscle contractility and tone, for example, as seen in urinary incontinence associated with bladder muscle instability, a series of 4-(1-imidazolyl)-2,2-diphenylbutyramide derivatives was prepared. These compounds were examined for M1, M2, and M3 muscarinic receptor subtype selectivity in isolated tissue assays. The compounds that showed potency and/or selectivity in these tests were further evaluated for in vivo anticholinergic effects on various organs and tissues, including urinary bladder, salivary gland, and eye in rats. The structure activity relationships for the series of 4-(1-imidazolyl)-2,2-diphenylbutyramide derivatives are also discussed. This study led to the identification of 4-(2-methyl-1-imidazolyl)-2,2-diphenylbutyramide (KRP-197) as a candidate drug for the treatment of urinary bladder dysfunction.     

Isolation,Culture and Callus Formation of lpomoea batatas Protoplasts

Numerous viable protoplasts from stem callus cells of Ipomoea batatas tissue culture have been isolated by enzyme treatment involving cellulase EA3 867 (2.0%), CaC12·2H2O (20 mM) and mineral constituent of medium A at pH5.4 in 0.8 M mannitol in 5 hours at 25±1℃. The protoplasts were cultured at a density of 1-2 × 105/ml in solid agar medium E supplemented with 2, 4-D (0.1mg/l) and kinetin (0.1 mg/l), or NAA (0.3 mg/l) and kinetin (0.1 mg/l) in petri dishes, and placed in a controlled growth cabinet maintained at 27 ℃, and illuminated with floureseent light. They regenerated new cell wails after 7 days of culture. The first cell division was observed after 10 days. Ceil division continued thereafter, and after 40 days of culture small white calli (size about 0.2–0.3 mm) were visible in the petri dishes small calli were inoculated in the same nutrients as the protoplasts culture media, but without mannitol. They developed into large calli.     

Role of nitric oxide in post-ischemic gingival hyperemia in anesthetized dogs

The possible involvement of nitric oxide (*NO) in the preservation of blood flow to the canine gingiva after compression of gingival tissue was studied. Gingival blood flow, gingival tissue oxygen partial pressure (PO2), external carotid arterial blood pressure and external carotid arterial blood flow were monitored before, during, and after compression of gingival tissue in the presence and absence of the nitric oxide synthase inhibitor, Nomega-nitro-L-arginine-methyl-ester (L-NAME). Compression of gingival tissue resulted in an immediate decrease in gingival blood flow and tissue PO2. After the compression of gingival tissue, hyperemia was observed in the gingiva, which depended on the duration of ischemia. Gingival tissue PO2 slowly recovered during hyperemia. Pretreatment with L-NAME (60 mg/kg, i.a.) significantly suppressed reactive hyperemia in gingival tissue. The L-NAME-suppressed reactive hyperemia was partially reversed by treatment with L-arginine (60 mg/kg, i.a.). In addition, *NO was detected using an *NO selective electrode during interruption of blood flow and during reactive hyperemia in the gingiva. These results suggest that *NO contributes to the vasodilation during reactive hyperemia in gingival tissue, and aids in the maintenance of homeostasis in gingival circulation.     

Ghrelin reduces cerebral ischemic injury in rats by reducing M1 microglia/macrophages

The purpose of this study was to investigate the effect of Ghrelin on the polarization of microglia/ macrophages after cerebral ischemia (CI) in rats. 60 wild-type SD rats were randomly divided into sham group, CI group, CI+Ghrelin group, 20 rats in each group. The modified Longa suture method was used to establish the middle cerebral artery occlusion (MCAO) model in rats. Before surgery, Ghrelin was injected subcutaneously (100 μg/kg, twice a day) for 4 consecutive weeks. After modeling, neurological function scores were performed with three behavioral experiments: mNSS score, Corner test, and Rotarod test, to evaluate the recovery of neurological function after Ghrelin treatment. At the same time, the brain tissues were collected and stained with 2,3,5- triphenyltetrazolium chloride (TTC) to detect the cerebral infarct volume. RT-qPCR was used to detect the expression of TNF-α and IL-1β in the ischemic brain tissue, and the TUNEL staining was used to detect the apoptosis of brain tissue. Flow cytometry was used to detect the percentage of M1 type microglia/macrophages which were isolated by trypsin digestion of fresh cerebral cortex. Then, the Western blotting and immunofluorescence method were used to detect the phosphorylation level of AKT (P-AKT) and AKT. Compared with the CI group, the neurological function of the rats in the CI+Ghrelin group was dramatically improved, and the cerebral infarction area was dramatically reduced. At the same time, the expression of TNF-α and IL-1β in the ischemic brain tissue of rats in the CI+Ghrelin group decreased, and the apoptotic cells in the brain tissue also decreased. Compared with the CI treatment group, the activation of M1 microglia/macrophages in the cortex of the ischemic side of the infarct and the peri-infarct area in the CI+Ghrelin group was dramatically inhibited. At the same time, the ratio of P-AKT/AKT of the brain tissue in the CI+Ghrelin group was dramatically higher than that of the CI group. In the rat cerebral ischemia model, Ghrelin can promote the repair of brain damage and the recovery of neurological function after ischemia. Its mechanism may be related to activating AKT to selectively reduce M1 microglia/macrophages, reducing inflammation and cell apoptosis in brain tissue.Key words: Cerebral ischemia, ghrelin, microglia/macrophage     

Functional Differentiation of Multiple Dopamine D1-Like Receptors by NNC 01-0012

Abstract: Although members of the multiple vertebrate/mammalian dopamine D1 receptor gene family can be selectively classified on the basis of their molecular/phylogenetic, structural, and tissue distribution profiles, no subtype-specific discriminating agents have yet been identified that can functionally differentiate these receptors. To define distinct pharmacological/functional attributes of multiple D1-like receptors, we analyzed the ligand binding profiles, affinity, and functional activity of 12 novel NNC compounds at mammalian/vertebrate D1/D1A and D5/D1B, as well as vertebrate D1C/D1D, dopamine receptors transiently expressed in COS-7 cells. Of all the compounds tested, only NNC 01-0012 displayed preferential selectivity for vertebrate D1C receptors, inhibiting [³H]SCH-23390 binding with an estimated affinity (∼0.6 n M ) 20-fold higher than either mammalian/vertebrate D1/D1A or D5/D1B receptors or the D1D receptor. Functionally, NNC 01-0012 is a potent antagonist at D1C receptors, inhibiting to basal levels dopamine (10 µ M )-stimulated adenylyl cyclase activity. In contrast, NNC 01-0012 (10 µ M ) exhibits weak antagonist activity at D1A receptors, inhibiting only 60% of maximal cyclic AMP production by dopamine, while acting as a partial agonist at vertebrate D1B and D1D receptors, stimulating adenylyl cyclase activity by ∼33% relative to the full agonist dopamine (10 µ M ), an effect that was blocked by the selective D1 receptor antagonist NNC 22-0010. These data clearly suggest that the benzazepine NNC 01-0012, despite lacking the N -methyl residue in the R3 position, is a selective and potent D1C receptor antagonist. Moreover, the differential signal transduction properties exhibited by NNC 01-0012 at these receptor subtypes provide further evidence, at least in vertebrates, for the classification of the D1C receptor as a distinct D1 receptor subtype.     

Structure of the mannose-rich oligosaccharide chains of concanavalin A-binding glycopeptides derived from beef brain glycoproteins

Abstract: A neutral, mannose-rich, concanavalin A (Con A)-binding glycopeptide fraction was obtained by proteolytic digestion of defatted beef brain tissue. Hydrazinolysis followed by gel filtration of the reaction products provided three oligosaccharides. A portion of each oligosaccharide was treated by exhaustive digestion with α-mannosidase. Another portion was subjected to selective acetolysis of Manαl-6Man linkages, providing two fragments that were recovered by gel filtration. The structure of the intact oligosaccharides, as well as the fragments obtained by selective acetolysis and enzymatic treatment, were resolved by gas-liquid chromatographic-mass spectrometric analysis. The structures of the three oligosaccharides were: (a) Manαl-2Manαl-6(Manαl -3)Manαl-6(Manαl-2Manαl-2Manαl 3)Manβ1-4- N -acetylglucosamine (GlcNAc)β - 4N- acetylglucosaminitol (GlcOLNAc); (b) Manαl -2Manαl -6(Manαl -3)Manαl-6(Manαl-2Manαl-3)-Manβ1-4GlcNAcβl -4GlcOLNAc; and (c) Manαl -6(Manαl-3) Manαl - 6(Manαl - 3)Manβl -4GlcNAc-βl - 4GlcOLNAc. These structures account for 15–20% of the glycoprotein-carbohydrate of whole beef brain and most of the oligosaccharides that demonstrate a high affinity for Con A. In view of the large number of Con A-binding glycoproteins in brain tissue, it appears that many of these different glycoproteins must contain structurally identical oligosaccharides.     

Initiation, Growth and Nuclear Characteristics of Tissue Cultures of Paeonia suffruticosa

Tissue cultures of the garden paeony, Paeonia suffruticosa have been established using explants of etiolated stems. Callus formation was induced on agar-solidified media containing ammonium ions or amino acids together with the hormones 2,4-dichlorophenoxyacetic acid and kinetin, but not on media lacking the reduced nitrogen component. Attempts to induce callus from explants from green plants were completely unsuccessful and were characterized by the production of intense brown colorations, both of the explant and the medium. Subcultured tissue without the added hormones produced roots, both on solid and liquid media. Growth was tested on a range of liquid media, SH/2, SH, SH × 2 and SH—M, containing 1250, 2500, 5000 and 2500 mg/l potassium nitrate. The SH—M medium also contained 1650 mg/l ammonium nitrate. Growth measured as increased fresh weight was best in the SH/2, SH and SH—M media and was curtailed in the SH × 2 medium. Soluble protein content was highest at the lowest nitrogen concentration. A histochemical comparison of tissue grown on the SH/2, SH—M and SH—M lacking hormones showed that the cells in all the cultures remained diploid while differences were established in total nuclear protein, measured using the ninhydrin-Schiff procedure. Nuclei from SH—M grown cells have a higher protein content than those from the SH/2 medium while cells from the SH—M medium lacking hormones show a further increase in nuclear protein. This raises the question whether this change in nuclear protein is related to the morphogenesis of roots which occurs in this medium.     

On the mechanism of sequence iron-hematein stains

Summary As a prerequisite for the histochemical study of sequence iron-hematoxylin stains the iron alum-acidified hematein procedure was developed which does not require differentiation.Histochemical blocking and extraction procedures demonstrated that carboxyl and hydroxyl groups are essential for the binding of cationic iron.The iron alum-Prussian blue reaction colored collagen, reticulum fibers and basement membranes more intensely than muscle fibers. Treatment of tissue sections mordanted in iron alum with the acidified hematein solvent resulted in practically complete removal of iron from all tissue structures. It must therefore be concluded that the selective staining of muscle fibers, terminal bars and related structures with sequence iron-hematein stains is not due to high affinity of iron for these tissue components.Observations by R. and M. Heidenhain on sequence hematoxylin-potassium dichromate and hematoxylin-alum stains and data from modern textile chemistry indicate that the staining patterns obtained with metal-hematein sequence stains are determined by the affinity of the hematein moiety for certain tissue structures.     

The Effects of l-Glutamate and trans-(±)-1-Amino-1,3-Cyclopentanedicarboxylate on Phosphoinositide Hydrolysis Can Be Pharmacologically Differentiated

Abstract: The excitatory amino acid analogues l -glutamate ( l -Glu), l -aspartate ( l -Asp), d -Asp, and trans -(±)-1-amino-1,3-cyclopentanedicarboxylate ( trans -ACPD) stimulate the hydrolysis of phosphoinositides (PI). In the present studies, the effects of noncompetitive and competitive inhibitors on PI hydrolysis stimulated by excitatory amino acid analogues were examined. When agonist and inhibitor were added simultaneously to hippocampal tissue, the noncompetitive inhibitor l -2-amino-3-phosphonopropionate ( l -AP3) did not block the effects of l -Glu, l -Asp, or d -Asp at concentrations that block the effects of trans -ACPD by more than 80%. When tissue was pre-incubated with l -AP3, the effects of l -Glu, l -Asp, or d -Asp were blocked (IC₅₀ values between 65 and 210 µ M ). Unlike l -AP3, l -aspartate-β-hydroxamate ( l -AβHA) inhibited PI hydrolysis stimulated by trans -ACPD, l -Glu, l -Asp, or d -Asp when agonist and inhibitor were added simultaneously in hippocampus; its effects were not time-dependent. In cerebellum, both l -AP3 and l -AβHA had agonist activity. Inhibition by the recently identified competitive inhibitor (+)-α-methyl-4-carboxyphenylglycine [(+)-MCPG] of PI hydrolysis was also examined. (+)-MCPG blocked PI hydrolysis stimulated by trans -ACPD, l -Asp, or d -Asp in both hippocampus and cerebellum (IC₅₀ values between 220 and 1,700 µ M ). The effects of (+)-MCPG were consistent with a competitive mechanism of action. (+)-MCPG (up to 3 m M ) blocked PI hydrolysis stimulated by l -Glu by less than 25% in both hippocampus and cerebellum.