Dopamine D1 and D2 Receptors and Their Signal System Present in Coated Vesicles Prepared from Bovine Striatal Tissue

Abstract: Coated vesicles (CVs) isolated from bovine striatal tissue were examined to determine whether they are associated with dopamine signal systems consisting of dopamine D₁ and D₂ receptors, G proteins, and adenylate cyclase. Dopamine receptors in CVs were characterized by a dopamine D₁ receptor antagonist, [³H]SCH 23390, and a dopamine D₂ receptor antagonist, [³H]-spiroperidol. The bindings of both ligands were specifically saturable and reversible with a dissociation constant ( K _D) of 0.65 and 0.5 n M , respectively. Dopaminergic antagonists and agonists inhibited the specific bindings of [³H]SCH 23390 and [³H]spiroperidol in a stereoselective and concentration-dependent manner with an appropriate rank order potency for dopamine D₁ or D₂ receptors. The regulations of the agonist binding by guanyl-5-ylimidodiphosphate were observed. ADP ribosylation of the CVs with [³²P]NAD demonstrated predominant labeling of bands of M_r 47,000–52,000, 42,000–45,000, and 40,000-39,000, which corresponded to the known molecular weights of the α subunits of G_s and G_i proteins. The presence of α and β subunits of G proteins in the CVs was also confirmed by immunoblotting assay. Adenylate cyclase activity, which was stimulated by SKF 38393 and inhibited by dopamine D₂ receptor agonists, was present in the CVs. These findings suggest that the dopamine D₁ and D₂ receptors in the CVs couple with adenylate cyclase via G_s/G_i protein.     

Developmental Characterization of Thymosin β4 and β10 Expression in Enriched Neuronal Cultures from Rat Cerebella

Abstract: The β₄ and β₁₀ thymosins are G-actin binding proteins that exhibit complex patterns of expression during rat cerebellar development. Their expression in vivo is initially high in immature granule cells and diminishes as they migrate and differentiate, ceasing altogether by postnatal day 21. Thymosin β₄ is present in a subset of glia throughout postnatal development, and its synthesis is also induced in maturing Bergmann glia. In contrast, thymosin β₁₀ is only present at very low levels in a very small subpopulation of glia in the adult cerebellum. To study the factors differentially regulating expression of the β-thymosins, we characterized their patterns of expression in primary cultures of rat cerebellum. Both β-thymosins were initially expressed in granule cells, although expression, especially of thymosin β₄, was truncated compared with the in vivo time course. As in vivo, thymosin β₄ was synthesized at much higher levels in astrocytes and microglia in cultures from postnatal cerebellum than was thymosin β₁₀. Unlike in vivo, the latter was expressed in glia cultured from fetal cerebellum. The similarities between the in vivo and in vitro expression of the β-thymosins show that modulation of tissue culture conditions could be used to identify factors regulating β-thymosin expression in vivo. The differences would identify regulatory mechanisms that are not evident from the in vivo studies alone.     

Dose-related effects of 17βoestradiol (E2) on liver weight, plasma E2, protein, calcium and thyroid hormone levels, and measurement of the binding of thyroid hormones to vitellogenin in rainbow trout, Salmo gairdneri Richardson

Administration of 17β-oestradiol (E₂) to rainbow trout, in the form of hydrogenated coconut oil implants produced a stable, long-term elevation in plasma E₂ levels. The elevation was doserelated (over the range 1–10mg kg-¹ body weight) both 4 and 8 weeks after implantation. Dose-related increases were also observed with respect to liver weight-body weight ratios and plasma protein levels. Plasma T₃ and total calcium levels were depressed and elevated, respectively, by E₂ treatment but the responses were not linearly related to the dose of E₂ administered; there was no significant effect of E₂ on plasma T₄ levels.
E₂ induced a shift in the binding of T₃ to plasma proteins, with T₃ binding to smaller molecular weight proteins; neither T₄ nor T₃ bound to vitellogenin which was present at high levels in the plasma of E₂-treated fish.     

MICROHETEROGENEITY OF BRAIN CYTOPLASMIC AND SYNAPTOPLASMIC ACTINS

Abstract— Actin present in whole rat brain cytoplasm and in synaptosomes was purified by DNase I affinity chromatography. By use of two-dimensional gels and one-dimensional isoelectric focusing gels, brain actin was shown to be composed of two isomeric forms. By comparison with muscle actins, brain actins were identified as the β and γ isomers. Muscle type α actin is not present in brain. Synaptosomal protein with high affinity for DNase I is primarily composed of β and γ actin, however, two minor synaptosomal proteins, S₁ and S₂, with similar DNase I affinity were also isolated. S₁1 and S₂ have the same apparent molecular weight as whole brain actin, are more acidic than the major actin forms and are distinct from a actin. Relative to β and γ actin, the content of S₁ and S₂ is 3-fOld greater in synaptosomes when compared to similar non-synaptosomal species. The results demonstrate heterogeneity of brain actins and compartmentalization of brain proteins with high affinity for DNase I at the synapse. It was also shown that tubulin has selective affinity for the DNase I-actin complex.     

Partial nucleotide sequence of a bovine major histocompatibility class II DRβ-like gene

Summary. A genomic clone containing a bovine DRβ-like gene, BoDRβ II , was isolated from a bovine genomic library and characterized by restriction enzyme mapping and nucleotide sequencing of exon regions. Alignment of this sequence with the human DRβ cDNA sequence allowed identification of exon/intron boundaries. The clone contains a 13.3-kilobase (kb) insert, and includes 1.3kb 5' of the β₁ exon and 6.7kb 3' of the transmembrane (TM) exon. Open reading frames were present in the BoDRβ exons sequenced. Nucleotide identities of the bovine β₁, β₂ and TM exons with the corresponding human DRβ exons were 73, 91 and 83%, respectively. Nucleotide identities of these exons with those of a previously described bovine DRβ-like pseudogene, BoDRβ I , were 69, 95 and 81%, respectively. Although a limited amount of sequence data was obtained for the intron regions, a 71% identity was found within a 514-nucleotide region immediately 3' to the β₂ exons in BoDRβ I and BoDRβ II . A series of GT residues followed by a longer series of GA residues began about 35 nucleotides 3' of the β₁ exon in both BoDRβ I and BoDRβ II .     

Chronic Ethanol Reduces Immunologically Detectable Gqα/11α in NG108–15 Cells

Abstract: The amyloid protein (βA₄) is found in the CNS of patients with Alzheimer's disease; however, the pathogenic role of this protein is not known. In the present study, a peptide fragment of βA₄βA₄ 25–35; Gly-Ser-Asn-Lys-Gly-Ala-Ile-Ile-Gly-Leu-Met-NH₂), which contains the conserved C-terminal sequence of substance P (X-Gly-Leu-Met-NH₂), and the neuropeptide substance P (SP) were examined for their ability to modulate nicotine-evoked secretion from cultured bovine adrenal chromaffin cells. Secretion of the released endogenous catecholamines was monitored by electrochemical detection after separation by HPLC. Secretion induced by 10⁻⁵ M nicotine was inhibited by SP and βA₄ 25–35. The IC₅₀ of SP and βA₄ 25–35 was 3 × 10⁻⁶ and 3 × 10⁻⁵ M , respectively. SP and βA₄ 25–35 both protected against nicotinic receptor desensitization. However, βA₄ 25–35 was ∼ 10-fold less effective than SP in its protective effect. The present work shows that βA₄ 25–35 can mimic the modulatory actions of SP on the nicotinic response of cultured bovine chromaffin cells, i.e., inhibition of the nicotinic response and protection against nicotinic desensitization. These modulatory actions may be associated with changes in nicotinic receptor levels reported to occur in Alzheimer's disease.     

Developmental changes in tomato fruit composition in response to water deficit and salinity

Processing tomato ( Lycopersicon esculentum Mill. cv. UC82B) plants were subjected to moderate levels of water deficit and salinity (Na₂SO₄/CaCl₂) in sand culture. Fruit water content and the relative contributions of organic and inorganic constituents to fruit solute potential (_Ψ) and soluble solids content were determined throughout development. Fruit _Ψ averaged –0.63, –0.86 and –0.77 MPa in the control, salinity and water deficit plants, respectively. Reduced net water import and maintenance of solute accumulation, irrespective of water import, accounted for the reductions in _Ψ of stressed fruits. Mineral ions (Na⁺, K⁺, Ca²⁺, Mg²⁺, Cl⁻ and SO^2-₄) contributed –0.31 MPa to _Ψ in salinized fruit, compared with –0.19 MPa in control and water deficit treatments. Changes in net carbon accumulation were not observed among treatments, despite considerable differences in fruit K⁺ status. Starch accumulation in immature fruit was increased and hexose accumulation was decreased by both salinity and water deficit. Maximum starch levels were negatively correlated with total fruit _Ψ, but were independent of fruit K⁺. Organic acid levels were generally higher throughout development in salinized plants, relative to control plants, and correlated with increased inorganic cation rather than anion accumulation in these fruits.     

Role of β-amylase in starch metabolism during soybean seed development and germination

Differences in starch metabolism during seed development and germination of two soybean [ Glycine max (L.) Merrill] genotypes with normal seed β-amylase activity ['Williams' ( Sp 1^b and 'Altona' ( Sp 1^b)] and two soybean genotypes with undetectable seed β-amylase activity ['Chestnut' ( Sp 1^au) and 'Altona' ( Sp 1)] were investigated. Starch and soluble sugar profiles were essentially the same during seed development and germination. Total amylase activity of Williams and Altona ( Sp 1^b) peaked just prior to seed maturity and then dropped off slowly; whereas, the total amylase activity of Chestnut and Altona ( sp 1) was very low throughout seed development and germination. The differences in amylase activity between Altona ( Sp 1 ^b) and Altona ( sp 1) was also seen in leaves. α-Amylase activity was similar in the four genotypes when β-amylase was inhibited with Hg²⁺ but was higher in the two genotypes with normal β-amylase activity when β-amylase was inhibited with heat plus Ca²⁺. Low levels of starch phosphorylase activity were detected throughout seed development and germination, and the activity was similar in three of the genotypes and higher in Altona ( sp 1).
The protein, oil and oligosaccharide contents of mature seeds of the four genotypes were similar. Altona ( sp 1 ^b) and ( sp 1), which appear to be near isogenic lines, were not different in any morphological character or yield.
Altona ( Sp 1 ^b) showed greater hydrolysis of soybean seed starch than Altona ( sp 1), but the evidence indicates that the mutation resulting in greatly reduced or missing β-amylase activity has no effect on starch metabolism of developing and germinating soybean seeds.     

Guanine Nucleotide Regulatory Proteins, Gq and Gi1/2, Mediate Platelet-Activating Factor-Stimulated Phosphoinositide Metabolism in Immortalized Hippocampal Cells

Abstract: Platelet-activating factor (PAF) may be a neuromodulator involved in neural cell differentiation, cerebral inflammation, and ischemia. The PAF receptor is a member of the G protein-coupled receptor superfamily. In the present study, we sought to define the specific G protein(s) that mediate PAF-stimulated phosphoinositide (PI) metabolism in an immortalized hippocampal cell line, HN33.11. PAF increased the production of ³H-labeled inositol phosphates (IPs) with EC₅₀ values of 1.2–1.5 n M . The effect of PAF on ³H-IPs formation was completely blocked by the PAF antagonist BN 50739 at a concentration of 300 n M . Pertussis toxin pretreatment attenuated PAF-stimulated ³H-IPs production by 20–30% ( p < 0.05). Consistent with a role for G_i1/2 in this response, antiserum against G_αi1/2 blocked the response to a similar degree. Pretreatment of permeabilized cells with G_αq/11 antiserum attenuated the response by 70% ( p < 0.05), suggesting a role for G_q/11 in mediating the PAF response in this cell line. Stimulation with PAF increased [α-³²P]-GTP binding to both G_αq and G_αi1/2 proteins. Moreover, specific [³H]PAF binding sites coprecipitated with G_αq and G_αi1/2 proteins. The results suggest that PAF-stimulated PI metabolism in HN33.11 cells is mediated by both G_q and G_i1/2 proteins.     

Repeated Reserpine Increases Striatal Dopamine Receptor and Guanine Nucleotide Binding Protein RNA

Abstract: In the present study the effects of repeated administration of reserpine on striatal dopamine receptor and guanine nucleotide binding protein mRNAs were determined. Twenty-four hours after seven consecutive daily injections of reserpine—a treatment that is known to produce functional sensitization of D₁ and D₂ dopamine receptors—the level of striatal D₁ dopamine receptor mRNA was unchanged. However, the level of mRNA for the G protein G_sα was increased by 127%. After extended reserpine treatment for 14 days, levels of both striatal D₁ DA receptor and G_sα mRNAs were elevated by 99 and 78%, respectively. Seven days of reserpine treatment also increased levels of mRNA of the striatal D₂ dopamine receptor and of G proteins G_i2α and G_oα by 200, 79, and 32%, respectively. After 14 days of reserpine treatment the level of striatal D₂ dopamine receptor mRNA was increased by twofold. In contrast, levels of the mRNAs coding for the G proteins G_i2α and G_oα were unchanged. These data suggest that dopamine receptors and their respective G proteins play important roles in the development of sensitization of striatal dopamine receptors during repeated reserpine treatment. Furthermore, the persistent increase in level of striatal G_sα mRNA suggests that this G protein is necessary to maintain supersensitivity of the striatal D₁ dopamine receptor system following long-term dopamine depletion.     

An mRNA Encoding a Putative GABA-Gated Chloride Channel Is Expressed in the Human Cardiac Conduction System

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

The Protein Activator Specific for the Enzymic Hydrolysis of GM2 Ganglioside in Normal Human Brain and Brains of Three Types of GM2 Gangliosidosis

Abstract: In order to understand the etiology of Type AB GM2 gangliosidosis, we have purified and characterized the activator protein (GM2 activator) specific for the enzymic hydrolysis of GM₂ ganglioside from normal human brain. The purified activator from human brain moved as one major protein band in various electrophoretic systems. We have also prepared the antiserum against this activator. The levels and the nature of GM₂ activator and β-hexosaminidase A were examined in the brains of five cases of GM₂. gangliosidosis—one Type B, two Type O, and two Type AB. We found that the levels of GM₂ activator in both Type B and Type O cases were markedly elevated, and that the two Type AB cases were the results of different causes. One case had a defective β hexosaminidase A and an elevated level of GM₂ activator. Although this defective β-hexosaminidase A could hydrolyze synthetic substrates, it was inactive in the cleavage of natural glycosphingolipids in the presence of the GM₂ activator. It could, however, hydrolyze asialo-GM₂ and GbOse₄Cer in the presence of sodium taurodeoxycholate. The other case had normal β-hexosaminidase A, but had a very low level of GM₂ activator when analyzed by in vitro assay, suggesting the deficiency of this activator. By immunoelectrophoresis, this case was found to be completely devoid of the protein that cross-reacts with the antiserum against the GM₂ activator.     

Regional Prostaglandin Levels in Cerebral Ischaemia

Abstract: Regional quantitative studies of brain prostaglandins (PG) in gerbils with bilateral carotid ligation have shown increases in PG2_α in all areas of ischaemia but with no increases in PGE₂. Pretreatment of animals with indomethacin (3 mg/kg) reduced this response, whereas dexamethasone (2.5 mg/kg) had no such effect. PGE₁ and thromboxane-B₂ were found not to be present in our preparation. The significance of these findings lies in the fact that both drugs, which are known to inhibit the development of ischaemic oedema, have now been shown to produce markedly different effects on prostaglandin levels. This may indicate either, that prostaglandins are not involved in is chaemic oedema formation, or, that the drugs have different mechanisms of action.     

Molecular Determinants of General Anesthetic Action: Role of GABAA Receptor Structure

Abstract: Using receptors expressed from mouse brain mRNA in Xenopus oocytes, we found that enhancement of type A γ-aminobutyric acid (GABA_A) receptor-gated Cl⁻ channel response is a common action of structurally diverse anesthetics, suggesting that the GABA_A receptor plays an important role in anesthesia. To determine if GABA_A receptor subunit composition influences actions of anesthetics, we expressed subunit cRNAs in Xenopus oocytes and measured effects of enflurane on GABA-activated Cl⁻ currents. Potentiation of GABA-activated currents by enflurane was dependent on the composition of GABA_A receptor protein subunits; the order of sensitivity was α₁β₁ > α₁β₁γ_2s=α₁β₁γ_2L > total mRNA. The results suggest that anesthetics with simple structures may act on the GABA_A receptor protein complex to modulate the Cl⁻ channel activity and provide a molecular explanation for the synergistic clinical interactions between benzodiazepines and general anesthetics.     

Functional Reconstitution of a Highly Purified μ-Opioid Receptor Protein with Purified G Proteins in Liposomes

Abstract: A μ-opioid receptor protein (μ-ORP) purified to homogeneity from bovine striatal membranes has been functionally reconstituted in liposomes with highly purified heterotrimeric guanine nucleotide regulatory proteins (G proteins). A mixture of bovine brain G proteins, predominantly G_oA, was used for most of the experiments, but some experiments were performed with individual pure G proteins, G_oA, G_oB, G_i1, and G_i2. Low K _m GTPase was stimulated up to 150% by μ-opioid receptor agonists when both μ-ORP and a G protein (either the brain G protein mixture or a single heterotrimeric G protein) were present in the liposomes. Stimulation by a selective μ-agonist was concentration dependent and was reversed by the antagonist (−)-naloxone, but not by its inactive enantiomer, (+)-naloxone. The μ selectivity of μ-ORP was demonstrated by the inability of δ and κ agonists to stimulate GTPase in this system. High-affinity μ-agonist binding was also restored by reconstitution with the brain G protein mixture and with each of the four pure G_i and G_o proteins studied. The binding of μ agonists is sensitive to inhibition by GTPγS and by sodium.     

Multiple Laminin Binding Proteins in Human Fetal Heart

The possibility of occurrence of laminin binding proteins in cardiac tissue under different stages of growth was examined by affinity chromatography of the soluble fraction of human fetal myocardial plasma membrane over Ln-Sepharose. A 67 kDa protein was isolated by elution with glycine/HCl buffer containing 1 M NaCl and visualized as a coomassie stainable band on SDS gel electrophoresis under reducing conditions. Dot blot assays of the radioiodinated protein revealed the binding of 67 kDa protein with high affinity to laminin in a cation independent manner. This protein appears to be present in relatively higher amounts in tissues from early stage fetus. The occurrence of cation dependent laminin binding proteins was also examined by affinity chromatography. Electrophoresis of the EDTA eluate under reducing conditions followed by silver staining showed two prominent bands with average molecular size 130 and 174 kDa which under non-reducing conditions appeared as two bands with average molecular weight of 115 and 135 kDa. Using radioiodinated protein in dot blot assays, its binding to Ln was found to be maximum in the presence of Mn⁺⁺ ions. Immunoblotting using anti-β₁ integrin antibodies showed that 115 kDa protein is a β₁ integrin suggesting the possibility of this protein belonging to the integrin group of receptors. The occurrence of multiple laminin binding proteins and the relative abundance of one of these proteins viz. the 67 kDa protein during early stages than in late stage tussue suggest a possible role for these proteins in cellular interactions with laminin during myocardial tissue development.     

RGS7 Attenuates Signal Transduction Through the Gαq Family of Heterotrimeric G Proteins in Mammalian Cells

Abstract: The RGS proteins are a recently discovered family of G protein regulators that have been shown to act as GTPase-activating proteins (GAPs) on the G_αi and G_αq subfamilies of the heterotrimeric G proteins. Here, we demonstrate that RGS7 is a potent GAP in vitro on G_αi1 and G_αo heterotrimeric proteins and that RGS7 acts to down-regulate G_αq-mediated calcium mobilization in a whole-cell assay system using a transient expression protocol. This RGS protein and RGS4 are reported to be expressed predominantly in brain, and in situ hybridization studies have revealed similarities in the regional distribution of RGS and G_αq mRNA expression. Our findings provide further evidence to support a functional role for RGS4 and RGS7 in G_αq-mediated signaling in the CNS.