Single and binge methamphetamine administrations have different effects on the levels of dopamine D2 autoreceptor and dopamine transporter in rat striatum. Chauhan, H; Killinger, BA; Miller, CV; Moszczynska, A International journal of molecular sciences
15
5884-906
2014
显示摘要
Methamphetamine (METH) is a central nervous system psychostimulant with a high potential for abuse. At high doses, METH causes a selective degeneration of dopaminergic terminals in the striatum. Dopamine D2 receptor antagonists and dopamine transporter (DAT) inhibitors protect against neurotoxicity of the drug by decreasing intracellular dopamine content and, consequently, dopamine autoxidation and production of reactive oxygen species. In vitro, amphetamines regulate D2 receptor and DAT functions via regulation of their intracellular trafficking. No data exists on axonal transport of both proteins and there is limited data on their interactions in vivo. The aim of the present investigation was to examine synaptosomal levels of presynaptic D2 autoreceptor and DAT after two different regimens of METH and to determine whether METH affects the D2 autoreceptor-DAT interaction in the rat striatum. We found that, as compared to saline controls, administration of single high-dose METH decreased D2 autoreceptor immunoreactivity and increased DAT immunoreactivity in rat striatal synaptosomes whereas binge high-dose METH increased immunoreactivity of D2 autoreceptor and had no effect on DAT immunoreactivity. Single METH had no effect on D2 autoreceptor-DAT interaction whereas binge METH increased the interaction between the two proteins in the striatum. Our results suggest that METH can affect axonal transport of both the D2 autoreceptor and DAT in an interaction-dependent and -independent manner. | Western Blotting | 24717411
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An adenylyl cyclase signaling pathway predicts direct dopaminergic input to vestibular hair cells. Drescher, MJ; Cho, WJ; Folbe, AJ; Selvakumar, D; Kewson, DT; Abu-Hamdan, MD; Oh, CK; Ramakrishnan, NA; Hatfield, JS; Khan, KM; Anne, S; Harpool, EC; Drescher, DG Neuroscience
171
1054-74
2010
显示摘要
Adenylyl cyclase (AC) signaling pathways have been identified in a model hair cell preparation from the trout saccule, for which the hair cell is the only intact cell type. The use of degenerate primers targeting cDNA sequence conserved across AC isoforms, and reverse transcription-polymerase chain reaction (RT-PCR), coupled with cloning of amplification products, indicated expression of AC9, AC7 and AC5/6, with cloning efficiencies of 11:5:2. AC9 and AC5/6 are inhibited by Ca(2+), the former in conjunction with calcineurin, and message for calcineurin has also been identified in the trout saccular hair cell layer. AC7 is independent of Ca(2+). Given the lack of detection of calcium/calmodulin-activated isoforms previously suggested to mediate AC activation in the absence of Gαs in mammalian cochlear hair cells, the issue of hair-cell Gαs mRNA expression was re-examined in the teleost vestibular hair cell model. Two full-length coding sequences were obtained for Gαs/olf in the vestibular type II-like hair cells of the trout saccule. Two messages for Gαi have also been detected in the hair cell layer, one with homology to Gαi1 and the second with homology to Gαi3 of higher vertebrates. Both Gαs/olf protein and Gαi1/Gαi3 protein were immunolocalized to stereocilia and to the base of the hair cell, the latter consistent with sites of efferent input. Although a signaling event coupling to Gαs/olf and Gαi1/Gαi3 in the stereocilia is currently unknown, signaling with Gαs/olf, Gαi3, and AC5/6 at the base of the hair cell would be consistent with transduction pathways activated by dopaminergic efferent input. mRNA for dopamine receptors D1A4 and five forms of dopamine D2 were found to be expressed in the teleost saccular hair cell layer, representing information on vestibular hair cell expression not directly available for higher vertebrates. Dopamine D1A receptor would couple to Gαolf and activation of AC5/6. Co-expression with dopamine D2 receptor, which itself couples to Gαi3 and AC5/6, will down-modulate levels of cAMP, thus fine-tuning and gradating the hair-cell response to dopamine D1A. As predicted by the trout saccular hair cell model, evidence has been obtained for the first time that hair cells of mammalian otolithic vestibular end organs (rat/mouse saccule/utricle) express dopamine D1A and D2L receptors, and each receptor co-localizes with AC5/6, with a marked presence of all three proteins in subcuticular regions of type I vestibular hair cells. A putative efferent, presynaptic source of dopamine was identified in tyrosine hydroxylase-positive nerve fibers which passed from underlying connective tissue to the sensory epithelia, ending on type I and type II vestibular hair cells and on afferent calyces. 全文本文章 | Immunohistochemistry | 20883745
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Development of polyclonal anti-D2 dopamine receptor antibodies using sequence-specific peptides. Boundy, V A, et al. Mol. Pharmacol., 43: 666-76 (1993)
1993
显示摘要
Multiple subtypes of dopamine receptors with similar properties have been described. Ligands that have been shown to interact with a single subtype of receptor do not yet exist. The use of immunologic methods provides an alternative approach to distinguish receptors and receptor isoforms. Synthetic peptides corresponding to portions of the third intracellular loops of the two isoforms of the rat D2 dopamine receptor were used to elicit polyclonal antipeptide antibodies. Peptide D2-244 is unique to the D2L isoform, whereas peptide D2-284 is present in both the D2L and the D2S isoforms. Rabbits were immunized monthly with peptide coupled to keyhole limpet hemocyanin. The immunogenicity of the peptides was established using a solid-phase radioimmunoassay. Both immunogens elicited antipeptide antibodies within 10 weeks of the primary immunization, with titers of at least 1/10(4). An immunoprecipitation assay using receptors in digitonin-solubilized extracts of rat or canine caudate labeled with the high affinity D2 antagonist 125I-NCQ 298 showed that antipeptide antisera could recognize solubilized D2 receptors. At a dilution of 1/1000, antisera to peptide D2-284 quantitatively immunoprecipitated 125I-NCQ 298 binding sites from both rat and canine striatal tissue, whereas antisera against peptide D2-244 immunoprecipitated 40% of the D2 receptors solubilized from rat caudate. The selectivity of the antisera was determined using 293 cells transfected with cDNA encoding the D2L or the D2S isoform of receptor. Antisera to D2-284, at a dilution of 1/1000, were able to quantitatively immunoprecipitate receptor from both 293-D2L and 293-D2S cells. Antisera to D2-244 were specific for the D2L isoform, immunoprecipitating 125I-NCQ 298 binding sites from 293-D2L cells but not from 293-D2S cells. Anti-D2-284 specifically recognized multiple bands of 100 kDa, 68 kDa, and 50 kDa in immunoblots of denatured preparations of rat caudate. Immunohistochemical studies with anti-D2-284 demonstrated the presence of the D2 receptor in several regions of rat brain. Immunostaining was most dense in the striatum, with a lateral to medial gradient and patches of lighter staining. Immunoreactivity was negligible with preimmune serum or peptide-blocked immune serum. Immunoreactive processes were seen in the nucleus accumbens and ventral pallidum, as well as in the hypothalamus. The high affinity binding of agonist to D2 dopamine receptors was disrupted by anti-D2-284 but not anti-D2-244 antisera, implicating the internal region of the third intracellular loop represented by peptide D2-284 as a potential determinant of receptor-guanine nucleotide-binding protein coupling. | | 8502224
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Production and characterization of a monoclonal antibody to dopamine D2 receptor: comparison with a polyclonal antibody to a different epitope. Farooqui, S M, et al. Biochem. Biophys. Res. Commun., 184: 661-7 (1992)
1992
显示摘要
A monoclonal antibody (Mab) that recognizes the rat dopamine D2 receptor (DAR) has been generated using DAR specific peptide. The Mab, IgM isotype recognizes five proteins (Mr 220, 145, 95, 66 and 47 kDa) in striatal membrane on Western blot. Preincubation of Mab with free peptide blocked the labeling of all five bands. A polyclonal antibody against peptide from a different region of the DAR, reacted with three out of five proteins (220, 66, and 47 kDa) in these membranes. The DAR antagonist NAPS-biotinyl binds to a 220 kDa protein in striatal membrane on ligand blotts; the labeling can be blocked by the addition of 2 microM sulpride. The 220 kDa Mab reactive protein was less in cerebellum and was absent in the liver. Neither the Mab nor polyclonal antibody inhibited binding of a DAR antagonist, [3H]YM09151-2, to the striatal membranes. These antibodies will enable us to study the structure/function and regulation of the synthesis of DAR protein. | | 1349476
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Multiple D2 dopamine receptors produced by alternative RNA splicing. Monsma, F J, et al. Nature, 342: 926-9 (1989)
1989
显示摘要
Dopamine receptor belong to a large class of neurotransmitter and hormone receptors that are linked to their signal transduction pathways through guanine nucleotide binding regulatory proteins (G proteins). Pharmacological, biochemical and physiological criteria have been used to define two subcategories of dopamine receptors referred to as D1 and D2. D1 receptors activate adenylyl cyclase and are coupled with the Gs regulatory protein. By contrast, activation of D2 receptors results in various responses including inhibition of adenylyl cyclase, inhibition of phosphatidylinositol turnover, increase in K+ channel activity and inhibition of Ca2+ mobilization. The G protein(s) linking the D2 receptors to these responses have not been identified, although D2 receptors have been shown to both copurify and functionally reconstitute with both Gi and Go related proteins. The diversity of responses elicited by D2-receptor activation could reflect the existence of multiple D2 receptor subtypes, the identification of which is facilitated by the recent cloning of a complementary DNA encoding a rat D2 receptor. This receptor exhibits considerable amino-acid homology with other members of the G protein-coupled receptor superfamily. Here we report the identification and cloning of a cDNA encoding an RNA splice variant of the rat D2 receptor cDNA. This cDNA codes for a receptor isoform which is predominantly expressed in the brain and contains an additional 29 amino acids in the third cytoplasmic loop, a region believed to be involved in G protein coupling. | | 2480527
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The dopamine D2 receptor: two molecular forms generated by alternative splicing. Dal Toso, R, et al. EMBO J., 8: 4025-34 (1989)
1989
显示摘要
Cloned human dopamine D2 receptor cDNA was isolated from a pituitary cDNA library and found to encode an additional 29 amino acid residues in the predicted intracellular domain between transmembrane regions 5 and 6 relative to a previously described rat brain D2 receptor. Results from polymerase chain reactions as well as in situ hybridization revealed that mRNA encoding both receptor forms is present in pituitary and brain of both rat and man. The larger form was predominant in these tissues and, as shown in the rat, expressed by dopaminergic and dopaminoceptive neurons. Analysis of the human gene showed that the additional peptide sequence is encoded by a separate exon. Hence, the two receptor forms are generated by differential splicing possibly to permit coupling to different G proteins. Both receptors expressed in cultured mammalian cells bind [3H]spiperone with high affinity and inhibit adenylyl cyclase, as expected of the D2 receptor subtype. | | 2531656
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Alternative splicing directs the expression of two D2 dopamine receptor isoforms. Giros, B, et al. Nature, 342: 923-6 (1989)
1989
显示摘要
Dopamine receptors are classified into D1 and D2 subtypes on the basis of their pharmacological properties and the intracellular responses they mediate. The cerebral D2 dopamine receptor is the target of drugs used to alleviate the main symptoms of schizophrenia. Although it is considered to be a single molecular entity, there is evidence that multiple D2-receptor subtypes exist. A complementary DNA encoding a D2 receptor has recently been cloned and the deduced 415-amino-acid sequence indicates that it belongs to the large superfamily of receptors coupled to G proteins, and that its topology consists of seven transmembrane domains. In this family, the genes are frequently without introns and each is believed to encode a unique polypeptide product. Here we show that the gene for the D2 receptor produces two receptor isoforms by alternative messenger RNA splicing, providing a route to receptor diversity in this family. One isoform corresponds to the D2(415) receptor, but the second contains an additional sequence encoding a 29-amino-acid fragment, defining a novel D2(444) receptor isoform. Expression of the two isoforms is tissue-specific, and both are regulated by guanyl nucleotides. As the extra sequence is located within a putative cytoplasmic loop that binds to G proteins, the two isoforms might interact with different G proteins and thereby initiate distinct intracellular signals. | | 2531847
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