9 results on '"Musante, Veronica"'
Search Results
2. The HIV-1 Viral Protein Tat Increases Glutamate and Decreases GABA Exocytosis from Human and Mouse Neocortical Nerve Endings
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Musante, Veronica, Summa, Maria, Neri, Elisa, Puliti, Aldamaria, Godowicz, Tomasz T., Severi, Paolo, Battaglia, Giuseppe, Raiteri, Maurizio, and Pittaluga, Anna
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- 2010
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3. Striatin-1 is a B subunit of protein phosphatase PP2A that regulates dendritic arborization and spine development in striatal neurons.
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Li, Daniel, Musante, Veronica, Wenliang Zhou, Picciotto, Marina R., and Nairn, Angus C.
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DENDRITIC spines , *PHOSPHATASE regulation , *MOTOR neurons , *SYNAPSES , *NEURON development , *ANATOMY - Abstract
Striatin-1, a subunit of the serine/threonine phosphatase PP2A, is preferentially expressed in neurons in the striatum. As a member of the striatin family of B subunits, striatin-1 is a core component together with PP2A of a multiprotein complex called STRIPAK, the striatin-interacting phosphatase and kinase complex. Little is known about the function of striatin-1 or the STRIPAK complex in the mammalian striatum. Here, we identify a selective role for striatin-1 in striatal neuron maturation. Using a small hairpin RNA (shRNA) knockdown approach in primary striatal neuronal cultures, we determined that reduced expression of striatin-1 results in increased dendritic complexity and an increased density of dendritic spines, classified as stubby spines. The dendritic phenotype was rescued by co-expression of a striatin-1 mutant construct insensitive to the knockdown shRNA but was not rescued by co-expression of PP2A- or Mob3-binding deficient striatin-1 constructs. Reduction of striatin-1 did not result in deficits in neuronal connectivity in this knockdown model, as we observed no abnormalities in synapse formation or in spontaneous excitatory postsynaptic currents. Thus, this study suggests that striatin-1 is a regulator of neuronal development in striatal neurons. [ABSTRACT FROM AUTHOR]
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- 2018
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4. ARPP-16 Is a Striatal-Enriched Inhibitor of Protein Phosphatase 2A Regulated by Microtubule-Associated Serine/Threonine Kinase 3 (Mast 3 Kinase).
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Andrade, Erika C., Musante, Veronica, Atsuko Horiuchi, Hideo Matsuzaki, Brody, A. Harrison, Terence Wu, Greengard, Paul, Taylor, Jane R., and Nairn, Angus C.
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PHOSPHOPROTEIN phosphatases , *MICROTUBULE-associated protein kinase , *SERINE/THREONINE kinases , *PHOSPHORYLATION , *NEURONS - Abstract
ARPP-16 (cAMP-regulated phospho-protein of molecular weight 16 kDa) is one of several small acid-soluble proteins highly expressed in medium spiny neurons of striatum that are phosphorylated in response to dopamine acting via D1 receptor/protein kinase A (PKA) signaling. We show here that ARPP-16 is also phosphorylated in vitro and in vivo by microtubule-associated serine/threonine kinase 3 (MAST3 kinase), an enzyme of previously unknown function that is enriched in striatum. We find that ARPP-16 interacts directly with the scaffolding A subunit of the serine/threonine protein phosphatase, PP2A, and that phosphorylation of ARPP-16 at Ser46 by MAST3 kinase converts the protein into a selective inhibitor of B55α- and B56δ-containing heterotrimeric forms of PP2A. Ser46 of ARPP-16 is phosphorylated to a high basal stoichiometry in striatum, suggestive of basal inhibition of PP2A in striatal neurons. In support of this hypothesis, conditional knock-out of ARPP-16 in CaMKIIα::cre/floxed ARPP-16/19 mice results in dephosphorylation of a subset of PP2A substrates including phospho-Thr75-DARPP-32, phospho-T308-Akt, and phospho-T202/Y204-ERK. Conditional knock-out of ARPP-16/19 is associated with increased motivation measured on a progressive ratio schedule of food reinforcement, yet an attenuated locomotor response to acute cocaine. Our previous studies have shown that ARPP-16 is phosphorylated at Ser88 by PKA. Activation of PKA in striatal slices leads to phosphorylation of Ser88, and this is accompanied by marked dephosphorylation of Ser46. Together, these studies suggest that phospho-Ser46-ARPP-16 acts to basally control PP2A in striatal medium spiny neurons but that dopamine acting via PKA inactivates ARPP-16 leading to selective potentiation of PP2A signaling. [ABSTRACT FROM AUTHOR]
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- 2017
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5. Hyccin, the Molecule Mutated in the Leukodystrophy Hypomyelination and Congenital Cataract (HCC), Is a Neuronal Protein.
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Gazzerro, Elisabetta, Baldassari, Simona, Giacomini, Caterina, Musante, Veronica, Fruscione, Floriana, Padula, Veronica La, Biancheri, Roberta, Scarfì, Sonia, Prada, Valeria, Sotgia, Federica, Duncan, Ian D., Zara, Federico, Werner, Hauke B., Lisanti, Michael P., Nobbio, Lucilla, Corradi, Anna, and Minetti, Carlo
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CATARACT ,PROTEINS ,MYELINATION ,LEUKODYSTROPHY ,NEURONS ,NERVOUS system ,LABORATORY mice - Abstract
"Hypomyelination and Congenital Cataract", HCC (MIM #610532), is an autosomal recessive disorder characterized by congenital cataract and diffuse cerebral and peripheral hypomyelination. HCC is caused by deficiency of Hyccin, a protein whose biological role has not been clarified yet. Since the identification of the cell types expressing a protein of unknown function can contribute to define the physiological context in which the molecule is explicating its function, we analyzed the pattern of Hyccin expression in the central and peripheral nervous system (CNS and PNS). Using heterozygous mice expressing the b-galactosidase (LacZ) gene under control of the Hyccin gene regulatory elements, we show that the gene is primarily expressed in neuronal cells. Indeed, Hyccin-LacZ signal was identified in CA1 hippocampal pyramidal neurons, olfactory bulb, and cortical pyramidal neurons, while it did not colocalize with oligodendroglial or astrocytic markers. In the PNS, Hyccin was detectable only in axons isolated from newborn mice. In the brain, Hyccin transcript levels were higher in early postnatal development (postnatal days 2 and 10) and then declined in adult mice. In a model of active myelinogenesis, organotypic cultures of rat Schwann cells (SC)/Dorsal Root Ganglion (DRG) sensory neurons, Hyccin was detected along the neurites, while it was absent from SC. Intriguingly, the abundance of the molecule was upregulated at postnatal days 10 and 15, in the initial steps of myelinogenesis and then declined at 30 days when the process is complete. As Hyccin is primarily expressed in neurons and its mutation leads to hypomyelination in human patients, we suggest that the protein is involved in neuron-to-glia signalling to initiate or maintain myelination. [ABSTRACT FROM AUTHOR]
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- 2012
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6. RANTES Modulates the Release of Glutamate in Human Neocortex.
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Musante, Veronica, Longordo, Fabio, Neri, Elisa, Pedrazzi, Marco, Kalfas, Fotios, Severi, Paolo, Raiteri, Maurizio, and Pittaluga, Anna
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CHEMOKINES , *GLUTAMIC acid , *G proteins , *PHOSPHORYLATION , *EXOCYTOSIS , *IMMUNOGLOBULINS - Abstract
The effects of the recombinant chemokine human RANTES (hRANTES) on the release of glutamate from human neocortex glutamatergic nerve endings were investigated. hRANTES facilitated the spontaneous release of d [³H]D-aspartate ([³H]D-ASP) by binding Pertussis toxin-sensitive G-protein-coupled receptors (GPCRs), whose activation caused Ca2+ mobilization from inositol trisphosphate-sensitive stores and cytosolic tyrosine kinase-mediated phosphorylations. Facilitation of release switched to inhibition when the effects of hRANTES on the 12mMK+-evoked [³H]D-ASP exocytosis were studied. Inhibition of exocytosis relied on activation of Pertussis toxin-sensitive GPCRs negatively coupled to adenylyl cyclase. Both hRANTES effects were prevented by met-RANTES, an antagonist at the chemokine receptors (CCRs) of the CCR1, CCR3, and CCR5 subtypes. Interestingly,humanneocortex glutamatergic nerve endings seem to possess all three receptor subtypes. Blockade of CCR1 and CCR5 by antibodies against the extracellular domain of CCRs prevented both the hRANTES effect on [ 3H]D-ASP release, whereas blockade of CCR3 prevented inhibition, but not facilitation, of release. The effects ofRANTESon the spontaneous and the evoked release of [³H]D-ASP were also observed in experiments with mouse cortical synaptosomes, which may therefore represent an appropriate animal model to study RANTES-induced effects on neurotransmission. It is concluded that glutamate transmission can be modulated in opposite directions by RANTES acting at distinct CCR receptor subtypes coupled to different transduction pathways, consistent with the multiple and sometimes contrasting effects of the chemokine. [ABSTRACT FROM AUTHOR]
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- 2008
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7. Presynaptic mGlu1 and mGlu5 autoreceptors facilitate glutamate exocytosis from mouse cortical nerve endings
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Musante, Veronica, Neri, Elisa, Feligioni, Marco, Puliti, Aldamaria, Pedrazzi, Marco, Conti, Valerio, Usai, Cesare, Diaspro, Alberto, Ravazzolo, Roberto, Henley, Jeremy M., Battaglia, Giuseppe, and Pittaluga, Anna
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AUTORECEPTORS , *SYNAPTOSOMES , *EXOCYTOSIS , *IMMUNOCYTOCHEMISTRY - Abstract
Abstract: The effects of mGlu1 and mGlu5 receptor activation on the depolarization-evoked release of [3H]d-aspartate ([3H]d-ASP) from mouse cortical synaptosomes were investigated. The mGlu1/5 receptor agonist 3,5-DHPG (0.1–100μM) potentiated the K+(12mM)-evoked [3H]d-ASP overflow. The potentiation occurred in a concentration-dependent manner showing a biphasic pattern. The agonist potentiated [3H]d-ASP exocytosis when applied at 0.3μM; the efficacy of 3,5-DHPG then rapidly declined and reappeared at 30–100μM. The fall of efficacy of agonist at intermediate concentration may be consistent with 3,5-DHPG-induced receptor desensitization. Facilitation of [3H]d-ASP exocytosis caused by 0.3μM 3,5-DHPG was prevented by the selective mGlu5 receptor antagonist MPEP, but was insensitive to the selective mGlu1 receptor antagonist CPCCOEt. In contrast, CPCCOEt prevented the potentiation by 50μM 3,5-DHPG, while MPEP had minimal effect. Unexpectedly, LY 367385 antagonized both the 3,5-DHPG-induced effects. A total of 0.3μM 3,5-DHPG failed to facilitate the K+-evoked [3H]d-ASP overflow from mGlu5 receptor knockout (mGlu5−/−) cortical synaptosomes, but not from nerve terminals prepared from the cortex of animals lacking the mGlu1 receptors, the crv4/crv4 mice. On the contrary, 50μM 3,5-DHPG failed to affect the [3H]d-ASP exocytosis from cortical synaptosomes obtained from crv4/crv4 and mGlu5−/−mice. Western blot analyses in subsynaptic fractions support the existence of both mGlu1 and mGlu5 autoreceptors located presynaptically, while immunocytochemistry revealed their presence at glutamatergic terminals. We propose that mGlu1 and mGlu5 autoreceptors exist on mouse glutamatergic cortical terminals; mGlu5 receptors may represent the “high affinity” binding sites for 3,5-DHPG, while mGlu1 autoreceptors represent the “low affinity” binding sites. [Copyright &y& Elsevier]
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- 2008
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8. Glutamate Counteracts Dopamine/PKA Signaling via Dephosphorylation of DARPP-32 Ser-97 and Alteration of Its Cytonuclear Distribution.
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Nishi, Akinori, Matamales, Miriam, Musante, Veronica, Valjent, Emmanuel, Mahomi Kuroiwa, Yosuke Kitahara, Rebholz, Heike, Greengard, Paul, Girault, Jean-Antoine, and Nairn, Angus C.
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DEPHOSPHORYLATION , *CHEMICAL reactions , *PROTEIN phosphatase inhibitors , *GLUTAMATE receptors , *ENZYME inhibitors - Abstract
The interaction of glutamate and dopamine in the striatum is heavily dependent on signaling pathways that converge on the regulatory protein DARPP-32. The efficacy of dopamine/D1 receptor/PKA signaling is regulated by DARPP-32 phosphorylated at Thr-34 (the PKA site), a process that inhibits protein phosphatase 1 (PP1) and potentiates PKA action. Activation of dopamine/D1 receptor/PKA signaling also leads to dephosphorylation of DARPP-32 at Ser-97 (the CK2 site), leading to localization of phospho-Thr-34 DARPP-32 in the nucleus where it also inhibits PP1. In this study the role of glutamate in the regulation of DARPP-32 phosphorylation at four major sites was further investigated. Experiments using striatal slices revealed that glutamate decreased the phosphorylation states of DARPP-32 at Ser-97 as well as Thr-34, Thr-75, and Ser-130 by activating NMDA or AMPA receptors in both direct and indirect pathway striatal neurons. The effect of glutamate in decreasing Ser-97 phosphorylation was mediated by activation of PP2A. In vitro phosphatase assays indicated that the PP2A/PR72 heterotrimer complex was likely responsible for glutamate/Ca2+-regulated dephosphorylation of DARPP-32 at Ser-97. As a consequence of Ser-97 dephosphorylation, glutamate induced the nuclear localization in cultured striatal neurons of dephospho-Thr-34/dephospho-Ser-97 DARPP-32. It also reduced PKA-dependent DARPP-32 signaling in slices and in vivo. Taken together, the results suggest that by inducing dephosphorylation of DARPP-32 at Ser-97 and altering its cytonuclear distribution, glutamate may counteract dopamine/D1 receptor/PKA signaling at multiple cellular levels. [ABSTRACT FROM AUTHOR]
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- 2017
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9. Effects of the HIV-1 Viral Protein TAT on Central Neurotransmission: Role of Group I Metabotropic Glutamate Receptors.
- Author
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Neri, Elisa, Musante, Veronica, and Pittaluga, Anna
- Abstract
An abstract of the article "Effects of the HIV-1 Viral Protein TAT on Central Neurotransmission: Role of Group I Metabotropic Glutamate Receptors," by Elisa Neri, Veronica Musante, and Anna Pittaluga is presented.
- Published
- 2007
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