Methamphetamine blunts Ca2+ currents and excitatory synaptic transmission through D1/5 receptor-mediated mechanisms in the mouse medial prefrontal cortex

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Methamphetamine blunts Ca2+ currents and excitatory synaptic transmission through D1/5 receptor-mediated mechanisms in the mouse medial prefrontal cortex

Gonzalez, Betina et al · Wiley Blackwell Publishing, Inc · 2016

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Autor / responsable

Gonzalez, Betina et al

Editorial

Wiley Blackwell Publishing, Inc

Año

2016

ISSN

1355-6215

ISSN

1355-6215

Idioma

eng

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Psychostimulant addiction is associated with dysfunctions in frontal cortex. Previous data demonstrated that repeated exposure to methamphetamine (METH) can alter prefrontal cortex (PFC)-dependent functions. Here, we show that withdrawal from repetitive non-contingent METH administration (7 days, 1 mg/kg) depressed voltage-dependent calcium currents (ICa) and increased hyperpolarization-activated cation current (IH) amplitude and the paired-pulse ratio of evoked excitatory postsynaptic currents (EPSCs) in deep-layer pyramidal mPFC neurons. Most of these effects were blocked by systemic co-administration of the D1/D5 receptor antagonist SCH23390 (0.5 and 0.05 mg/kg). In vitroMETH (i.e. bath-applied to slices from naïve-treated animals) was able to emulate its systemic effects on ICa and evoked EPSCs paired-pulse ratio. We also provide evidence of altered mRNA expression of (1) voltage-gated calcium channels P/Q-type Cacna1a (Cav2.1), N-type Cacna1b (Cav2.2), T-type Cav3.1 Cacna1g, Cav3.2 Cacna1h, Cav3.3 Cacna1i and the auxiliary subunit Cacna2d1 (α2δ1); (2) hyperpolarization-activated cyclic nucleotide-gated channels Hcn1 and Hcn2; and (3) glutamate receptors subunits AMPA-type Gria1, NMDA-type Grin1 and metabotropic Grm1 in the mouse mPFC after repeated METH treatment. Moreover, we show that some of these changes in mRNA expression were sensitive D1/5 receptor blockade. Altogether, these altered mechanisms affecting synaptic physiology and transcriptional regulation may underlie PFC functional alterations that could lead to PFC impairments observed in METH-addicted individuals.
Fil: Gonzalez, Betina. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Houssay. Instituto de Investigaciones Farmacológicas. Universidad de Buenos Aires. Facultad de Farmacia y Bioquímica. Instituto de Investigaciones Farmacológicas; Argentina
Fil: Rivero Echeto, Maria Celeste Solange. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Ciudad Universitaria. Instituto de Fisiología, Biología Molecular y Neurociencias. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales. Instituto de Fisiología, Biología Molecular y Neurociencias; Argentina

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APA 7

Gonzalez, B. E. A. (2016). Methamphetamine blunts Ca2+ currents and excitatory synaptic transmission through D1/5 receptor-mediated mechanisms in the mouse medial prefrontal cortex. http://hdl.handle.net/11336/38975

MLA

Gonzalez, Betina et al. "Methamphetamine blunts Ca2+ currents and excitatory synaptic transmission through D1/5 receptor-mediated mechanisms in the mouse medial prefrontal cortex." 2016. http://hdl.handle.net/11336/38975.

Chicago

Gonzalez, Betina et al. 2016. "Methamphetamine blunts Ca2+ currents and excitatory synaptic transmission through D1/5 receptor-mediated mechanisms in the mouse medial prefrontal cortex.". http://hdl.handle.net/11336/38975.

Harvard

Gonzalez, B. E. A. 2016, Methamphetamine blunts Ca2+ currents and excitatory synaptic transmission through D1/5 receptor-mediated mechanisms in the mouse medial prefrontal cortex, Wiley Blackwell Publishing, Inc, available at: http://hdl.handle.net/11336/38975 [Accessed 25 Jun. 2026].

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Título: Methamphetamine blunts Ca2+ currents and excitatory synaptic transmission through D1/5 receptor-mediated mechanisms in the mouse medial prefrontal cortex

Autor / colaboradores: Gonzalez, Betina et al

Editorial: Wiley Blackwell Publishing, Inc

Año de publicación: 2016

ISSN: 1355-6215

ISSN: 1355-6215

Idioma: eng

Materias

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Dopamine Receptors; Glutamate; Methamphetamine; Prefrontal Cortex; Voltage-Gated Calcium Channels; https://purl.org/becyt/ford/3.1; https://purl.org/becyt/ford/3