Methamphetamine Self-Administration Elicits Sex-Related Changes in Postsynaptic Glutamate Transmission in the Prefrontal Cortex

Pena-Bravo, José I.; Penrod, Rachel D.; Reichel, Carmela M.; Lavín, Antonieta

doi:10.1523/eneuro.0401-18.2018

Cited by 33 publications

(31 citation statements)

References 43 publications

(55 reference statements)

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“…Glutamate is the major excitatory neurotransmitter in the mammalian central nervous system. In the rat PFC, males have higher baseline spontaneous glutamate release compared to females (Pena-Bravo et al 2019), which is consistent with findings in human PFC (O'Gorman et al, 2011). However, frontal cortex tissue concentration of glutamate levels in rats do not show sex differences (Zhang et al, 2018).…”

Section: Basal Sex Differencessupporting

confidence: 85%

Sex differences in the neurochemistry of frontal cortex: Impact of early life stress

Perry

Campbell

Drummond

et al. 2020

Journal of Neurochemistry

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Section: Basal Sex Differencessupporting

confidence: 85%

Sex differences in the neurochemistry of frontal cortex: Impact of early life stress

Perry

Campbell

Drummond

et al. 2020

Journal of Neurochemistry

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“…Memory for spatial recognition is primarily mediated by the hippocampus, especially dCA1. Consistent with the hyper-glutamatergic states found in striatum 8 , prefrontal cortex 24 and nucleus accumbens 1 by METH use, we found that extracellular Glu concentrations in the dCA1 consistently kept at high levels, and dCA1 pyramidal neurons were strongly activated in METH withdrawal mice. To assess the relationship of dCA1 Glu hyperactivity and the spatial memory deficits in METH withdrawal mice, EA at acupoints of Yintang (GV29) and…”

Section: Meth Withdrawal Causes a Hyper-glutamatergic State At Dca1 Ssupporting

confidence: 85%

Electro-acupuncture Alleviates METH Withdrawal-induced Spatial Memory Deficits by Restoring Astrocyte-drived Glutamate Uptake in dCA1

Shi

et al. 2020

Preprint

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24Methamphetamine (METH) is frequently abused drug and produces cognitive deficits. METH could 25 induce hyper-glutamatergic state in the brain, which could partially explain METH-related cognitive 26 deficits, but the synaptic etiology remains unclear. Here, we investigated the role of dCA1 tripartite 27 synapses and the potential therapeutic effects of electro-acupuncture (EA) in the METH withdrawal-28 induced spatial memory deficits. METH withdrawal weakened astrocytic capacity of Glu uptake, but 29 failed to change Glu release from dCA3, resulting in hyper-glutamatergic excitotoxicity at dCA1 30 tripartite synapses. By restoring the astrocytic capacity of Glu uptake, EA treatments suppressed the 31 hyper-glutamatergic state and normalized the excitability of postsynaptic neuron in dCA1, finally 32 alleviated spatial memory deficits in METH withdrawal mice. These findings indicate that astrocyte 33 at tripartite synapses might be a novel target for developing therapeutic interventions against METH-34 associated cognitive disorders, and EA represent a promising non-invasive therapeutic strategy for 35 the management of drugs-caused neurotoxicity.36 3

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“…Both sexes are included in these studies because differences occur in metabolism 29 and acquisition of drug self-administration 30,31 , and in basic and synaptic excitatory transmission 11,32 . However, our behavioral endpoint, cued reinstatement, is not sensitive to sex as a biological variable 33,34 unless the response ratio is increased during the reinstatement test 33 .…”

Section: Methodsmentioning

confidence: 99%

“…The medial prefrontal cortex (mPFC) is one of the main structures regulating relapse 5 with glutamatergic corticostriatal projections at the forefront of addiction neurocircuitry 6,7 . Meth causes enduring changes within the mPFC including augmented burst firing within glutamatergic neurons 8 , changes in extracellular glutamate concentrations 8,9 , increased NMDA receptor expression, and adaptations in pre and post synaptic glutamate transmission 9–11 . Anatomically, projections from the mPFC to the nucleus accumbens (NA) have a distinct dorsal-ventral anatomical distribution 12 .…”

Section: Introductionmentioning

confidence: 99%

Chemogenetic Inhibition of Corticostriatal Circuits Reduces Cued Reinstatement of Methamphetamine Seeking

Kearns

Siemsen

Hopkins

et al. 2021

Preprint

Self Cite

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Methamphetamine (meth) causes enduring changes within the medial prefrontal cortex (mPFC) and the nucleus accumbens (NA). Projections from the mPFC to the NA have a distinct dorsal-ventral distribution, with the prelimbic (PL) mPFC projecting to the NAcore, and the infralimbic (IL) mPFC projecting to the NAshell. Inhibition of these circuits has opposing effects on cocaine relapse. Inhibition of PL-NAcore reduces cued reinstatement of cocaine seeking and IL-NAshell inhibition reinstates cocaine seeking. Meth, however, exhibits a different profile, as pharmacological inhibition of either the PL or IL decrease cued reinstatement of meth-seeking. The potentially opposing roles of the PL-NAcore and IL-NAshell projections remain to be explored in the context of cued meth seeking. Here we used an intersectional viral vector approach that employs a retrograde delivery of Cre from the NA and Cre-dependent expression of DREADD in the mPFC, in both male and female rats to inhibit or activate these parallel pathways. Inhibition of the PL-NAcore circuit reduced cued reinstatement of meth seeking under short and long-access meth self-administration and after withdrawal with and without extinction. Inhibition of the IL-NAshell also decreased meth cued reinstatement. Activation of the parallel circuits was without an effect. These studies show that inhibition of the PL-NAcore or the IL-NAshell circuits can inhibit reinstated meth seeking. Thus, the neural circuitry mediating cued reinstatement of meth seeking is similar to cocaine in the dorsal, but not ventral, mPFC-NA circuit.

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Methamphetamine Self-Administration Elicits Sex-Related Changes in Postsynaptic Glutamate Transmission in the Prefrontal Cortex

Cited by 33 publications

References 43 publications

Sex differences in the neurochemistry of frontal cortex: Impact of early life stress

Sex differences in the neurochemistry of frontal cortex: Impact of early life stress

Electro-acupuncture Alleviates METH Withdrawal-induced Spatial Memory Deficits by Restoring Astrocyte-drived Glutamate Uptake in dCA1

Chemogenetic Inhibition of Corticostriatal Circuits Reduces Cued Reinstatement of Methamphetamine Seeking

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