Effects of drugs of abuse on the central neuropeptide Y system

Gonçalves, Joana; Martins, João; Baptista, Sofia; Ambrósio, António Francisco; Silva, Ana P.

doi:10.1111/adb.12250

Cited by 31 publications

(16 citation statements)

References 87 publications

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“…For example, modulators of NPY or SST signaling and drugs that increase the activity of the GABAergic pathway have been reviewed as attractive therapeutic opportunities for schizophrenia. 49 , 50 , 51 …”

Section: Discussionmentioning

confidence: 99%

RNA-seq analysis of amygdala tissue reveals characteristic expression profiles in schizophrenia

Chang

Liu

et al. 2017

Transl Psychiatry

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The amygdala brain region has been implicated in the pathophysiology of schizophrenia through emotion processing. However, transcriptome messages in the amygdala of schizophrenia patients have not been well studied. We used RNA sequencing to investigate gene-expression profiling in the amygdala tissues, and identified 569 upregulated and 192 downregulated genes from 22 schizophrenia patients and 24 non-psychiatric controls. Gene functional enrichment analysis demonstrated that the downregulated genes were enriched in pathways such as 'synaptic transmission' and 'behavior', whereas the upregulated genes were significantly over-represented in gene ontology pathways such as 'immune response' and 'blood vessel development'. Co-expression-based gene network analysis identified seven modules including four modules significantly associated with 'synaptic transmission', 'blood vessel development' or 'immune responses'. Taken together, our study provides novel insights into the molecular mechanism of schizophrenia, suggesting that precision-tailored therapeutic approaches aimed at normalizing the expression/function of specific gene networks could be a promising option in schizophrenia.

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Section: Discussionmentioning

confidence: 99%

RNA-seq analysis of amygdala tissue reveals characteristic expression profiles in schizophrenia

Chang

Liu

et al. 2017

Transl Psychiatry

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“…Degrade cell adhesion molecules necessary for cytoskeletal stability and thereby increase synaptic plasticity (Wright & Harding, 2009) Matrix metalloproteinase inhibition reduces preference for and relapse to cocaine (Brown et al, 2007) Microtubule (Chen et al, 2012) UACC-62 cells A cytoskeletal element involved in dendritic spine morphology and synaptic plasticity (Jaworski et al, 2009) Synaptic plasticity is integral to drug-induced learning and behavior (Luscher, 2013) Myosin (Moen et al, 2014) Protein purified from Dicty orf+ cells A cytoskeletal protein that interacts with actin to influence dendritic spine morphology and synaptic plasticity (Koskinen et al, 2014) Synaptic plasticity is integral to drug-induced learning and behavior (Luscher, 2013) Na + ,K + -ATPase (Petrushanko et al, 2012) Rat myocardium The Na + ,K + -ATPase pump maintains the ionic gradient required for glutamate transporters to take up glutamate and thereby terminate its action (Rose et al, 2009) Glutamate is involved in addiction-related learning mechanisms (Tzschentke & Schmidt, 2003) Neuropeptide Y (Mullen et al, 2015) Human monocytic cells Neuropeptide involved in multiple processes including energy homeostasis (Medeiros Mdos & Turner, 1996) May induce pro-addictive effects in response to nicotine and heroin, and anti-addictive effects in response to amphetamine and ethanol (Goncalves et al, 2016)…”

Section: Potential Therapies For Addiction May Influence Redox Statusmentioning

confidence: 99%

Targeting redox regulation to treat substance use disorder using N‐acetylcysteine

Womersley

Townsend

Kalivas

et al. 2018

Eur J of Neuroscience

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Substance use disorder (SUD) is a chronic relapsing disorder characterized by transitioning from acute drug reward to compulsive drug use. Despite the heavy personal and societal burden of SUDs, current treatments are limited and unsatisfactory. For this reason, a deeper understanding of the mechanisms underlying addiction is required. Altered redox status, primarily due to drug-induced increases in dopamine metabolism, is a unifying feature of abused substances. In recent years, knowledge of the effects of oxidative stress in the nervous system has evolved from strictly neurotoxic to include a more nuanced role in redox-sensitive signaling. More specifically, S-glutathionylation, a redox-sensitive post-translational modification, has been suggested to influence the response to drugs of abuse. In this review we will examine the evidence for redox-mediating drugs as therapeutic tools focusing on N-acetylcysteine as a treatment for cocaine addiction. We will conclude by suggesting future research directions that may further advance this field.

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“…Thus, both antagonists (naloxone) and partial agonists (buprenorphine) of these opiate receptors remain some of the few effective FDA-approved therapeutics for clinical use in treating drug addiction [63]. Research efforts studying the role of neuropeptides in addiction have not been limited to the opioid class, and a critical role has been established for a number of distinct neuropeptides, including (but not limited to) oxytocin [64], neuropeptide Y [65], substance P [66], and corticotropin releasing factor [67]. Notably, cocaine and amphetamine-regulated transcript (CART) represents a neuropeptide that was discovered due to its substantially enhanced expression following exposure to specific drugs of abuse [68].…”

Section: Neuropeptides: Peptide Signals Driving Neuroplasticity Inmentioning

confidence: 99%

From Synapse to Function: A Perspective on the Role of Neuroproteomics in Elucidating Mechanisms of Drug Addiction

et al. 2018

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Drug addiction is a complex disorder driven by dysregulation in molecular signaling across several different brain regions. Limited therapeutic options currently exist for treating drug addiction and related psychiatric disorders in clinical populations, largely due to our incomplete understanding of the molecular pathways that influence addiction pathology. Recent work provides strong evidence that addiction-related behaviors emerge from the convergence of many subtle changes in molecular signaling networks that include neuropeptides (neuropeptidome), protein-protein interactions (interactome) and post-translational modifications such as protein phosphorylation (phosphoproteome). Advancements in mass spectrometry methodology are well positioned to identify these novel molecular underpinnings of addiction and further translate these findings into druggable targets for therapeutic development. In this review, we provide a general perspective of the utility of novel mass spectrometry-based approaches for addressing critical questions in addiction neuroscience, highlighting recent innovative studies that exemplify how functional assessments of the neuroproteome can provide insight into the mechanisms of drug addiction.

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Effects of drugs of abuse on the central neuropeptide Y system

Cited by 31 publications

References 87 publications

RNA-seq analysis of amygdala tissue reveals characteristic expression profiles in schizophrenia

RNA-seq analysis of amygdala tissue reveals characteristic expression profiles in schizophrenia

Targeting redox regulation to treat substance use disorder using N‐acetylcysteine

From Synapse to Function: A Perspective on the Role of Neuroproteomics in Elucidating Mechanisms of Drug Addiction

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