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  1. Article: BDNF Alterations in Brain Areas and the Neurocircuitry Involved in the Antidepressant Effects of Ketamine in Animal Models, Suggest the Existence of a Primary Circuit of Depression.

    Carboni, Ezio / Carta, Anna R

    Journal of integrative neuroscience

    2022  Volume 21, Issue 5, Page(s) 144

    Abstract: Major depressive disorder is one of the primary causes of disability and disease worldwide. The therapy of depression is prevalently based on monoamine reuptake blockers; consequently, investigations aimed to clarify the aetiology of depression have ... ...

    Abstract Major depressive disorder is one of the primary causes of disability and disease worldwide. The therapy of depression is prevalently based on monoamine reuptake blockers; consequently, investigations aimed to clarify the aetiology of depression have mostly looked at brain areas innervated by monamines and brain circuitry involved in inputs and outputs of these areas. The recent approval of esketamine as a rapid-acting antidepressant drug in treatment-resistant depression, has definitively projected glutamatergic transmission as a key constituent in the use of new drugs in antidepressant therapy. In this review we have examined the role of several brain areas: namely, the hippocampus, the medial Prefrontal Cortex (mPFC), the nucleus accumbens (NAc), the Lateral Habenula (LHb), the amygdala and the Bed Nucleus of Stria Terminalis (BNST). The reason for undertaking an in-depth review is due to their significant role in animal models of depression, which highlight their inter-connections as well as their inputs and outputs. In particular, we examined the modification of the expression and release of the brain derived neurotrophic factor (BDNF) and associated changes in dendritic density induced by chronic stress in the above areas of animal models of depression (AnMD). We also examined the effectiveness of ketamine and standard antidepressants in reversing these alterations, with the aim of identifying a brain circuit where pathological alteration might trigger the appearance of depression symptoms. Based on the role that these brain areas play in the generation of the symptoms of depression, we assumed that the mPFC, the NAc/Ventral Tegmental Area (VTA) and the hippocampus form a primary circuit of depression, where regular performance can endure resilience to stress. We have also examined how this circuit is affected by environmental challenges and how the activation of one or more areas, including amygdala, LHb or BNST can produce local detrimental effects that spread over specific circuits and generate depression symptoms. Furthermore, we also examined how, through their outputs, these three areas can negatively influence the NAc/VTA-PFC circuit directly or through the BNST, to generate anhedonia, one of the most devastating symptoms of depression.
    MeSH term(s) Animals ; Antidepressive Agents/pharmacology ; Brain/metabolism ; Brain-Derived Neurotrophic Factor/metabolism ; Depression/drug therapy ; Depressive Disorder, Major ; Disease Models, Animal ; Ketamine/metabolism ; Ketamine/pharmacology ; Models, Animal
    Chemical Substances Antidepressive Agents ; Brain-Derived Neurotrophic Factor ; Ketamine (690G0D6V8H)
    Language English
    Publishing date 2022-09-17
    Publishing country Singapore
    Document type Journal Article ; Review
    ZDB-ID 2136427-8
    ISSN 0219-6352
    ISSN 0219-6352
    DOI 10.31083/j.jin2105144
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  2. Article: Repurposing Ketamine in Depression and Related Disorders: Can This Enigmatic Drug Achieve Success?

    Carboni, Ezio / Carta, Anna R / Carboni, Elena / Novelli, Antonello

    Frontiers in neuroscience

    2021  Volume 15, Page(s) 657714

    Abstract: Repurposing ketamine in the therapy of depression could well represent a breakthrough in understanding the etiology of depression. Ketamine was originally used as an anesthetic drug and later its use was extended to other therapeutic applications such as ...

    Abstract Repurposing ketamine in the therapy of depression could well represent a breakthrough in understanding the etiology of depression. Ketamine was originally used as an anesthetic drug and later its use was extended to other therapeutic applications such as analgesia and the treatment of addiction. At the same time, the abuse of ketamine as a recreational drug has generated a concern for its psychotropic and potential long-term effects; nevertheless, its use as a fast acting antidepressant in treatment-resistant patients has boosted the interest in the mechanism of action both in psychiatry and in the wider area of neuroscience. This article provides a comprehensive overview of the actions of ketamine and intends to cover: (i) the evaluation of its clinical use in the treatment of depression and suicidal behavior; (ii) the potential use of ketamine in pediatrics; (iii) a description of its mechanism of action; (iv) the involvement of specific brain areas in producing antidepressant effects; (v) the potential interaction of ketamine with the hypothalamic-pituitary-adrenal axis; (vi) the effect of ketamine on neuronal transmission in the bed nucleus of stria terminalis and on its output; (vii) the evaluation of any gender-dependent effects of ketamine; (viii) the interaction of ketamine with the inflammatory processes involved in depression; (ix) the evaluation of the effects observed with single or repeated administration; (x) a description of any adverse or cognitive effects and its abuse potential. Finally, this review attempts to assess whether ketamine's use in depression can improve our knowledge of the etiopathology of depression and whether its therapeutic effect can be considered an actual cure for depression rather than a therapy merely aimed to control the symptoms of depression.
    Language English
    Publishing date 2021-04-30
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 2411902-7
    ISSN 1662-453X ; 1662-4548
    ISSN (online) 1662-453X
    ISSN 1662-4548
    DOI 10.3389/fnins.2021.657714
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  3. Article ; Online: Can pioglitazone be potentially useful therapeutically in treating patients with COVID-19?

    Carboni, Elena / Carta, Anna R / Carboni, Ezio

    Medical hypotheses

    2020  Volume 140, Page(s) 109776

    Abstract: The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a pandemic disease (COVID-19) that has spread globally causing more than 30,000 deaths. Despite the immense and ongoing global effort, no efficacious drugs to fight this plague ... ...

    Abstract The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a pandemic disease (COVID-19) that has spread globally causing more than 30,000 deaths. Despite the immense and ongoing global effort, no efficacious drugs to fight this plague have been identified and patients admitted to the intensive care units (ICU), for respiratory distress, are managed mostly by means of supportive care based on oxygen maintenance. Several authors have reported that the prevalence of hypertension, diabetes, cardiovascular and cerebrovascular diseases comorbidities were indeed frequent among patients with COVID-19, which suggests that these conditions are likely to aggravate and complicate the prognosis. What the aforementioned diseases have in common is a latent chronic inflammatory state that may be associated with the alteration of laboratory parameters that are typical of the metabolic syndrome and insulin resistance. In severe COVID-19 patients laboratory markers of inflammation such as C-reactive protein, IL-6, D-dimer, serum ferritin and lactate dehydrogenase are elevated in many patients; assessed since the 4th-6th day of illness onset, such increases seem to be predictive of an adverse prognosis. Our hypothesis is that drugs belonging to the family of thiazolidinediones (TZD) such as pioglitazone or rosiglitazone, approved for treating the condition of insulin resistance and the accompanying inflammation, could ameliorate the prognosis of those COVID-19 patients with diabetes, hypertension and cardiovascular disorders comorbidities. TZD are PPARγ agonists that act on nuclear receptors, thereby triggering certain transcription factors. TZD were widely used for type-2 diabetes in the first decade of this century and although concerns have been raised for possible side effects associated with long-term treatment, their use has been recently revaluated for their anti-inflammatory properties in numerous medical conditions.
    MeSH term(s) Anti-Inflammatory Agents/therapeutic use ; Betacoronavirus ; C-Reactive Protein/analysis ; COVID-19 ; Coronavirus Infections/drug therapy ; Ferritins/blood ; Fibrin Fibrinogen Degradation Products/analysis ; Humans ; Hypertension ; Hypoglycemic Agents/therapeutic use ; Incidence ; Inflammation/drug therapy ; Insulin Resistance ; Intensive Care Units ; Interleukin-6/blood ; L-Lactate Dehydrogenase/blood ; Pandemics ; Pioglitazone/therapeutic use ; Pneumonia, Viral/drug therapy ; Prognosis ; SARS-CoV-2 ; Thiazolidinediones/therapeutic use ; COVID-19 Drug Treatment
    Chemical Substances Anti-Inflammatory Agents ; Fibrin Fibrinogen Degradation Products ; Hypoglycemic Agents ; IL6 protein, human ; Interleukin-6 ; Thiazolidinediones ; fibrin fragment D ; C-Reactive Protein (9007-41-4) ; Ferritins (9007-73-2) ; L-Lactate Dehydrogenase (EC 1.1.1.27) ; Pioglitazone (X4OV71U42S)
    Keywords covid19
    Language English
    Publishing date 2020-04-22
    Publishing country United States
    Document type Journal Article
    ZDB-ID 193145-3
    ISSN 1532-2777 ; 0306-9877
    ISSN (online) 1532-2777
    ISSN 0306-9877
    DOI 10.1016/j.mehy.2020.109776
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  4. Article ; Online: Can pioglitazone be potentially useful therapeutically in treating patients with COVID-19?

    Carboni, Elena / Carta, Anna R. / Carboni, Ezio

    Medical Hypotheses

    2020  Volume 140, Page(s) 109776

    Keywords General Medicine ; covid19
    Language English
    Publisher Elsevier BV
    Publishing country us
    Document type Article ; Online
    ZDB-ID 193145-3
    ISSN 1532-2777 ; 0306-9877
    ISSN (online) 1532-2777
    ISSN 0306-9877
    DOI 10.1016/j.mehy.2020.109776
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  5. Article: Can pioglitazone be potentially useful therapeutically in treating patients with COVID-19?

    Carboni, Elena / Carta, Anna R / Carboni, Ezio

    Med Hypotheses

    Abstract: The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a pandemic disease (COVID-19) that has spread globally causing more than 30,000 deaths. Despite the immense and ongoing global effort, no efficacious drugs to fight this plague ... ...

    Abstract The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a pandemic disease (COVID-19) that has spread globally causing more than 30,000 deaths. Despite the immense and ongoing global effort, no efficacious drugs to fight this plague have been identified and patients admitted to the intensive care units (ICU), for respiratory distress, are managed mostly by means of supportive care based on oxygen maintenance. Several authors have reported that the prevalence of hypertension, diabetes, cardiovascular and cerebrovascular diseases comorbidities were indeed frequent among patients with COVID-19, which suggests that these conditions are likely to aggravate and complicate the prognosis. What the aforementioned diseases have in common is a latent chronic inflammatory state that may be associated with the alteration of laboratory parameters that are typical of the metabolic syndrome and insulin resistance. In severe COVID-19 patients laboratory markers of inflammation such as C-reactive protein, IL-6, D-dimer, serum ferritin and lactate dehydrogenase are elevated in many patients; assessed since the 4th-6th day of illness onset, such increases seem to be predictive of an adverse prognosis. Our hypothesis is that drugs belonging to the family of thiazolidinediones (TZD) such as pioglitazone or rosiglitazone, approved for treating the condition of insulin resistance and the accompanying inflammation, could ameliorate the prognosis of those COVID-19 patients with diabetes, hypertension and cardiovascular disorders comorbidities. TZD are PPARγ agonists that act on nuclear receptors, thereby triggering certain transcription factors. TZD were widely used for type-2 diabetes in the first decade of this century and although concerns have been raised for possible side effects associated with long-term treatment, their use has been recently revaluated for their anti-inflammatory properties in numerous medical conditions.
    Keywords covid19
    Publisher WHO
    Document type Article
    Note WHO #Covidence: #102279
    Database COVID19

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  6. Article ; Online: Nicotine, cocaine, amphetamine, morphine, and ethanol increase norepinephrine output in the bed nucleus of stria terminalis of freely moving rats.

    Jadzic, Dragana / Bassareo, Valentina / Carta, Anna R / Carboni, Ezio

    Addiction biology

    2019  Volume 26, Issue 1, Page(s) e12864

    Abstract: The bed nucleus of stria terminalis (BNST) is a complex limbic area involved in neuroendocrine and behavioural responses and, in particular, in the modulation of the stress response. BNST is innervated by dopamine and norepinephrine, which are known to ... ...

    Abstract The bed nucleus of stria terminalis (BNST) is a complex limbic area involved in neuroendocrine and behavioural responses and, in particular, in the modulation of the stress response. BNST is innervated by dopamine and norepinephrine, which are known to be involved in drug addiction. It is also known that several drugs of abuse increase dopamine transmission in the BNST, but there has been less research regarding the effect on norepinephrine transmission. Here, we have used the microdialysis technique to investigate the effect of several drugs of abuse on norepinephrine transmission in the BNST of freely moving rats. We observed that nicotine (0.2-0.4 mg/kg), cocaine (2.5-5 mg/kg), amphetamine (0.25-0.5 mg/kg), and ethanol (0.5-1.0 g/kg), dose-dependently increased norepinephrine output while the effect of morphine at 3.0 was lower than that of 1.0 mg/kg. These results suggest that many drugs of abuse, though possessing diverse mechanisms of action, share the property of increasing norepinephrine transmission in the BNST. Furthermore, we suggest that the recurring activation of NE transmission in the BNST, due to drug administration, contributes to the alteration of the function that BNST assumes in how the behavioural response to stress manifests, favouring the establishment of the stress-induced drug seeking.
    MeSH term(s) Amphetamine/pharmacology ; Animals ; Cocaine/pharmacology ; Drug-Seeking Behavior ; Ethanol/pharmacology ; Male ; Morphine/pharmacology ; Nicotine/pharmacology ; Norepinephrine/metabolism ; Rats ; Septal Nuclei/drug effects
    Chemical Substances Ethanol (3K9958V90M) ; Nicotine (6M3C89ZY6R) ; Morphine (76I7G6D29C) ; Amphetamine (CK833KGX7E) ; Cocaine (I5Y540LHVR) ; Norepinephrine (X4W3ENH1CV)
    Language English
    Publishing date 2019-12-17
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1324314-7
    ISSN 1369-1600 ; 1355-6215
    ISSN (online) 1369-1600
    ISSN 1355-6215
    DOI 10.1111/adb.12864
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  7. Article ; Online: Region-specific changes in gene expression are associated with cognitive deficits in the alpha-synuclein-induced model of Parkinson's disease: A transcriptomic profiling study.

    Manchinu, Maria Francesca / Pala, Mauro / Palmas, Maria Francesca / Diana, Maria Antonietta / Maschio, Andrea / Etzi, Michela / Pisanu, Augusta / Diana, Francesca Isabella / Marongiu, Jacopo / Mansueto, Silvia / Carboni, Ezio / Fusco, Giuliana / De Simone, Alfonso / Carta, Anna R

    Experimental neurology

    2023  Volume 372, Page(s) 114651

    Abstract: Mild cognitive impairment (MCI) is a common trait of Parkinson's disease (PD), often associated with early motor deficits, eventually evolving to PD with dementia in later disease stages. The neuropathological substrate of MCI is poorly understood, which ...

    Abstract Mild cognitive impairment (MCI) is a common trait of Parkinson's disease (PD), often associated with early motor deficits, eventually evolving to PD with dementia in later disease stages. The neuropathological substrate of MCI is poorly understood, which weakens the development and administration of proper therapies. In an α-synuclein (αSyn)-based model of PD featuring early motor and cognitive impairments, we investigated the transcriptome profile of brain regions involved in PD with cognitive deficits, via a transcriptomic analysis based on RNA sequencing (RNA-seq) technology. Rats infused in the substantia nigra with human α-synuclein oligomers (H-SynOs) developed mild cognitive deficits after three months, as measured by the two-trial recognition test in a Y-maze and the novel object recognition test. RNA-seq analysis showed that 17,436 genes were expressed in the anterior cingulate cortex (ACC) and 17,216 genes in the hippocampus (HC). In the ACC, 51 genes were differentially expressed between vehicle and H-αSynOs treated samples, which showed N= 21 upregulated and N = 30 downregulated genes. In the HC, 104 genes were differentially expressed, the majority of them not overlapping with DEGs in the ACC, with N = 41 upregulated and N = 63 downregulated in H-αSynOs-treated samples. The Gene Ontology (GO) and the Kyoto Encyclopedia of Gene and Genomes (KEGG) analysis, followed by the protein-protein interaction (PPI) network inspection of DEGs, revealed that in the ACC most enriched terms were related with immune functions, specifically with antigen processing/presentation via the major histocompatibility complex (MHC) class II and phagocytosis via CD68, supporting a role for dysregulated immune responses in early PD cognitive dysfunction. Immunofluorescence analysis confirmed the decreased expression of CD68 within microglial cells. In contrast, the most significantly enriched terms in the HC were mainly involved in mitochondrial homeostasis, potassium voltage-gated channel, cytoskeleton and fiber organisation, suggesting that the gene expression in the neuronal population was mostly affected in this region in early disease stages. Altogether results show that H-αSynOs trigger a region-specific dysregulation of gene expression in ACC and HC, providing a pathological substrate for MCI associated with early PD.
    MeSH term(s) Humans ; Animals ; Rats ; Parkinson Disease/metabolism ; alpha-Synuclein/genetics ; alpha-Synuclein/metabolism ; Cognitive Dysfunction/genetics ; Cognitive Dysfunction/pathology ; Gene Expression Profiling ; Transcriptome ; Cognition
    Chemical Substances alpha-Synuclein
    Language English
    Publishing date 2023-12-11
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 207148-4
    ISSN 1090-2430 ; 0014-4886
    ISSN (online) 1090-2430
    ISSN 0014-4886
    DOI 10.1016/j.expneurol.2023.114651
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  8. Article: Microdialysis coupled with electrochemical detection. A way to investigate brain monoamine role in freely moving animals.

    Carboni, Ezio

    Methods in molecular medicine

    2003  Volume 79, Page(s) 415–432

    MeSH term(s) Animals ; Brain Chemistry ; Chromatography, High Pressure Liquid/methods ; Dopamine/physiology ; Electrochemistry ; Male ; Microdialysis ; Norepinephrine/physiology ; Rats ; Sensitivity and Specificity ; Serotonin/physiology
    Chemical Substances Serotonin (333DO1RDJY) ; Dopamine (VTD58H1Z2X) ; Norepinephrine (X4W3ENH1CV)
    Language English
    Publishing date 2003-04-01
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ISSN 1543-1894
    ISSN 1543-1894
    DOI 10.1385/1-59259-358-5:415
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  9. Article ; Online: Ketamine modulates catecholamine transmission in the bed nucleus of stria terminalis: The possible role of this region in the antidepressant effects of ketamine.

    Cadeddu, Roberto / Jadzic, Dragana / Carboni, Ezio

    European neuropsychopharmacology : the journal of the European College of Neuropsychopharmacology

    2016  Volume 26, Issue 10, Page(s) 1678–1682

    Abstract: Since the therapeutic treatment of depression is far from being satisfactory, new therapeutic strategies ought to be pursued. In addition, further investigation on brain areas involved in the action mechanism of antidepressants can shed light on the ... ...

    Abstract Since the therapeutic treatment of depression is far from being satisfactory, new therapeutic strategies ought to be pursued. In addition, further investigation on brain areas involved in the action mechanism of antidepressants can shed light on the aetiology of depression. We have previously reported that typical and atypical antidepressants strongly stimulate catecholamine transmission in the bed nucleus of stria terminalis (BNST). In this study, we have built on that work to examine the effect of ketamine, an unusual antidepressant that can produce a fast-acting and long-lasting antidepressant effect after administration of a single sub-anaesthetic dose. Ketamine is an antagonist of the ionotropic N-methyl-D-aspartate (NMDA) receptor but can also act through its metabolite (2R-6R)-hydroxynorketamine. Using the microdialysis technique in freely moving rats, we monitored the acute effect of ketamine on catecholamine release in the BNST to gain clues to its prompt antidepressant effect. Male Sprague-Dawley rats were implanted with a microdialysis probe in the BNST and 48h later, were injected with ketamine (10, 20, and 40mg/kg, i.p.). Ketamine increased norepinephrine (127%, 155%, 186%) and dopamine (114%, 156%, 176%) extracellular concentration above basal in a time and dose dependent manner, without significantly modifying motility. Since the effect of ketamine, although lower, was not substantially different from that produced by classical antidepressants, we suggest that catecholamine increase in BNST is not likely to be related to a rapid ketamine antidepressant effect, though it might be related to its performance in predictive tests of antidepressant properties.
    Language English
    Publishing date 2016-10
    Publishing country Netherlands
    Document type Journal Article
    ZDB-ID 1082947-7
    ISSN 1873-7862 ; 0924-977X
    ISSN (online) 1873-7862
    ISSN 0924-977X
    DOI 10.1016/j.euroneuro.2016.08.009
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  10. Article ; Online: Key role of salsolinol in ethanol actions on dopamine neuronal activity of the posterior ventral tegmental area.

    Melis, Miriam / Carboni, Ezio / Caboni, Pierluigi / Acquas, Elio

    Addiction biology

    2015  Volume 20, Issue 1, Page(s) 182–193

    Abstract: Ethanol excites dopamine (DA) neurons in the posterior ventral tegmental area (pVTA). This effect is responsible for ethanol's motivational properties and may contribute to alcoholism. Evidence indicates that catalase-mediated conversion of ethanol into ... ...

    Abstract Ethanol excites dopamine (DA) neurons in the posterior ventral tegmental area (pVTA). This effect is responsible for ethanol's motivational properties and may contribute to alcoholism. Evidence indicates that catalase-mediated conversion of ethanol into acetaldehyde in pVTA plays a critical role in this effect. Acetaldehyde, in the presence of DA, condensates with it to generate salsolinol. Salsolinol, when administered in pVTA, excites pVTA DA cells, elicits DA transmission in nucleus accumbens and sustains its self-administration in pVTA. Here we show, by using ex vivo electrophysiology, that ethanol and acetaldehyde, but not salsolinol, failed to stimulate pVTA DA cell activity in mice administered α-methyl-p-tyrosine, a DA biosynthesis inhibitor that reduces somatodendritic DA release. This effect was specific for ethanol and acetaldehyde since morphine, similarly to salsolinol, was able to excite pVTA DA cells in α-methyl-p-tyrosine-treated mice. However, when DA was bath applied in slices from α-methyl-p-tyrosine-treated mice, ethanol-induced excitation of pVTA DA neurons was restored. This effect requires ethanol oxidation into acetaldehyde given that, when H2 O2 -catalase system was impaired by either 3-amino-1,2,4-triazole or in vivo administration of α-lipoic acid, ethanol did not enhance DA cell activity. Finally, high performance liquid chromatography-tandem mass spectrometry analysis of bath medium detected salsolinol only after co-application of ethanol and DA in α-methyl-p-tyrosine-treated mice. These results demonstrate the relationship between ethanol and salsolinol effects on pVTA DA neurons, help to untangle the mechanism(s) of action of ethanol in this area and contribute to an exciting research avenue prosperous of theoretical and practical consequences.
    MeSH term(s) Acetaldehyde/pharmacology ; Amitrole/pharmacology ; Animals ; Antioxidants/pharmacology ; Catalase/antagonists & inhibitors ; Central Nervous System Depressants/pharmacology ; Dopamine/metabolism ; Dopaminergic Neurons/drug effects ; Enzyme Inhibitors/pharmacology ; Ethanol/pharmacology ; Isoquinolines/pharmacology ; Mice ; Nucleus Accumbens/drug effects ; Thioctic Acid/pharmacology ; Ventral Tegmental Area/drug effects ; alpha-Methyltyrosine/pharmacology
    Chemical Substances Antioxidants ; Central Nervous System Depressants ; Enzyme Inhibitors ; Isoquinolines ; Ethanol (3K9958V90M) ; alpha-Methyltyrosine (658-48-0) ; Thioctic Acid (73Y7P0K73Y) ; salsolinol (9ILS801M65) ; Catalase (EC 1.11.1.6) ; Acetaldehyde (GO1N1ZPR3B) ; Dopamine (VTD58H1Z2X) ; Amitrole (ZF80H5GXUF)
    Language English
    Publishing date 2015-01
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1324314-7
    ISSN 1369-1600 ; 1355-6215
    ISSN (online) 1369-1600
    ISSN 1355-6215
    DOI 10.1111/adb.12097
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