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1.
Arch Toxicol ; 98(9): 2797-2816, 2024 Sep.
Article in English | MEDLINE | ID: mdl-38769171

ABSTRACT

Several studies suggest that crack cocaine users exhibit higher prevalence of both psychiatric and psychosocial problems, with an aggressive pattern of drug use. Nevertheless, few experimental studies attempted to verify the neurotoxicity after crack cocaine exposure, especially when compared with other routes of cocaine administration. This systematic review aimed to verify whether in vitro and/or in vivo crack cocaine exposure is more neurotoxic than cocaine exposure (snorted or injected). A search was performed in the PubMed, EMBASE, Scopus, Web of Science, and LILACS databases for in vitro and in vivo toxicological studies conducted with either rats or mice, with no distinction with regard to sex or age. Other methods including BioRxiv, BDTD, Academic Google, citation searching, and specialist consultation were also adopted. Two independent investigators screened the titles and abstracts of retrieved studies and subsequently performed full-text reading and data extraction. The quality of the included studies was assessed by the Toxicological data Reliability assessment Tool (ToxRTool). The study protocol was registered with the Prospective Registry of Systematic Reviews (PROSPERO; CRD42022332250). Of the twelve studies included, three were in vitro and nine were in vivo studies. According to the ToxRTool, most studies were considered reliable either with or without restrictions, with no one being considered as not reliable. The studies found neuroteratogenic effects, decreased threshold for epileptic seizures, schizophrenic-like symptoms, and cognitive deficits to be associated with crack cocaine exposure. Moreover, both in vitro and in vivo studies reported a worsening in cocaine neurotoxic effect caused by the anhydroecgonine methyl ester (AEME), a cocaine main pyrolysis product, which is in line with the more aggressive pattern of crack cocaine use. This systematic review suggests that crack cocaine exposure is more neurotoxic than other routes of cocaine administration. However, before the scarcity of studies on this topic, further toxicological studies are necessary.


Subject(s)
Crack Cocaine , Neurotoxicity Syndromes , Animals , Crack Cocaine/toxicity , Neurotoxicity Syndromes/etiology , Humans , Mice , Rats , Cocaine-Related Disorders
2.
J Neurosci Res ; 102(4): e25327, 2024 Apr.
Article in English | MEDLINE | ID: mdl-38588037

ABSTRACT

Despite evidence of the beneficial effects of cannabidiol (CBD) in animal models of cocaine use disorder (CUD), CBD neuronal mechanisms remain poorly understood. This study investigated the effects of CBD treatment on brain glucose metabolism, in a CUD animal model, using [18F]FDG positron emission tomography (PET). Male C57Bl/6 mice were injected with cocaine (20 mg/kg, i.p.) every other day for 9 days, followed by 8 days of CBD administration (30 mg/kg, i.p.). After 48 h, animals were challenged with cocaine. Control animals received saline/vehicle. [18F]FDG PET was performed at four time points: baseline, last day of sensitization, last day of withdrawal/CBD treatment, and challenge. Subsequently, the animals were euthanized and immunohistochemistry was performed on the hippocampus and amygdala to assess the CB1 receptors, neuronal nuclear protein, microglia (Iba1), and astrocytes (GFAP). Results showed that cocaine administration increased [18F]FDG uptake following sensitization. CBD treatment also increased [18F]FDG uptake in both saline and cocaine groups. However, animals that were sensitized and challenged with cocaine, and those receiving only an acute cocaine injection during the challenge phase, did not exhibit increased [18F]FDG uptake when treated with CBD. Furthermore, CBD induced modifications in the integrated density of NeuN, Iba, GFAP, and CB1R in the hippocampus and amygdala. This is the first study addressing the impact of CBD on brain glucose metabolism in a preclinical model of CUD using PET. Our findings suggest that CBD disrupts cocaine-induced changes in brain energy consumption and activity, which might be correlated with alterations in neuronal and glial function.


Subject(s)
Cannabidiol , Cocaine , Mice , Animals , Male , Cannabidiol/pharmacology , Cannabidiol/metabolism , Glucose/metabolism , Fluorodeoxyglucose F18/metabolism , Brain/metabolism , Cocaine/pharmacology , Mice, Inbred C57BL
3.
Reprod Toxicol ; 117: 108342, 2023 04.
Article in English | MEDLINE | ID: mdl-36758879

ABSTRACT

Studies suggest that gestational exposure to lead (Pb) is related to spontaneous abortions, preterm birth, lower infant birth weight and length, and neurological dysfunctions. However, the evidence about its effects during pregnancy exposure on fetal and child development is still poor. Thus, the aim of this systematic review was to verify the association between prenatal exposure to Pb and the occurrence of neurobehavioral deficits, miscarriages, and child mortality. Observational studies with pregnant women exposed to Pb during pregnancy were included, without gender or ethnicity restrictions. The MEDLINE, Cochrane Library, EMBASE, Scopus, Web of Science, and LILACS databases were searched. The reading of titles and abstracts was conducted, followed by reading in full format and data extraction, that were performed independently by two reviewers. The included studies were evaluated by Downs and Black tool and qualitatively synthesized. Certainty of evidence was assessed by Grading of Recommendations Assessment, Development, and Evaluations (GRADE). The study protocol was registered with the Prospective Registry of Systematic Reviews (PROSPERO; CRD42022296750). Among twenty-one studies included, sixteen were classified as prospective cohort, two case-control, one nested case-control, one cohort, and one longitudinal study. No study that evaluated child mortality associated with gestational Pb exposure was found. There is a very low certainty of evidence in the association of gestational Pb exposure and neurobehavioral deficits or miscarriages. This systematic review reflects the poor evidence and the challenges of human toxicology studies, since it was not possible to associate gestational Pb exposure to neurobehavioral deficits, miscarriages, and child mortality.


Subject(s)
Abortion, Spontaneous , Premature Birth , Child , Female , Humans , Infant , Infant, Newborn , Pregnancy , Child Development , Lead/toxicity , Longitudinal Studies
4.
Neurotox Res ; 40(6): 1653-1663, 2022 Dec.
Article in English | MEDLINE | ID: mdl-36342586

ABSTRACT

Excessive levels of dopamine in the synaptic cleft, induced by cocaine for example, activates dopaminergic receptors, mainly D1R, D2R, and D3R subtypes, contributing to neurotoxic effects. New synthetic 1-[(2,3-dihydro-1-benzofuran-2-yl)methyl]piperazine derivatives (the LINS01 compounds), designed as histaminergic receptor (H3R) ligands, are also dopaminergic receptor ligands, mainly D2R and D3R. This study aims to evaluate the neurotoxicity of these new synthetic LINS01 compounds (LINS01003, LINS01004, LINS01011, and LINS01018), as well as to investigate their protective potential on a cocaine model of dopamine-induced neurotoxicity using SH-SY5Y cell line culture. Neurotoxicity was assessed using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT), lactate dehydrogenase (LDH), and automated cell counting with fluorescent dyes (acridyl orange and propidium iodide) assays. Concentration-response curves (CRCs) were performed for all LINS compounds and cocaine using MTT assay. The results show that LINS series did not decrease cell viability after 48h of exposure-except for 100 µM LINS01018, which was discontinued from the study. Likewise, MTT, LDH, and fluorescent dyes staining showed no difference is cell viability for LINS compounds at 10 µM. When incubated with 2.5 mM cocaine (lethal concentration 50) for 48h, 10 µM of each LINS compound, metoclopramide (D2R antagonist) and haloperidol (D2R/D3R antagonist), ameliorated cocaine-induced neurotoxicity. However, only metoclopramide, haloperidol, and LINS01011 compound significantly decreased LDH released in the culture medium, suggesting that this new synthetic compound presents a more robust effect. This preliminary in vitro neurotoxicity study suggests that LINS01 compounds are not neurotoxic, and that they play a promising role in preventing cocaine-induced neurotoxicity.


Subject(s)
Cocaine , Neuroblastoma , Humans , Cocaine/toxicity , Dopamine , Haloperidol/pharmacology , Metoclopramide , Piperazine , Fluorescent Dyes , Cell Culture Techniques
5.
Int J Dev Neurosci ; 82(8): 759-771, 2022 Dec.
Article in English | MEDLINE | ID: mdl-36018565

ABSTRACT

Nicotine has been used during pregnancy and lactation as a tobacco harm reduction strategy. However, it is unclear whether nicotine exposure during a critical development period negatively impacts stress responses in adulthood. This study investigated how nicotine, administered via breastfeeding, affects the brain-derived neurotrophic factor (BDNF), synaptic proteins levels, and anxiety-like behavior in adult female mice subjected to stress. Female Swiss mice were exposed to saline or nicotine (8 mg/kg/day) through breastfeeding between their fourth and 17th postnatal days (P) via implanted osmotic mini pumps. The unpredictable chronic mild stress (UCMS) protocol was performed during their adulthood (P65) for 10 consecutive days, followed by the elevated plus maze (EPM) test 1 day after the protocol. Animals were euthanized and their blood, collected for plasma corticosterone measurements and their brain structures, dissected for BDNF and synaptic proteins analyses. We found no significant differences in corticosterone levels between groups (Saline/Non-stress, Nicotine/Non-stress, Saline/Stress, and Nicotine/Stress). The UCMS protocol hindered weight gain. Mice exposed to nicotine through breastfeeding with or without the UCMS protocol in adulthood showed higher grooming and head dipping frequency; decreased BDNF levels in cerebellum and striatum; increased postsynaptic density protein 95 (PSD-95), synapsin I, and synaptophysin levels in cerebellum; and decreased PSD-95 and synapsin I levels in brainstem. Our results indicate that nicotine exposure through breastfeeding leads to long-lasting behavioral effects and synaptic protein changes, most of which were independent of the UCMS protocol, even after a long nicotine-free period, highlighting the importance of further studies on nicotine exposure during development.


Subject(s)
Brain-Derived Neurotrophic Factor , Corticosterone , Pregnancy , Animals , Mice , Female , Brain-Derived Neurotrophic Factor/metabolism , Synapsins/metabolism , Brain/metabolism , Nicotine , Stress, Psychological
6.
Behav Brain Res ; 416: 113546, 2022 01 07.
Article in English | MEDLINE | ID: mdl-34437939

ABSTRACT

Alcohol use disorder needs more effective treatments because relapse rates remain high. Psychedelics, such as ayahuasca, have been used to treat substance use disorders. Our study aimed to evaluate the effects of ayahuasca on ethanol-induced behavioral sensitization (EIBS). Swiss mice received 2.2 g/kg ethanol or saline IP injections every other day across nine days (D1, D3, D5, D7, and D9), and locomotor activity was evaluated 10 min after each injection. Then, animals were treated daily with ayahuasca (corresponding to 1.76 mg/kg of N,N-dimethyltryptamine, DMT) or water by oral gavage for eight consecutive days. On the seventh day, mice were evaluated in the elevated plus maze. Then, mice were challenged with a single dose of ethanol to measure their locomotor activity. Dopamine receptors, serotonin receptors, dynorphin, and prodynorphin levels were quantified in the striatum and hippocampus by blot analysis. Repeated ethanol administration resulted in EIBS. However, those animals treated with ayahuasca had an attenuated EIBS. Moreover, ayahuasca reduced the anxiogenic response to ethanol withdrawal and prevented the ethanol-induced changes on 5-HT1a receptor and prodynorphin levels in the hippocampus and reduced ethanol effects in the dynorphin/prodynorphin ratio levels in the striatum. These results suggest a potential application of ayahuasca to modulate the neuroplastic changes induced by ethanol.


Subject(s)
Banisteriopsis/drug effects , Behavior, Animal/drug effects , Beverages , Ethanol/pharmacology , Hallucinogens/pharmacology , Neuronal Plasticity/drug effects , Animals , Hallucinogens/administration & dosage , Male , Mice
7.
Arch Toxicol ; 95(5): 1779-1791, 2021 05.
Article in English | MEDLINE | ID: mdl-33674969

ABSTRACT

Crack cocaine users are simultaneously exposed to volatilized cocaine and to its main pyrolysis product, anhydroecgonine methyl ester (AEME). Although the neurotoxic effects of cocaine have been extensively studied, little is known about AEME or its combination. We investigated cell death processes using rat primary hippocampal cells exposed to cocaine (2 mM), AEME (1 mM) and their combination (C + A), after 1, 3, 6 and 12 h. Cocaine increased LC3 I after 6 h and LC3 II after 12 h, but reduced the percentage of cells with acid vesicles, suggesting failure in the autophagic flux, which activated the extrinsic apoptotic pathway after 12 h. AEME neurotoxicity did not involve the autophagic process; rather, it activated caspase-9 after 6 h and caspase-8 after 12 h leading to a high percentage of cells in early apoptosis. C + A progressively reduced the percentage of undamaged cells, starting after 3 h; it activated both apoptotic pathways after 6 h, and was more neurotoxic than cocaine and AEME alone. Also, C + A increased the phosphorylation of p62 after 12 h, but there was little difference in LC3 I or II, and a small percentage of cells with acid vesicles at all time points investigated. In summary, the present study provides new evidence for the neurotoxic mechanism and timing response of each substance alone and in combination, indicating that AEME is more than just a biological marker for crack cocaine consumption, as it may intensify and hasten cocaine neurotoxicity.


Subject(s)
Cocaine/analogs & derivatives , Animals , Cocaine/toxicity , Gas Chromatography-Mass Spectrometry , Hippocampus , Neurons , Neurotoxicity Syndromes , Pyrolysis , Rats
8.
Mol Cell Biochem ; 476(4): 1849-1859, 2021 Apr.
Article in English | MEDLINE | ID: mdl-33469821

ABSTRACT

Luteolin is a flavonoid with antioxidant properties already demonstrated in studies related to inflammation, tumor, and cardiovascular processes; however, there are no available information regarding its antioxidant effects at the venous endothelial site. We investigated the effects of luteolin (10, 20, and 50 µmol/L) in cultures of rat venous endothelial cells. Nitric oxide (NO) and reactive oxygen species (ROS) were analyzed by fluorimetry; 3-nitrotyrosine (3-NT) residues were evaluated by immunofluorescence, and prostacyclin (PGI2) release was investigated by colorimetry. Intracellular NO levels were significantly enhanced after 10 min of luteolin incubation, with a parallel decrease in ROS generation. These results were accompanied by a significant reduction in the expression of 3-NT residues and enhanced PGI2 rates. Therefore, luteolin is effective in reducing ROS thereby improving NO availability in venous endothelial cells. Besides, luteolin-induced decrease in 3-NT residues may correlate with the enhancement in endothelial PGI2 bioavailability. These findings suggest the future application of this flavonoid as a protective agent by improving endothelial function in several circulatory disorders related to venous insufficiency.


Subject(s)
Antioxidants/pharmacology , Endothelium, Vascular/metabolism , Luteolin/pharmacology , Venae Cavae/metabolism , Animals , Nitric Oxide/metabolism , Rats , Reactive Oxygen Species/metabolism
9.
Toxicol Rep ; 6: 1223-1229, 2019.
Article in English | MEDLINE | ID: mdl-31768333

ABSTRACT

Crack cocaine smokers inhale, alongside with cocaine, its pyrolysis product, anhydroecgonine methyl ester (AEME). We have previously described AEME neurotoxic effect and its additive effect when co-incubated with cocaine. Our aim was to evaluate, the effect of AEME, cocaine and AEME-cocaine combination on glutathione peroxidase (GPx), glutathione reductase (GR) and glutathione S-transferase (GST) activities after 3 and 6 h of exposure, periods previous to neuronal death. Lipid peroxidation was evaluated through malonaldehyde (MDA) levels at 3, 6, 24 and 48 h of exposure. All treated groups reduced neuronal viability after 24 h of exposure. AEME and cocaine decreased GPx, GR and GST activities after 3 and 6 h, with an increase in MDA levels after 48 h. AEME-cocaine combination decreased the enzymes activities after 3 and 6 h, showing an additive effect in MDA levels after 48 h. These data show that the glutathione-related enzymes imbalance caused by AEME, cocaine or AEME-cocaine combination exposure preceded neuronal death and lipid peroxidation. Moreover, the additive effect on lipid peroxidation observed with AEME-cocaine exposure after 48 h, suggest a higher neurotoxic effect after crack cocaine use when compared to cocaine alone.

10.
Toxicol Rep, v. 6, p. 1223-1229, nov. 2019
Article in English | Sec. Est. Saúde SP, SESSP-IBPROD, Sec. Est. Saúde SP | ID: bud-2871

ABSTRACT

Crack cocaine smokers inhale, alongside with cocaine, its pyrolysis product, anhydroecgonine methyl ester (AEME). We have previously described AEME neurotoxic effect and its additive effect when co-incubated with cocaine. Our aim was to evaluate, the effect of AEME, cocaine and AEME-cocaine combination on glutathione peroxidase (GPx), glutathione reductase (GR) and glutathione S-transferase (GST) activities after 3 and 6h of exposure, periods previous to neuronal death. Lipid peroxidation was evaluated through malonaldehyde (MDA) levels at 3, 6, 24 and 48h of exposure. All treated groups reduced neuronal viability after 24h of exposure. AEME and cocaine decreased GPx, GR and GST activities after 3 and 6h, with an increase in MDA levels after 48h. AEME-cocaine combination decreased the enzymes activities after 3 and 6h, showing an additive effect in MDA levels after 48h. These data show that the glutathione-related enzymes imbalance caused by AEME, cocaine or AEME-cocaine combination exposure preceded neuronal death and lipid peroxidation. Moreover, the additive effect on lipid peroxidation observed with AEME-cocaine exposure after 48h, suggest a higher neurotoxic effect after crack cocaine use when compared to cocaine alone.

11.
Sci Rep ; 5: 17555, 2015 Dec 02.
Article in English | MEDLINE | ID: mdl-26626425

ABSTRACT

The smoke of crack cocaine contains cocaine and its pyrolysis product, anhydroecgonine methyl ester (AEME). AEME possesses greater neurotoxic potential than cocaine and an additive effect when they are combined. Since atropine prevented AEME-induced neurotoxicity, it has been suggested that its toxic effects may involve the muscarinic cholinergic receptors (mAChRs). Our aim is to understand the interaction between AEME and mAChRs and how it can lead to neuronal death. Using a rat primary hippocampal cell culture, AEME was shown to cause a concentration-dependent increase on both total [(3)H]inositol phosphate and intracellular calcium, and to induce DNA fragmentation after 24 hours of exposure, in line with the activation of caspase-3 previously shown. Additionally, we assessed AEME activity at rat mAChR subtypes 1-5 heterologously expressed in Chinese Hamster Ovary cells. l-[N-methyl-(3)H]scopolamine competition binding showed a preference of AEME for the M2 subtype; calcium mobilization tests revealed partial agonist effects at M1 and M3 and antagonist activity at the remaining subtypes. The selective M1 and M3 antagonists and the phospholipase C inhibitor, were able to prevent AEME-induced neurotoxicity, suggesting that the toxicity is due to the partial agonist effect at M1 and M3 mAChRs, leading to DNA fragmentation and neuronal death by apoptosis.


Subject(s)
Cocaine/analogs & derivatives , Hippocampus/metabolism , Neurotoxicity Syndromes/metabolism , Neurotoxins/toxicity , Receptor, Muscarinic M1/metabolism , Receptor, Muscarinic M3/metabolism , Animals , Apoptosis/drug effects , CHO Cells , Cocaine/toxicity , Cricetinae , Cricetulus , DNA Fragmentation/drug effects , Female , Hippocampus/pathology , Neurotoxicity Syndromes/pathology , Rats , Time Factors
12.
São Paulo; s.n; s.n; 2014. 154 p. tab, graf, ilus.
Thesis in Portuguese | LILACS | ID: biblio-836922

ABSTRACT

O crack é a forma fumada de administração da cocaína com o maior potencial para causar dependência. Até 80% da sua fumaça consiste no produto de pirólise da cocaína, a metilecgonidina (AEME). Apesar do vasto conhecimento acerca dos efeitos e prejuízos causados pela cocaína, nenhum trabalho avaliou os efeitos da AEME na farmacodependência, objetivo deste trabalho. Ratos adultos machos Wistar foram expostos à salina, à AEME 3 mg/kg, à cocaína 15 mg/kg e a associação entre cocaína e AEME, intraperitonealmente, em duas situações: 1) exposição prolongada (administração todos os dias, por 9 dias); 2) sensibilização comportamental dependente de contexto (administração em dias alternados, por 5 dias e 7 dias de abstinência, seguido do desafio). A dose de AEME foi definida pela avaliação da atividade locomotora em teste agudo. A AEME foi capaz de aumentar a atividade locomotora após exposição prolongada e potencializar a expressão da sensibilização comportamental dependente de contexto induzida pela cocaína. A concentração de dopamina e seus metabólitos aumentaram no caudado-putâmen em todos os grupos, sendo observado um sinergismo entre cocaína e AEME no grupo da associação. No núcleo accumbens, foi observado aumento de dopamina apenas nos grupos cocaína e associação. Paralelamente, houve aumento da relação p-CREB/CREB 60 minutos após a administração aguda de AEME 3 mg/kg e cocaína 15 mg/kg, tanto no caudado-putâmen quanto no núcleo accumbens, assim como nos grupos cocaína e associação após a sensibilização comportamental dependente de contexto. Com a finalidade de determinar o mecanismo de ação da AEME, foi realizado um estudo farmacológico detalhado dessa substância em células CHO-K1 de rato expressando heterologamente os receptores colinérgicos muscarínicos subtipos 1 a 5, uma vez que estudos anteriores sugeriram uma interação entre a AEME e os receptores colinérgicos muscarínicos. O ensaio de competição com [3H]NMS mostrou uma pequena preferência da AEME para o subtipo M2. Estudos funcionais (mobilização de cálcio) revelaram um efeito agonista parcial da AEME para os subtipos M1 e M3 e antagonista para os demais subtipos, dando suporte à hipótese colinérgica de ação da AEME. Nossos resultados indicam que a AEME isoladamente não foi capaz de causar sensibilização, mas potencializou a ação da cocaína quando coadministrada. O efeito antagonista da AEME em receptores subtipo M2 e M4 no caudado-putâmen, e M4 e M5 no núcleo accumbens causaram aumento de dopamina nessas regiões encefálicas, onde a atividade colinérgica medeia sua liberação


Crack cocaine is the smoked form of cocaine with the highest potential for addiction. Up to 80% of crack smoke consists of cocaines pyrolysis product anhydroecgonine methyl ester (AEME). Despite of many studies regarding cocaine effects and its hazardousness, few reports have assessed AEME's role in addiction, the aim of this study. Adult male Wistar rats were i.p. dosed with either saline, 3 mg/kg AEME, cocaine 15 mg/kg, or cocaine-AEME combination in two situations: 1) prolonged exposure (drugs administered every day for 9 days); 2) behavioral sensitization context specific (drugs administered in alternating days for 5 days, followed by 7-days abstinence period and a challenge injection). AEME dose was chosen based on locomotor activity after an acute test. AEME increased locomotor activity in the prolonged exposure and it potentiated cocaine-induced behavioral sensitization. Dopamine level and its metabolites were elevated in the caudate-putamen in all non-saline groups with a synergic effect between cocaine and AEME in the cocaine-AEME group. In the nucleus accumbens, dopamine was elevated only in cocaine and cocaine-AEME groups. At the same time, p-CREB/CREB ratio, increased 60 minutes after an acute administration of 3 mg/kg AEME and 15 mg/kg cocaine in both caudate-putamen and nucleus accumbens, the same result observed in both cocaine and cocaine-AEME groups after behavioral sensitization. Once previous studies suggested AEME interacts with muscarinic acetylcholine receptors, a detailed pharmacological analysis of AEME at rat muscarinic acetylcholine receptors subtypes 1-5 heterologously expressed in CHO-K1 cells was performed to determine a mechanism for the novel effects of AEME. [3H]NMS competition binding showed a slight preference for M2 subtype; functional studies (Ca2+ mobilization) revealed partial agonist effects at M1 and M3 and antagonist effects at the remaining subtypes, supporting the cholinergic hypothesis of AEME's effects. Our results indicate AEME alone does not elicit behavior sensitization but significantly potentiates cocaine sensitization when co-administered. AEME antagonism effects at M2 and M4 muscarinic acetylcholine receptors subtypes in the caudate-putamen, and M4 and M5 muscarinic acetylcholine receptors subtypes in the nucleus accumbens resulted in dopamine increase in these brain regions, where its release is mediated by cholinergic activity


Subject(s)
Animals , Male , Rats , Pyrolysis/adverse effects , Crack Cocaine/adverse effects , Cocaine-Related Disorders/psychology , Aspartame , Crack Cocaine/toxicity , Rats, Wistar
13.
Toxicol Sci ; 128(1): 223-34, 2012 Jul.
Article in English | MEDLINE | ID: mdl-22523227

ABSTRACT

Smoking crack cocaine involves the inhalation of cocaine and its pyrolysis product, anhydroecgonine methyl ester (AEME). Although there is evidence that cocaine is neurotoxic, the neurotoxicity of AEME has never been evaluated. AEME seems to have cholinergic agonist properties in the cardiovascular system; however, there are no reports on its effects in the central nervous system. The aim of this study was to investigate the neurotoxicity of AEME and its possible cholinergic effects in rat primary hippocampal cell cultures that were exposed to different concentrations of AEME, cocaine, and a cocaine-AEME combination. We also evaluated the involvement of muscarinic cholinergic receptors in the neuronal death induced by these treatments using concomitant incubation of the cells with atropine. Neuronal injury was assessed using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) and lactate dehydrogenase (LDH) assays. The results of the viability assays showed that AEME is a neurotoxic agent that has greater neurotoxic potential than cocaine after 24 and 48 h of exposure. We also showed that incubation for 48 h with a combination of both compounds in equipotent concentrations had an additive neurotoxic effect. Although both substances decreased cell viability in the MTT assay, only cocaine increased LDH release. Caspase-3 activity was increased after 3 and 6 h of incubation with 1mM cocaine and after 6 h of 0.1 and 1.0mM AEME exposure. Atropine prevented the AEME-induced neurotoxicity, which suggests that muscarinic cholinergic receptors are involved in AEME's effects. In addition, binding experiments confirmed that AEME has an affinity for muscarinic cholinergic receptors. Nevertheless, atropine was not able to prevent the neurotoxicity produced by cocaine and the cocaine-AEME combination, suggesting that these treatments activated other neuronal death pathways. Our results suggest a higher risk for neurotoxicity after smoking crack cocaine than after cocaine use alone.


Subject(s)
Cocaine/analogs & derivatives , Hippocampus/drug effects , Animals , Cells, Cultured , Cocaine/toxicity , Female , Hippocampus/cytology , Immunohistochemistry , Pregnancy , Quinuclidinyl Benzilate/metabolism , Radioligand Assay , Rats , Rats, Wistar , Tritium
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