Your search keyword '"nAChRs"' showing total 235 results

1. A novel α-conotoxin [D1G, ΔQ14] LvIC decreased mouse locomotor activity

Author

Wen Wang, Meiting Wang, Huanbai Wang, Weifeng Xu, Conggang Wang, Jie Pei, Xiaodan Li, and Dongting Zhangsun

Subjects

α-conotoxin [D1G, ΔQ14] LvIC, locomotor activity, ncs-1, NLGN-3, nAChRs, Therapeutics. Pharmacology, RM1-950

Abstract

Background and PurposeNicotinic acetylcholine receptors (nAChRs), which are expressed throughout the mammalian brain, mediate a variety of physiological functions. Despite their widespread presence, the functions of nAChRs are not yet fully understood. α-Conotoxins, which are peptides derived from the venom of marine cone snails, target different subtypes of nAChRs. Specifically, α-Conotoxins [D1G, ΔQ14] LvIC, identified from Conus lividus, have demonstrated strong activity on α6β4* nAChRs in vitro. However, the effects of [D1G, ΔQ14] LvIC have not been investigated in vivo. This study aims to examine the activities of [D1G, ΔQ14] LvIC and explore its potential mechanisms in vivo.MethodsThe study involved the injection of [D1G, ΔQ14] LvIC into the lateral cerebral ventricle (LV) of mice. Following this procedure, behavioral tests were conducted to assess changes in the mice’s behavior. To investigate the molecular alterations in the mice’s brains, untargeted metabolomics and label-free Liquid Chromatography-Tandem Mass Spectrometry (LC-MS/MS) were employed. Subsequently, Western blot (WB) and quantitative reverse transcription PCR (RT-qPCR) techniques were utilized to detect specific molecular changes induced by [D1G, ΔQ14] LvIC.ResultsThe injection of [D1G, ΔQ14] LvIC led to a decrease in locomotor activity in mice. This treatment also resulted in reduced expression of neuronal calcium sensor 1 (NCS-1) and neuroligin 3 (NLGN-3) in the prefrontal cortex (PFC), hippocampus (Hip), and caudate putamen (CPu). Both NCS-1 and NLGN-3 are crucial for neuronal development, synapse formation, and neuron activity, and their reduction is associated with decreased synapse strength. Despite these changes, results from the Morris water maze (MWM) indicated that [D1G, ΔQ14] LvIC did not impair the learning and memory abilities of the mice.ConclusionOur findings indicate that α-conotoxin [D1G, ΔQ14] LvIC significantly decreased locomotor activity in mice. Additionally, it altered gene expression primarily in areas related to neuronal development, synapse formation, and neuron activity, while also reducing synapse strength. This study first proposed that [D1G, ΔQ14] LvIC could modulate mice’s locomotor activity. However, further investigation is needed to understand the therapeutic effects of [D1G, ΔQ14] LvIC.

Published

2025

2. Nicotinic regulation of microglia: potential contributions to addiction.

Author

Soares, Alexa R. and Picciotto, Marina R.

Subjects

*MICROGLIA, *NICOTINIC acetylcholine receptors, *NICOTINE addiction, *ADDICTIONS, *INTRACELLULAR calcium

Abstract

Clinical and preclinical studies have identified immunosuppressive effects of nicotine, with potential implications for treating nicotine addiction. Here we review how nicotine can regulate microglia, the resident macrophages in the brain, and corresponding effects of nicotine on neuroimmune signaling. There is significant evidence that activation of α7 nicotinic acetylcholine receptors (nAChRs) on microglia can trigger an anti-inflammatory cascade that alters microglial polarization and activity, cytokine release, and intracellular calcium concentrations, leading to neuroprotection. These anti-inflammatory effects of nicotine-dependent α7 nAChR signaling are lost during withdrawal, suggesting that neuroimmune signaling is potentiated during abstinence, and thus, heightened microglial activity may drive circuit disruption that contributes to withdrawal symptoms and hyperkatifeia. In sum, the clinical literature has highlighted immunomodulatory effects of nicotine and the potential for anti-inflammatory compounds to treat addiction. The preclinical literature investigating the underlying mechanisms points to a role of microglial engagement in the circuit dysregulation and behavioral changes that occur during nicotine addiction and withdrawal, driven, at least in part, by activation of α7 nAChRs on microglia. Specifically targeting microglial signaling may help alleviate withdrawal symptoms in people with nicotine dependence and help to promote abstinence. [ABSTRACT FROM AUTHOR]

Published

2024

3. Using Constellation Pharmacology to Characterize a Novel α-Conotoxin from Conus ateralbus.

Author

Neves, Jorge L. B., Urcino, Cristoval, Chase, Kevin, Dowell, Cheryl, Hone, Arik J., Morgenstern, David, Chua, Victor M., Ramiro, Iris Bea L., Imperial, Julita S., Leavitt, Lee S., Phan, Jasmine, Fisher, Fernando A., Watkins, Maren, Raghuraman, Shrinivasan, Tun, Jortan O., Ueberheide, Beatrix M., McIntosh, J. Michael, Vasconcelos, Vitor, Olivera, Baldomero M., and Gajewiak, Joanna

Abstract

The venom of cone snails has been proven to be a rich source of bioactive peptides that target a variety of ion channels and receptors. α-Conotoxins (αCtx) interact with nicotinic acetylcholine receptors (nAChRs) and are powerful tools for investigating the structure and function of the various nAChR subtypes. By studying how conotoxins interact with nAChRs, we can improve our understanding of these receptors, leading to new insights into neurological diseases associated with nAChRs. Here, we describe the discovery and characterization of a novel conotoxin from Conus ateralbus, αCtx-AtIA, which has an amino acid sequence homologous to the well-described αCtx-PeIA, but with a different selectivity profile towards nAChRs. We tested the synthetic αCtx-AtIA using the calcium imaging-based Constellation Pharmacology assay on mouse DRG neurons and found that αCtx-AtIA significantly inhibited ACh-induced calcium influx in the presence of an α7 positive allosteric modulator, PNU-120596 (PNU). However, αCtx-AtIA did not display any activity in the absence of PNU. These findings were further validated using two-electrode voltage clamp electrophysiology performed on oocytes overexpressing mouse α3β4, α6/α3β4 and α7 nAChRs subtypes. We observed that αCtx-AtIA displayed no or low potency in blocking α3β4 and α6/α3β4 receptors, respectively, but improved potency and selectivity to block α7 nAChRs when compared with αCtx-PeIA. Through the synthesis of two additional analogs of αCtx-AtIA and subsequent characterization using Constellation Pharmacology, we were able to identify residue Trp18 as a major contributor to the activity of the peptide. [ABSTRACT FROM AUTHOR]

Published

2024

4. Cigarette Smoking Contributes to Th1/Th2 Cell Dysfunction via the Cytokine Milieu in Chronic Obstructive Pulmonary Disease

Author

Chen G, Mu Q, and Meng ZJ

Subjects

chronic obstructive pulmonary disease, copd, cigarette smoke, t helper 1, th1 cells, th2, nicotinic acetylcholine receptors, nachrs, Diseases of the respiratory system, RC705-779

Abstract

Gang Chen,1 Qing Mu,1 Zhao-Ji Meng2 1Department of Respiratory and Critical Care Medicine, Henan Provincial People’s Hospital, People’s Hospital of Zhengzhou University, Zhengzhou, Henan, People’s Republic of China; 2Department of Immune Allergy, Henan Provincial People’s Hospital, People’s Hospital of Zhengzhou University, Zhengzhou, Henan, People’s Republic of ChinaCorrespondence: Gang Chen, Department of Respiratory and Critical Care Medicine, Henan Provincial People’s Hospital, People’s Hospital of Zhengzhou University, 7 Weiwu Road, Zhengzhou, Henan, 450003, People’s Republic of China, Email chengangvips@163.comBackground: Dysregulation and pyroptosis of T-helper (Th) cells and inflammatory cytokines have been implicated in the pathogenesis of chronic obstructive pulmonary disease (COPD). However, the immune response mechanisms as a consequence of tobacco smoke exposure are not fully understood. We hypothesized that cigarette smoke-induced inflammation could be modulated through the cytokine milieu and T-cell nicotinic acetylcholine receptors (nAChRs).Methods: The proportions of peripheral blood Th1 and Th2 cells from patients with COPD, smokers without airway obstruction and healthy nonsmokers were analyzed using flow cytometry. The levels of plasma proinflammatory cytokines and their potential association with pulmonary function were also measured. The influence of cigarette smoke extract (CSE) on the conditioned differentiation of T helper cell subsets was further examined in vitro.Results: Significantly higher Th1 cell and plasma IFN-γ and IL-18 levels but lower levels of Th2 cells were found in the peripheral blood from patients with COPD. The increased plasma levels of IFN-γ and IL-18 were negatively correlated with pulmonary function (FEV1% predicted value). Pyroptosis participates in COPD development probably through the activation of the NLRP3 inflammasome upon exposure to CSE. CSE does not directly induce the differentiation of T helper cells; however, under conditioned medium, CSE promotes Th1 development through α 7 nAChR modification, while it does not substantially interfere with Th2 differentiation.Conclusion: The differences in the cytokine milieu play a key role in the effects of CSE on the immune response in patients with COPD.Keywords: chronic obstructive pulmonary disease, COPD, cigarette smoke, T helper 1, Th1 cells, Th2, nicotinic acetylcholine receptors, nAChRs

Published

2023

5. Unbalanced Regulation of α7 nAChRs by Ly6h and NACHO Contributes to Neurotoxicity in Alzheimers Disease.

Author

Wu, Meilin, Liu, Clifford, Barrall, Erika, Rissman, Robert, and Joiner, William

Subjects

Alzheimers disease, Ly6, NACHO, amyloid β, nAChRs, neurotoxicity, Aged, Aged, 80 and over, Alzheimer Disease, Animals, Cell Line, Cells, Cultured, Female, Hippocampus, Humans, Male, Membrane Glycoproteins, Nerve Tissue Proteins, Rats, Rats, Sprague-Dawley, Temporal Lobe, alpha7 Nicotinic Acetylcholine Receptor

Abstract

α7 nicotinic acetylcholine receptors (nAChRs) are widely expressed in the brain where they promote fast cholinergic synaptic transmission and serve important neuromodulatory functions. However, their high permeability to Ca2+ also predisposes them to contribute to disease states. Here, using transfected HEK-tsa cells and primary cultured hippocampal neurons from male and female rats, we demonstrate that two proteins called Ly6h and NACHO compete for access to α7 subunits, operating together but in opposition to maintain α7 assembly and activity within a narrow range that is optimal for neuronal function and viability. Using mixed gender human temporal cortex and cultured hippocampal neurons from rats we further show that this balance is perturbed during Alzheimers disease (AD) because of amyloid β (Aβ)-driven reduction in Ly6h, with severe reduction leading to increased phosphorylated tau and α7-mediated neurotoxicity. Ly6h release into human CSF is also correlated with AD severity. Thus, Ly6h links cholinergic signaling, Aβ and phosphorylated tau and may serve as a novel marker for AD progression.SIGNIFICANCE STATEMENT One of the earliest and most persistent hypotheses regarding Alzheimers disease (AD) attributes cognitive impairment to loss of cholinergic signaling. More recently, interest has focused on crucial roles for amyloid β (Aβ) and phosphorylated tau in Alzheimers pathogenesis. Here, we demonstrate that these elements are linked by Ly6h and its counterpart, NACHO, functioning in opposition to maintain assembly of nicotinic acetylcholine receptors (nAChRs) within the physiological range. Our data suggests that Aβ shifts the balance away from Ly6h and toward NACHO, resulting in increased assembly of Ca2+-permeable nAChRs and thus a conversion of basal cholinergic to neurotoxic signaling.

Published

2021

6. Cullin-3 intervenes in muscle atrophy in the elderly by mediating the degradation of nAchRs ubiquitination

Author

Jintao Chen, Qun Xu, Xinyi Wang, Zherong Xu, and Xujiao Chen

Subjects

Cul3, nAChRs, NMJ, Muscle atrophy, Sarcopenia, Medicine, Biology (General), QH301-705.5

Abstract

Sarcopenia involves in the loss of muscle mass associated with aging, which is the major cause of progressive muscle weakness and deterioration in older adults. Muscle atrophy is a direct presentation of sarcopenia, and it greatly contributes to the decline in quality of life among older adults. Neuromuscular junction (NMJ) stability is the key link to maintain muscle function. Besides, the degenerative change of NMJ promotes the process of muscle atrophy in the elderly. Based on previous transcriptome sequencing and bioinformatics analyses of aged muscle, this study used the 18-month-old aged mouse model and the 6-month-old young mouse model to deliberate the role and underlying mechanisms of Cullin-3 (Cul3) in age-related muscle atrophy. The results of reverse transcriptase polymerase chain reaction (RT-PCR) and immunoblotting analysis showed that the expression of CUL3 increased in aged muscle tissue, while the expression level of postsynaptic membrane nicotinic acetylcholine receptors (nAChRs) decreased significantly, which manfested a negative correlation. Meanwhile, immunofluorescence demonstrated that Cul3 was highly expressed in senile muscle NMJ. The results of ubiquitin indicated that the ubiquitin level of aged muscle nAChRs was evidently increased. Co-immunoprecipitation furtherly verified the correlation between Cul3 and nAChRs. Taken together, Cul3 may mediate the ubiquitination degradation of nAChRs protein at the NMJ site in aged mice, leading to NMJ degeneration and accelerated atrophy of fast-twitch muscle fibers in aged muscle. As a prominent element to maintain the stability of NMJ, Cul3 is supposed to be one of candidate intervention targets in sarcopenia.

Published

2023

7. Nicotinic Acetylcholine Receptor Dysfunction in Addiction and in Some Neurodegenerative and Neuropsychiatric Diseases.

Author

Vallés, Ana Sofía and Barrantes, Francisco J.

Subjects

*NICOTINIC acetylcholine receptors, *CHOLINERGIC receptors, *NEURODEGENERATION, *NICOTINIC receptors, *ALZHEIMER'S disease, *ADDICTIONS, *CHOLINERGIC mechanisms

Abstract

The cholinergic system plays an essential role in brain development, physiology, and pathophysiology. Herein, we review how specific alterations in this system, through genetic mutations or abnormal receptor function, can lead to aberrant neural circuitry that triggers disease. The review focuses on the nicotinic acetylcholine receptor (nAChR) and its role in addiction and in neurodegenerative and neuropsychiatric diseases and epilepsy. Cholinergic dysfunction is associated with inflammatory processes mainly through the involvement of α7 nAChRs expressed in brain and in peripheral immune cells. Evidence suggests that these neuroinflammatory processes trigger and aggravate pathological states. We discuss the preclinical evidence demonstrating the therapeutic potential of nAChR ligands in Alzheimer disease, Parkinson disease, schizophrenia spectrum disorders, and in autosomal dominant sleep-related hypermotor epilepsy. PubMed and Google Scholar bibliographic databases were searched with the keywords indicated below. [ABSTRACT FROM AUTHOR]

Published

2023

8. Using Constellation Pharmacology to Characterize a Novel α-Conotoxin from Conus ateralbus

Author

Jorge L. B. Neves, Cristoval Urcino, Kevin Chase, Cheryl Dowell, Arik J. Hone, David Morgenstern, Victor M. Chua, Iris Bea L. Ramiro, Julita S. Imperial, Lee S. Leavitt, Jasmine Phan, Fernando A. Fisher, Maren Watkins, Shrinivasan Raghuraman, Jortan O. Tun, Beatrix M. Ueberheide, J. Michael McIntosh, Vitor Vasconcelos, Baldomero M. Olivera, and Joanna Gajewiak

Subjects

conotoxin, nAChRs, Constellation Pharmacology, DRG neurons, Biology (General), QH301-705.5

Abstract

The venom of cone snails has been proven to be a rich source of bioactive peptides that target a variety of ion channels and receptors. α-Conotoxins (αCtx) interact with nicotinic acetylcholine receptors (nAChRs) and are powerful tools for investigating the structure and function of the various nAChR subtypes. By studying how conotoxins interact with nAChRs, we can improve our understanding of these receptors, leading to new insights into neurological diseases associated with nAChRs. Here, we describe the discovery and characterization of a novel conotoxin from Conus ateralbus, αCtx-AtIA, which has an amino acid sequence homologous to the well-described αCtx-PeIA, but with a different selectivity profile towards nAChRs. We tested the synthetic αCtx-AtIA using the calcium imaging-based Constellation Pharmacology assay on mouse DRG neurons and found that αCtx-AtIA significantly inhibited ACh-induced calcium influx in the presence of an α7 positive allosteric modulator, PNU-120596 (PNU). However, αCtx-AtIA did not display any activity in the absence of PNU. These findings were further validated using two-electrode voltage clamp electrophysiology performed on oocytes overexpressing mouse α3β4, α6/α3β4 and α7 nAChRs subtypes. We observed that αCtx-AtIA displayed no or low potency in blocking α3β4 and α6/α3β4 receptors, respectively, but improved potency and selectivity to block α7 nAChRs when compared with αCtx-PeIA. Through the synthesis of two additional analogs of αCtx-AtIA and subsequent characterization using Constellation Pharmacology, we were able to identify residue Trp18 as a major contributor to the activity of the peptide.

Published

2024

9. Smoking-mediated nicotinic acetylcholine receptors (nAChRs) for predicting outcomes for head and neck squamous cell carcinomas

Author

Yujie Shen, Qiang Huang, Mengyou Ji, Chi-Yao Hsueh, and Liang Zhou

Subjects

Smoking, nAChRs, HNSCC, Prognosis, Outcome, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background As a human tumor disease, head and neck squamous cell carcinoma (HNSCC) is associated with a high mortality rate worldwide. Nicotinic acetylcholine receptors (nAChRs) are transmembrane receptor proteins and exert their biological effects following activation by nicotine. We aimed to construct a prognostic signature based on the expression of nAChRs among smokers with HNSCC. Methods The transcriptome profile of nAChRs was obtained from The Cancer Genome Atlas (TCGA). Following the integration of survival information, univariate Cox regression and least absolute shrinkage and selection operator (LASSO) analyses were performed to screen the prognosis-related nAChRs and construct a prognostic signature. Kaplan–Meier (KM), receiver operating characteristic (ROC), principal component analysis (PCA), and independent prognostic analysis were utilized to verify the predictive power of the nAChR-associated prognostic signature. The expression of α5 nAChR in clinical samples was verified by quantitative reverse transcriptase PCR. Results Subunits α2, α5, α9, and β4 were related to the prognosis. The prognostic signature comprised the expression of subunits α5, α9, and β4. The nAChR-associated signature showed high sensitivity and specificity for prognostic prediction and was an independent factor for overall survival. Based on the clinical variables and expression of nAChRs, a nomogram was constructed for predicting the outcomes of HNSCC patients who were smokers in the clinical settings. In clinical specimens, α5 nAChR showed high expression in HNSCC tissues, especially among smokers. Conclusions The nAChR-associated signature constructed in this study may provide a better system for the classification of HNSCC patients and facilitate personalized treatment according to their smoking habits.

Published

2022

10. Rare Missense Variants of the Human β4 Subunit Alter Nicotinic α3β4 Receptor Plasma Membrane Localisation.

Author

Colombo, Sara Francesca, Galli, Cecilia, Crespi, Arianna, Renzi, Massimiliano, and Gotti, Cecilia

Subjects

*MISSENSE mutation, *CELL membranes, *NICOTINIC acetylcholine receptors, *PERIPHERAL nervous system, *NICOTINIC receptors, *AMYOTROPHIC lateral sclerosis, *GABA receptors

Abstract

α3β4 nicotinic acetylcholine receptors (nARs) are pentameric ligand-gated cation channels that function in peripheral tissue and in the peripheral and central nervous systems, where they are critical mediators of ganglionic synaptic transmission and modulators of reward-related behaviours. In the pentamer, two α3β4 subunit couples provide ligand-binding sites, and the fifth single (accessory) subunit (α3 or β4) regulates receptor trafficking from the endoplasmic reticulum to the cell surface. A number of rare missense variants of the human β4 subunit have recently been linked to nicotine dependence and/or sporadic amyotrophic lateral sclerosis, and altered responses to nicotine have been reported for these variants; however, it is unknown whether the effects of mutations depend on the subunit within the ligand-binding couples and/or on the fifth subunit. Here, by expressing single populations of pentameric receptors with fixed stoichiometry in cultured cells, we investigated the effect of β4 variants in the fifth position on the assembly and surface exposure of α3β4 nAChRs. The results demonstrate that the missense mutations in the accessory subunit alone, despite not affecting the assembly of α3β4 receptors, alter their trafficking and surface localisation. Thus, altered trafficking of an otherwise functional nAChR may underlie the pathogenic effects of these mutations. [ABSTRACT FROM AUTHOR]

Published

2023

11. Smoking-mediated nicotinic acetylcholine receptors (nAChRs) for predicting outcomes for head and neck squamous cell carcinomas.

Author

Shen, Yujie, Huang, Qiang, Ji, Mengyou, Hsueh, Chi-Yao, and Zhou, Liang

Abstract

Background: As a human tumor disease, head and neck squamous cell carcinoma (HNSCC) is associated with a high mortality rate worldwide. Nicotinic acetylcholine receptors (nAChRs) are transmembrane receptor proteins and exert their biological effects following activation by nicotine. We aimed to construct a prognostic signature based on the expression of nAChRs among smokers with HNSCC.Methods: The transcriptome profile of nAChRs was obtained from The Cancer Genome Atlas (TCGA). Following the integration of survival information, univariate Cox regression and least absolute shrinkage and selection operator (LASSO) analyses were performed to screen the prognosis-related nAChRs and construct a prognostic signature. Kaplan-Meier (KM), receiver operating characteristic (ROC), principal component analysis (PCA), and independent prognostic analysis were utilized to verify the predictive power of the nAChR-associated prognostic signature. The expression of α5 nAChR in clinical samples was verified by quantitative reverse transcriptase PCR.Results: Subunits α2, α5, α9, and β4 were related to the prognosis. The prognostic signature comprised the expression of subunits α5, α9, and β4. The nAChR-associated signature showed high sensitivity and specificity for prognostic prediction and was an independent factor for overall survival. Based on the clinical variables and expression of nAChRs, a nomogram was constructed for predicting the outcomes of HNSCC patients who were smokers in the clinical settings. In clinical specimens, α5 nAChR showed high expression in HNSCC tissues, especially among smokers.Conclusions: The nAChR-associated signature constructed in this study may provide a better system for the classification of HNSCC patients and facilitate personalized treatment according to their smoking habits. [ABSTRACT FROM AUTHOR]

Published

2022

12. Conus regius -Derived Conotoxins: Novel Therapeutic Opportunities from a Marine Organism.

Author

Margiotta, Francesco, Micheli, Laura, Ciampi, Clara, Ghelardini, Carla, McIntosh, J. Michael, and Di Cesare Mannelli, Lorenzo

Abstract

Conus regius is a marine venomous mollusk of the Conus genus that captures its prey by injecting a rich cocktail of bioactive disulfide bond rich peptides called conotoxins. These peptides selectively target a broad range of ion channels, membrane receptors, transporters, and enzymes, making them valuable pharmacological tools and potential drug leads. C. regius-derived conotoxins are particularly attractive due to their marked potency and selectivity against specific nicotinic acetylcholine receptor subtypes, whose signalling is involved in pain, cognitive disorders, drug addiction, and cancer. However, the species-specific differences in sensitivity and the low stability and bioavailability of these conotoxins limit their clinical development as novel therapeutic agents for these disorders. Here, we give an overview of the main pharmacological features of the C. regius-derived conotoxins described so far, focusing on the molecular mechanisms underlying their potential therapeutic effects. Additionally, we describe adoptable chemical engineering solutions to improve their pharmacological properties for future potential clinical translation. [ABSTRACT FROM AUTHOR]

Published

2022

13. Clinical, molecular, physiologic, and therapeutic feature of patients with CHRNA4 and CHRNB2 deficiency: A systematic review.

Author

Jalaiei A, Asadi MR, Daneshmandpour Y, Rezazadeh M, and Ghafouri-Fard S

Subjects

Humans, Mutation genetics, Neurodegenerative Diseases genetics, Neurodegenerative Diseases metabolism, Receptors, Nicotinic genetics

Abstract

The α4β2 nAChRs are crucial ion channels that control neurotransmitter release and play a role in various physiologic and pathologic processes. CHRNA4 encodes the α4-nAChRs, while CHRNB2 encodes the β2-nAChRs. Recent studies have found different variants of α4β2-nAChRs in individuals with conditions such as AD, ADHD, ALS, PD, and brain abnormalities. We conducted a scoping review following a six-stage methodology structure and adhering to PRISMA guidelines. We systematically reviewed articles using relevant keywords up to October 2, 2023. In this summary, we cover the clinical symptoms reported, the genes and protein structure of CHRNA4 and CHRNB2, mutations in these genes, inheritance patterns, the functional impact of mutations and polymorphisms in CHRNA4 and CHRNB2, and the epidemiology of these diseases. Recent research indicates that nAChRs may play a significant role in neurodegenerative disorders, possibly impacting neuronal function through yet undiscovered regulatory pathways. Studying how nAChRs interact with disease-related aggregates in neurodegenerative conditions may lead to new treatment options for these disorders., (© 2024 International Society for Neurochemistry.)

Published

2025

14. 农药对蜜蜂的影响及毒理学机制研究进展.

Author

张伟, 齐素贞, 薛晓锋, and 邱立红

Subjects

*NICOTINIC acetylcholine receptors, *INSECTICIDES, *BEE behavior, *PESTICIDES, *AGRICULTURAL productivity, *BEES, *BEEKEEPING

Abstract

Pesticides play an active role in modern agricultural production. However, irrational application of pesticides may cause a negative impact on important pollinating bees. This paper mainly reviewed the research progress on the acute toxicity of pesticides to bees, the sub-lethal effects of pesticides on the growth, development, and behavior of bees, the combined effect of pesticides on bees, as well as the interaction between neonicotinoid insecticides and nicotinic acetylcholine receptors of bees, mechanisms of differential toxicity of pesticide to bees, effects of pesticides on detoxificationrelated enzyme activity and other physiological and biochemical indexes of bees, and the role of phytochemicals in regulating the tolerance of bees to pesticides. The main purpose of this review is to provide a reference for the rational use of pesticides and improve the safety of pesticides to bees. [ABSTRACT FROM AUTHOR]

Published

2022

15. Navigating the complexities of docking tools with nicotinic receptors and acetylcholine binding proteins in the realm of neonicotinoids.

Author

Bouchouireb, Zakaria, Olivier-Jimenez, Damien, Jaunet-Lahary, Titouan, Thany, Steeve H., and Le Questel, Jean-Yves

Subjects

NEONICOTINOIDS, NICOTINIC acetylcholine receptors, CHOLINERGIC receptors, CARRIER proteins, MOLECULAR docking, LIGAND binding (Biochemistry)

Abstract

Molecular docking, pivotal in predicting small-molecule ligand binding modes, struggles with accurately identifying binding conformations and affinities. This is particularly true for neonicotinoids, insecticides whose impacts on ecosystems require precise molecular interaction modeling. This study scrutinizes the effectiveness of prominent docking software (Ledock, ADFR, Autodock Vina, CDOCKER) in simulating interactions of environmental chemicals, especially neonicotinoid-like molecules with nicotinic acetylcholine receptors (nAChRs) and acetylcholine binding proteins (AChBPs). We aimed to assess the accuracy and reliability of these tools in reproducing crystallographic data, focusing on semi-flexible and flexible docking approaches. Our analysis identified Ledock as the most accurate in semi-flexible docking, while Autodock Vina with Vinardo scoring function proved most reliable. However, no software consistently excelled in both accuracy and reliability. Additionally, our evaluation revealed that none of the tools could establish a clear correlation between docking scores and experimental dissociation constants (K d) for neonicotinoid-like compounds. In contrast, a strong correlation was found with drug-like compounds, bringing to light a bias in considered software towards pharmaceuticals, thus limiting their applicability to environmental chemicals. The comparison between semi-flexible and flexible docking revealed that the increased computational complexity of the latter did not result in enhanced accuracy. In fact, the higher computational cost of flexible docking with its lack of enhanced predictive accuracy, rendered this approach useless for this class of compounds. Conclusively, our findings emphasize the need for continued development of docking methodologies, particularly for environmental chemicals. This study not only illuminates current software capabilities but also underscores the urgency for advancements in computational molecular docking as it is a relevant tool to environmental sciences. [Display omitted] • Benchmarked docking tools for neonicotinoids using 54 PDB protein-ligand systems with nAChRs and AChBPs. • Flexible docking appeared to be less accurate and more computationally demanding than semi-flexible docking. • Revealed biases in current software, highlighting the need for tools tailored to insecticides. [ABSTRACT FROM AUTHOR]

Published

2024

16. Voluntary Exercise Boosts Striatal Dopamine Release: Evidence for the Necessary and Sufficient Role of BDNF.

Author

Bastioli, Guendalina, Arnold, Jennifer C., Mancini, Maria, Mar, Adam C., Gamallo-Lana, Begoña, Saadipour, Khalil, Chao, Moses V., and Rice, Margaret E.

Subjects

*BRAIN-derived neurotrophic factor, *PARKINSON'S disease, *DOPAMINE, *NUCLEUS accumbens, *NEUROBEHAVIORAL disorders

Abstract

Physical exercise improves motor performance in individuals with Parkinson's disease and elevates mood in those with depression. Although underlying factors have not been identified, clues arise from previous studies showing a link between cognitive benefits of exercise and increases in brain-derived neurotrophic factor (BDNF). Here, we investigated the influence of voluntary wheel-running exercise on BDNF levels in the striatum of young male wild-type (WT) mice, and on the striatal release of a key motor-system transmitter, dopamine (DA). Mice were allowed unlimited access to a freely rotating wheel (runners) or a locked wheel (controls) for 30 d. Electrically evoked DA release was quantified in ex vivo corticostriatal slices from these animals using fast-scan cyclic voltammetry. We found that exercise increased BDNF levels in dorsal striatum (dStr) and increased DA release in dStr and in nucleus accumbens core and shell. Increased DA release was independent of striatal acetylcholine (ACh), and persisted after a week of rest. We tested a role for BDNF in the influence of exercise on DA release using mice that were heterozygous for BDNF deletion (BDNF+/-). In contrast to WT mice, evoked DA release did not differ between BDNF+/- runners and controls. Complementary pharmacological studies using a tropomyosin receptor kinase B (TrkB) agonist in WT mouse slices showed that TrkB receptor activation also increased evoked DA release throughout striatum in an ACh-independent manner. Together, these data support a causal role for BDNF in exercise-enhanced striatal DA release and provide mechanistic insight into the beneficial effects of exercise in neuropsychiatric disorders, including Parkinson's, depression, and anxiety. [ABSTRACT FROM AUTHOR]

Published

2022

17. Nicotinic Acetylcholine Receptors Expressed by Striatal Interneurons Inhibit Striatal Activity and Control Striatal- Dependent Behaviors.

Author

Abbondanza, Alice, Bas, Irina Ribeiro, Modrak, Martin, Capek, Martin, Minich, Jessica, Tyshkevich, Alexandra, Naser, Shahed, Rangotis, Revan, Houdek, Pavel, Sumova, Alena, Dumas, Sylvie, Bernard, Veronique, and Janickova, Helena

Subjects

*NICOTINIC acetylcholine receptors, *DEPENDENCY (Psychology), *INTERNEURONS

Abstract

Acetylcholine is an important modulator of striatal activity, and it is vital to controlling striatal-dependent behaviors, including motor and cognitive functions. Despite this significance, the mechanisms determining how acetylcholine impacts striatal signaling are still not fully understood. In particular, little is known about the role of nAChRs expressed by striatal interneurons. In the present study, we used FISH to determine which neuronal types express the most prevalent beta2 nicotinic subunit in the mouse striatum. Our data support a common view that nAChR expression is mostly restricted to striatal interneurons. Surprisingly though, cholinergic interneurons were identified as a population with the highest expression of beta2 nicotinic subunit. To investigate the functional significance of beta2- containing nAChRs in striatal interneurons, we deleted them by injecting the AAV-Cre vector into the striatum of beta2-flox/flox male mice. The deletion led to alterations in several behavioral domains, namely, to an increased anxiety- like behavior, decrease in sociability ratio, deficit in discrimination learning, and increased amphetamine-induced hyperlocomotion and c-Fos expression in mice with beta2 deletion. Further colocalization analysis showed that the increased c-Fos expression was present in both medium spiny neurons and presumed striatal interneurons. The present study concludes that, despite being relatively rare, beta2-containing nAChRs are primarily expressed in striatal neurons by cholinergic interneurons and play a significant role in behavior. [ABSTRACT FROM AUTHOR]

Published

2022

18. Nicotine in Inflammatory Diseases: Anti-Inflammatory and Pro-Inflammatory Effects.

Author

Zhang, Wenji, Lin, Hui, Zou, Mingmin, Yuan, Qinghua, Huang, Zhenrui, Pan, Xiaoying, and Zhang, Wenjuan

Subjects

INFLAMMATORY bowel diseases, NICOTINE, MYOSITIS, ORAL microbiology, ULCERATIVE colitis

Abstract

As an anti-inflammatory alkaloid, nicotine plays dual roles in treating diseases. Here we reviewed the anti-inflammatory and pro-inflammatory effects of nicotine on inflammatory diseases, including inflammatory bowel disease, arthritis, multiple sclerosis, sepsis, endotoxemia, myocarditis, oral/skin/muscle inflammation, etc. , mainly concerning the administration methods, different models, therapeutic concentration and duration, and relevant organs and tissues. According to the data analysis from recent studies in the past 20 years, nicotine exerts much more anti-inflammatory effects than pro-inflammatory ones, especially in ulcerative colitis, arthritis, sepsis, and endotoxemia. On the other hand, in oral inflammation, nicotine promotes and aggravates some diseases such as periodontitis and gingivitis, especially when there are harmful microorganisms in the oral cavity. We also carefully analyzed the nicotine dosage to determine its safe and effective range. Furthermore, we summarized the molecular mechanism of nicotine in these inflammatory diseases through regulating immune cells, immune factors, and the vagus and acetylcholinergic anti-inflammatory pathways. By balancing the "beneficial" and "harmful" effects of nicotine, it is meaningful to explore the effective medical value of nicotine and open up new horizons for remedying acute and chronic inflammation in humans. [ABSTRACT FROM AUTHOR]

Published

2022

19. Nicotine in Inflammatory Diseases: Anti-Inflammatory and Pro-Inflammatory Effects

Author

Wenji Zhang, Hui Lin, Mingmin Zou, Qinghua Yuan, Zhenrui Huang, Xiaoying Pan, and Wenjuan Zhang

Subjects

nicotine, anti-inflammation, pro-inflammation, nAChRs, immune, vagus, Immunologic diseases. Allergy, RC581-607

Abstract

As an anti-inflammatory alkaloid, nicotine plays dual roles in treating diseases. Here we reviewed the anti-inflammatory and pro-inflammatory effects of nicotine on inflammatory diseases, including inflammatory bowel disease, arthritis, multiple sclerosis, sepsis, endotoxemia, myocarditis, oral/skin/muscle inflammation, etc., mainly concerning the administration methods, different models, therapeutic concentration and duration, and relevant organs and tissues. According to the data analysis from recent studies in the past 20 years, nicotine exerts much more anti-inflammatory effects than pro-inflammatory ones, especially in ulcerative colitis, arthritis, sepsis, and endotoxemia. On the other hand, in oral inflammation, nicotine promotes and aggravates some diseases such as periodontitis and gingivitis, especially when there are harmful microorganisms in the oral cavity. We also carefully analyzed the nicotine dosage to determine its safe and effective range. Furthermore, we summarized the molecular mechanism of nicotine in these inflammatory diseases through regulating immune cells, immune factors, and the vagus and acetylcholinergic anti-inflammatory pathways. By balancing the “beneficial” and “harmful” effects of nicotine, it is meaningful to explore the effective medical value of nicotine and open up new horizons for remedying acute and chronic inflammation in humans.

Published

2022

20. Conus regius-Derived Conotoxins: Novel Therapeutic Opportunities from a Marine Organism

Author

Francesco Margiotta, Laura Micheli, Clara Ciampi, Carla Ghelardini, J. Michael McIntosh, and Lorenzo Di Cesare Mannelli

Subjects

alpha-conotoxins, nAChRs, alpha9alpha10 nAChRs, RgIA, RgIA analogues, RegIIA, Biology (General), QH301-705.5

Abstract

Conus regius is a marine venomous mollusk of the Conus genus that captures its prey by injecting a rich cocktail of bioactive disulfide bond rich peptides called conotoxins. These peptides selectively target a broad range of ion channels, membrane receptors, transporters, and enzymes, making them valuable pharmacological tools and potential drug leads. C. regius-derived conotoxins are particularly attractive due to their marked potency and selectivity against specific nicotinic acetylcholine receptor subtypes, whose signalling is involved in pain, cognitive disorders, drug addiction, and cancer. However, the species-specific differences in sensitivity and the low stability and bioavailability of these conotoxins limit their clinical development as novel therapeutic agents for these disorders. Here, we give an overview of the main pharmacological features of the C. regius-derived conotoxins described so far, focusing on the molecular mechanisms underlying their potential therapeutic effects. Additionally, we describe adoptable chemical engineering solutions to improve their pharmacological properties for future potential clinical translation.

Published

2022

21. Unbalanced Regulation of α 7 nAChRs by Ly6h andNACHO Contributes to Neurotoxicity in Alzheimer's Disease.

Author

Wu, Meilin, Liu, Clifford Z., Barrall, Erika A., Rissman, Robert A., and Joiner, William J.

Subjects

*ALZHEIMER'S disease, *NICOTINIC acetylcholine receptors, *TEMPORAL lobe, *NEUROTOXICOLOGY, *TAU proteins

Abstract

α7 nicotinic acetylcholine receptors (nAChRs) are widely expressed in the brain where they promote fast cholinergic synaptic transmission and serve important neuromodulatory functions. However, their high permeability to Ca2+ also predisposes them to contribute to disease states. Here, using transfected HEK-tsa cells and primary cultured hippocampal neurons from male and female rats, we demonstrate that two proteins called Ly6h and NACHO compete for access to α7 subunits, operating together but in opposition to maintain α7 assembly and activity within a narrow range that is optimal for neuronal function and viability. Using mixed gender human temporal cortex and cultured hippocampal neurons from rats we further show that this balance is perturbed during Alzheimer's disease (AD) because of amyloid β (Aβ)-driven reduction in Ly6h, with severe reduction leading to increased phosphorylated tau and α7-mediated neurotoxicity. Ly6h release into human CSF is also correlated with AD severity. Thus, Ly6h links cholinergic signaling, Aβ and phosphorylated tau and may serve as a novel marker for AD progression. [ABSTRACT FROM AUTHOR]

Published

2021

22. Cholinergic transmission in C. elegans: Functions, diversity, and maturation of ACh‐activated ion channels.

Author

Treinin, Millet and Jin, Yishi

Subjects

*CAENORHABDITIS elegans, *ION channels, *NEURAL transmission, *NEURAL circuitry, *CELL receptors, *ANIMAL behavior

Abstract

Acetylcholine is an abundant neurotransmitter in all animals. Effects of acetylcholine are excitatory, inhibitory, or modulatory depending on the receptor and cell type. Research using the nematode C. elegans has made ground‐breaking contributions to the mechanistic understanding of cholinergic transmission. Powerful genetic screens for behavioral mutants or for responses to pharmacological reagents identified the core cellular machinery for synaptic transmission. Pharmacological reagents that perturb acetylcholine‐mediated processes led to the discovery and also uncovered the composition and regulators of acetylcholine‐activated channels and receptors. From a combination of electrophysiological and molecular cellular studies, we have gained a profound understanding of cholinergic signaling at the levels of synapses, neural circuits, and animal behaviors. This review will begin with a historical overview, then cover in‐depth current knowledge on acetylcholine‐activated ionotropic receptors, mechanisms regulating their functional expression and their functions in regulating locomotion. [ABSTRACT FROM AUTHOR]

Published

2021

23. Structure-Function of Neuronal Nicotinic Acetylcholine Receptor Inhibitors Derived From Natural Toxins

Author

Thao N. T. Ho, Nikita Abraham, and Richard J. Lewis

Subjects

nAChRs, allosteric inhibitors, natural products, venom peptides, conotoxins, snake toxins, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Neuronal nicotinic acetylcholine receptors (nAChRs) are prototypical cation-selective, ligand-gated ion channels that mediate fast neurotransmission in the central and peripheral nervous systems. nAChRs are involved in a range of physiological and pathological functions and hence are important therapeutic targets. Their subunit homology and diverse pentameric assembly contribute to their challenging pharmacology and limit their drug development potential. Toxins produced by an extensive range of algae, plants and animals target nAChRs, with many proving pivotal in elucidating receptor pharmacology and biochemistry, as well as providing templates for structure-based drug design. The crystal structures of these toxins with diverse chemical profiles in complex with acetylcholine binding protein (AChBP), a soluble homolog of the extracellular ligand-binding domain of the nAChRs and more recently the extracellular domain of human α9 nAChRs, have been reported. These studies have shed light on the diverse molecular mechanisms of ligand-binding at neuronal nAChR subtypes and uncovered critical insights useful for rational drug design. This review provides a comprehensive overview and perspectives obtained from structure and function studies of diverse plant and animal toxins and their associated inhibitory mechanisms at neuronal nAChRs.

Published

2020

24. Endogenous Cholinergic Signaling Modulates Sound-Evoked Responses of the Medial Nucleus of the Trapezoid Body.

Author

Chao Zhang, Beebe, Nichole L., Schofield, Brett R., Pecka, Michael, and Burger, R. Michael

Subjects

*MONGOLIAN gerbil, *COCHLEAR nucleus, *GERBILS, *STIMULUS intensity, *NEURONS

Abstract

The medial nucleus of trapezoid body (MNTB) is a major source of inhibition in auditory brainstem circuitry. The MNTB projects well-timed inhibitory output to principal sound-localization nuclei in the superior olive (SOC) as well as other computationally important centers. Acoustic information is conveyed to MNTB neurons through a single calyx of Held excitatory synapse arising from the cochlear nucleus. The encoding efficacy of this large synapse depends on its activity rate, which is primarily determined by sound intensity and stimulus frequency. However, MNTB activity rate is additionally influenced by inhibition and possibly neuromodulatory inputs, albeit their functional role is unclear. Happe and Morley (2004) discovered prominent expression of a7 nAChRs in rat SOC, suggesting possible engagement of ACh-mediated modulation of neural activity in the MNTB. However, the existence and nature of this putative modulation have never been physiologically demonstrated. We probed nicotinic cholinergic influences on acoustic responses of MNTB neurons from adult gerbils (Meriones unguiculatus) of either sex. We recorded tone-evoked MNTB single-neuron activity in vivo using extracellular single-unit recording. Piggyback multibarrel electrodes enabled pharmacological manipulation of nAChRs by reversibly applying antagonists to two receptor types, a7 and a4b2. We observed that tone-evoked responses are dependent on ACh modulation by both nAChR subtypes. Spontaneous activity was not affected by antagonist application. Functionally, we demonstrate that ACh contributes to sustaining high discharge rates and enhances signal encoding efficacy. Additionally, we report anatomic evidence revealing novel cholinergic projections to MNTB arising from pontine and superior olivary nuclei. [ABSTRACT FROM AUTHOR]

Published

2021

25. Nicotinic Acetylcholine Receptors of PC12 Cells.

Author

Mussina, Kamilla, Toktarkhanova, Dana, and Filchakova, Olena

Subjects

*NICOTINIC acetylcholine receptors, *CHOLINERGIC receptors, *CELL receptors, *NICOTINIC receptors, *ADRENAL tumors

Abstract

Nicotinic acetylcholine receptors (nAChRs) have gained much attention in the scientific community since they play a significant role in multiple physiological and pathophysiological processes. Multiple approaches to study the receptors exist, with characterization of the receptors' functionality at a single cellular level using cell culturing being one of them. Derived from an adrenal medulla tumor, PC12 cells express nicotinic receptor subunits and form functional nicotinic receptors. Thus, the cells offer a convenient environment to address questions related to the functionality of the receptors. The review summarizes the findings on nicotinic receptors' expression and functions which were conducted using PC12 cells. Specific focus is given to α3-containing receptors as well as α7 receptor. Critical evaluation of findings is provided alongside insights into what can still be learned about nAChRs, using PC12 cells. [ABSTRACT FROM AUTHOR]

Published

2021

26. BDNF and nicotine dependence: associations and potential mechanisms.

Author

Huang, Zeyi, Wu, Daichao, Qu, Xilin, Li, Meixiang, Zou, Ju, and Tan, Sijie

Subjects

NICOTINE addiction, BRAIN-derived neurotrophic factor, NICOTINIC acetylcholine receptors, REWARD (Psychology), PROTEIN-tyrosine kinases

Abstract

Smoking is the leading preventable cause of death worldwide and tobacco addiction has become a serious public health problem. Nicotine is the main addictive component of tobacco, and the majority of people that smoke regularly develop nicotine dependence. Nicotine addiction is deemed to be a chronic mental disorder. Although it is well known that nicotine binds to the nicotinic acetylcholine receptors (nAChRs) and activates the mesolimbic dopaminergic system (MDS) to generate the pleasant and rewarding effects, the molecular mechanisms of nicotine addiction are not fully understood. Brain-derived neurotrophic factor (BDNF) is the most prevalent growth factor in the brain, which regulates neuron survival, differentiation, and synaptic plasticity, mainly through binding to the high affinity receptor tyrosine kinase receptor B (TrkB). BDNF gene polymorphisms are associated with nicotine dependence and blood BDNF levels are altered in smokers. In this review, we discussed the effects of nicotine on BDNF expression in the brain and summarized the underlying signaling pathways, which further indicated BDNF as a key regulator in nicotine dependence. Further studies that aim to understand the neurobiological mechanism of BDNF in nicotine addcition would provide a valuable reference for quitting smoking and developing the treatment of other addictive substances. [ABSTRACT FROM AUTHOR]

Published

2021

27. Structure-Function of Neuronal Nicotinic Acetylcholine Receptor Inhibitors Derived From Natural Toxins.

Author

Ho, Thao N. T., Abraham, Nikita, and Lewis, Richard J.

Subjects

NICOTINIC acetylcholine receptors, PLANT toxins, LIGAND-gated ion channels, DRUG design, TOXINS, BACTERIAL toxins

Abstract

Neuronal nicotinic acetylcholine receptors (nAChRs) are prototypical cation-selective, ligand-gated ion channels that mediate fast neurotransmission in the central and peripheral nervous systems. nAChRs are involved in a range of physiological and pathological functions and hence are important therapeutic targets. Their subunit homology and diverse pentameric assembly contribute to their challenging pharmacology and limit their drug development potential. Toxins produced by an extensive range of algae, plants and animals target nAChRs, with many proving pivotal in elucidating receptor pharmacology and biochemistry, as well as providing templates for structure-based drug design. The crystal structures of these toxins with diverse chemical profiles in complex with acetylcholine binding protein (AChBP), a soluble homolog of the extracellular ligand-binding domain of the nAChRs and more recently the extracellular domain of human α9 nAChRs, have been reported. These studies have shed light on the diverse molecular mechanisms of ligand-binding at neuronal nAChR subtypes and uncovered critical insights useful for rational drug design. This review provides a comprehensive overview and perspectives obtained from structure and function studies of diverse plant and animal toxins and their associated inhibitory mechanisms at neuronal nAChRs. [ABSTRACT FROM AUTHOR]

Published

2020

28. Investigating the role of nicotinic acetylcholine receptors in menthol's effects in mice.

Author

Akinola, Lois S., Gonzales, Jada, Buzzi, Belle, Mathews, Hunter L., Papke, Roger L., Stitzel, Jerry A., and Damaj, M. Imad

Subjects

*NICOTINIC acetylcholine receptors, *MENTHOL, *REWARD (Psychology), *NICOTINE addiction, *TOBACCO products

Abstract

The use of menthol in tobacco products has been linked to an increased likelihood of developing nicotine dependence. The widespread use of menthol can be attributed to its unique sensory characteristics; however, emerging evidence suggests that menthol also alters sensitivity to nicotine through modulation of nicotinic acetylcholine receptors (nAChRs). Nicotinic subunits, such as β2 and α5, are of interest due to their implications in nicotine reward, reinforcement, intake regulation, and aversion. This study, therefore, examined the in vivo relevance of β2 and α5 nicotinic subunits on the pharmacological and behavioral effects of menthol. Data suggests that the α5 nicotinic subunit modulates menthol intake in mice. Overall, deletion or a reduction in function of the α5 subunit lessened aversion to menthol. α5 KO mice and mice possessing the humanized α5 SNP, a variant that confers a nicotine dependence phenotype in humans, demonstrated increased menthol intake compared to their WT counterparts and in a sex-related fashion for α5 SNP mice. We further reported that the modulatory effects of the α5 subunit do not extend to other aversive tastants like quinine, suggesting that deficits in α5* nAChR signaling may not abolish general sensitivity to the aversive effects of other noxious chemicals. Further probing into the role of α5 in other pharmacological properties of menthol revealed that the α5 subunit does not modulate the antinociceptive properties of menthol in mice and suggests that the in vivo differences observed are likely not due to the direct effects of menthol on α5-containing nAChRs in vitro. • Menthol consumption in mice is modulated by α5 but not β2 nAChR subunits. • Oral consumption of menthol is increased in mice possessing the α5 SNP risk variant. • Deletion of α5 lessens aversion to menthol at higher concentrations in female mice. • α5 nAChRs do not modulate the antinociceptive properties of menthol or oral quinine consumption in mice. [ABSTRACT FROM AUTHOR]

Published

2024

29. Cell signaling and epigenetic regulation of nicotine-induced carcinogenesis.

Author

Sun, Qi and Jin, Chunyuan

Subjects

NICOTINIC receptors, NICOTINIC acetylcholine receptors, CELL communication, EPIGENETICS, CARCINOGENESIS, CARRIER proteins

Abstract

Nicotine, a naturally occurring tobacco alkaloid responsible for tobacco addiction, has long been considered non-carcinogenic. However, emerging evidence suggests that nicotine may possess carcinogenic properties in mice and could be a potential carcinogen in humans. This review aims to summarize the potential molecular mechanisms underlying nicotine-induced carcinogenesis, with a specific focus on epigenetic regulation and the activation of nicotinic acetylcholine receptors (nAChRs) in addition to genotoxicity and excess reactive oxygen species (ROS). Additionally, we explore a novel hypothesis regarding nicotine's carcinogenicity involving the downregulation of stem-loop binding protein (SLBP), a critical regulator of canonical histone mRNA, and the polyadenylation of canonical histone mRNA. By shedding light on these mechanisms, this review underscores the need for further research to elucidate the carcinogenic potential of nicotine and its implications for human health. [Display omitted] • Nicotine is a potential carcinogen in mice and humans. • Epigenetic regulation contributes to nicotine-induced carcinogenesis. • Nicotine downregulates stem-loop binding protein (SLBP). • Nicotine induces polyadenylation of canonical histone mRNAs. [ABSTRACT FROM AUTHOR]

Published

2024

30. From Synthetic Fragments of Endogenous Three-Finger Proteins to Potential Drugs

Author

Elena V. Kryukova, Natalia S. Egorova, Denis S. Kudryavtsev, Dmitry S. Lebedev, Ekaterina N. Spirova, Maxim N. Zhmak, Aleksandra I. Garifulina, Igor E. Kasheverov, Yuri N. Utkin, and Victor I. Tsetlin

Subjects

three-finger proteins, peptide fragments, Ly6 family, nicotinic acetylcholine receptors, nAChRs, Therapeutics. Pharmacology, RM1-950

Abstract

The proteins of the Ly6 family have a three-finger folding as snake venom α-neurotoxins, targeting nicotinic acetylcholine receptors (nAChRs), and some of them, like mammalian secreted Ly6/uPAR protein (SLURP1) and membrane-attached Ly-6/neurotoxin (Lynx1), also interact with distinct nAChR subtypes. We believed that synthetic fragments of these endogenous proteins might open new ways for drug design because nAChRs are well-known targets for developing analgesics and drugs against neurodegenerative diseases. Since interaction with nAChRs was earlier shown for synthetic fragments of the α-neurotoxin central loop II, we synthesized a 15-membered fragment of human Lynx1, its form with two Cys residues added at the N- and C-termini and forming a disulfide, as well as similar forms of human SLURP1, SLURP2, and of Drosophila sleepless protein (SSS). The IC50 values measured in competition with radioiodinated α-bungarotoxin for binding to the membrane-bound Torpedo californica nAChR were 4.9 and 7.4 µM for Lynx1 and SSS fragments, but over 300 µM for SLURP1 or SLURP2 fragments. The affinity of these compounds for the α7 nAChR in the rat pituitary tumor-derived cell line GH4C1 was different: 13.1 and 147 µM for SSS and Lynx1 fragments, respectively. In competition for the ligand-binding domain of the α9 nAChR subunit, SSS and Lynx1 fragments had IC50 values of about 40 µM, which correlates with the value found for the latter with the rat α9α10 nAChR expressed in the Xenopus oocytes. Thus, the activity of these synthetic peptides against muscle-type and α9α10 nAChRs indicates that they may be useful in design of novel myorelaxants and analgesics.

Published

2019

31. Novel N-aryl nicotinamide derivatives: Taking stock on 3,6-diazabicyclo[3.1.1]heptanes as ligands for neuronal acetylcholine receptors.

Author

Murineddu, Gabriele, Gotti, Cecilia, Asproni, Battistina, Corona, Paola, Martinello, Katiuscia, Plutino, Simona, Fucile, Sergio, Temml, Veronika, Moretti, Milena, Viani, Paola, Schuster, Daniela, Piras, Sandra, Deligia, Francesco, and Pinna, Gerard A.

Subjects

*NICOTINAMIDE, *CHOLINERGIC receptors, *STRUCTURE-activity relationships, *HEPTANE, *NICOTINIC receptors

Abstract

We designed the synthesis of a small library of 3-substituted-3,6-diazabicyclo[3.1.1]heptanes whose affinity on neuronal nicotinic receptors (nAChRs) was evaluated. Among the synthesized compounds, the 5-(3,6-diazabicyclo[3.1.1]heptane-3-yl)- N -(2-fluorophenyl)nicotinamide 43 proved to be the most interesting compound with α 4 β 2 Ki value of 10 pM and a very high α 7 /α 4 β 2 selectivity. Furthermore, compounds 35 , 39 and 43 elicited a selective partial agonist activity for α 4 β 2 nAChR subtype. Finally, in this paper we also report the conclusions on the 3,6-diazabicyclo[3.1.1]heptanes as ligands for nAChRs, resulting from our consolidated structure activity relationship (SAR) studies on this template. Image 1 • Synthesis and characterization of 3,6-diazabicyclo[3.1.1]heptane heteroaryl amides. • α 4 β 2 , α 3 β 4 and α 7 ligands binding studies. • Intrinsic α 4 β 2 receptor mediated activity. [ABSTRACT FROM AUTHOR]

Published

2019

32. From Synthetic Fragments of Endogenous Three-Finger Proteins to Potential Drugs.

Author

Kryukova, Elena V., Egorova, Natalia S., Kudryavtsev, Denis S., Lebedev, Dmitry S., Spirova, Ekaterina N., Zhmak, Maxim N., Garifulina, Aleksandra I., Kasheverov, Igor E., Utkin, Yuri N., and Tsetlin, Victor I.

Subjects

NEUROTOXIC agents, NICOTINIC acetylcholine receptors, PROTEIN drugs, PEPTIDOMIMETICS, SNAKE venom, DRUG design

Abstract

The proteins of the Ly6 family have a three-finger folding as snake venom α-neurotoxins, targeting nicotinic acetylcholine receptors (nAChRs), and some of them, like mammalian secreted Ly6/uPAR protein (SLURP1) and membrane-attached Ly-6/neurotoxin (Lynx1), also interact with distinct nAChR subtypes. We believed that synthetic fragments of these endogenous proteins might open new ways for drug design because nAChRs are well-known targets for developing analgesics and drugs against neurodegenerative diseases. Since interaction with nAChRs was earlier shown for synthetic fragments of the α-neurotoxin central loop II, we synthesized a 15-membered fragment of human Lynx1, its form with two Cys residues added at the N- and C-termini and forming a disulfide, as well as similar forms of human SLURP1, SLURP2, and of Drosophila sleepless protein (SSS). The IC50 values measured in competition with radioiodinated α-bungarotoxin for binding to the membrane-bound Torpedo californica nAChR were 4.9 and 7.4 µM for Lynx1 and SSS fragments, but over 300 µM for SLURP1 or SLURP2 fragments. The affinity of these compounds for the α7 nAChR in the rat pituitary tumor-derived cell line GH4C1 was different: 13.1 and 147 µM for SSS and Lynx1 fragments, respectively. In competition for the ligand-binding domain of the α9 nAChR subunit, SSS and Lynx1 fragments had IC50 values of about 40 µM, which correlates with the value found for the latter with the rat α9α10 nAChR expressed in the Xenopus oocytes. Thus, the activity of these synthetic peptides against muscle-type and α9α10 nAChRs indicates that they may be useful in design of novel myorelaxants and analgesics. [ABSTRACT FROM AUTHOR]

Published

2019

33. Nicotine inhibits rapamycin-induced pain through activating mTORC1/S6K/IRS-1-related feedback inhibition loop.

Author

Li, Shuo, Guan, Shaoyu, Wang, Yurong, Cheng, Lifei, Yang, Qi, Tian, Zhen, Zhao, Minggao, Wang, Xiaojuan, and Feng, Bin

Subjects

*RAPAMYCIN, *NICOTINE, *NICOTINIC acetylcholine receptors, *WESTERN immunoblotting, *INSULIN receptors, *PYRAMIDAL neurons

Abstract

• Nicotine at a dose of 1.5 mg/kg relieves rapamycin-induced pain in the naïve mice. • Nicotine modulates the mTORC1/S6K/IRS1 pathway in ACC of rapamycin-treated mice. • Nicotine corrects dysregulated neuronal excitability in ACC of rapamycin-treated mice. • The above effects can be blocked by the antagonists of α4β2 or α7 nAChRs. Mammalian target of rapamycin complex 1 (mTORC1) inhibitors increase the incidence of pain in patients, and this finding has been replicated in animal models. However, reports on possible analgesics for this condition are scant. Accumulating evidence finds that nicotinic acetylcholine receptors (nAChRs) are involved in mediating pain. However, whether nicotine, a full agonist of nAChRs, alleviates mTORC1 inhibition-induced pain and its underlying mechanisms remain unknown. In this study, pain was induced in naïve male C57BL/6J mice by intraperitoneally injecting rapamycin acutely or repeatedly. Subsequently, pain thresholds, including mechanical and thermal pain, were measured. The involving signaling pathway was tested using western blot analysis and immunofluorescent assay. Changes in neuronal excitability caused by different treatments were also analyzed using whole-cell recording. Microinjection into the anterior cingulate cortex (ACC) was used to test the role of nAChRs containing the α4β2 or α7 subtype in this brain region in pain modulation. Our results showed that nicotine significantly reduced hyperalgesia in mice that received acute or repeated rapamycin injections, and reversed the effects of rapamycin on the phosphorylation of S6K, 4E-BP1, insulin receptor substrate-1 (IRS-1) at Ser636/639, AKT at Ser473, and ERK at Thr202/Tyr204. Whole-cell recording results showed that nicotine reduced the firing rates of pyramidal neurons in the ACC, and a pharmacological blockade of nAChRs containing the α4β2 or α7 subtype in ACC inhibited the antinociceptive effects of nicotine in mice with rapamycin-induced pain. Our findings indicate that analgesics targeting nAChRs can be developed to help patients with rapamycin-induced pain. [ABSTRACT FROM AUTHOR]

Published

2019

34. The modulatory role of nicotine on cognitive and non-cognitive functions.

Author

Zarrindast, Mohammad-Reza and Khakpai, Fatemeh

Subjects

*ADDICTIONS, *NICOTINE

Abstract

Highlights • Nicotine involved in reward via modulation of the mesocorticolimbic system. • Reinforcing effects of nicotine in the mesocorticolimbic pathway caused addiction. • Addictive effects of nicotine caused to improvement of learning and memory. • Nicotine showed dual effects on anxiety behaviors. Abstract Nicotine, as the main component of tobacco, plays a key role in various behaviors of both humans and animals including reward, addiction, learning and memory, anxiety, pain as well as body weight and temperature. Nicotine exerts its function by activating nicotinic acetylcholine receptors (nAChRs) which one highly expressed throughout the nervous system. The mesocorticolimbic dopamine system mediates the processing of reward, learning and memory behaviors produced by nicotine. In addition, some structures of the central nervous system, such as the hippocampus and amygdala, have a major role in mediation of nicotine properties. Furthermore, the effect of nicotine in modulation of cognitive and non-cognitive functions can produce by other neurochemical systems such as opioid, dopamine, glutamate, cannabinoids, GABA and serotonin as well as nitric oxide. The present review will explain involvement of these neurotransmitters on cognitive and non-cognitive functions induced by nicotine. [ABSTRACT FROM AUTHOR]

Published

2019

35. Interactions between insulin and diet on striatal dopamine uptake kinetics in rodent brain slices.

Author

Patel, Jyoti C., Stouffer, Melissa A., Mancini, Maria, Nicholson, Charles, Carr, Kenneth D., and Rice, Margaret E.

Subjects

*INSULIN, *INSULIN receptors, *MICHAELIS-Menten equation, *ANIMAL nutrition

Abstract

Diet influences dopamine transmission in motor‐ and reward‐related basal ganglia circuitry. In part, this reflects diet‐dependent regulation of circulating and brain insulin levels. Activation of striatal insulin receptors amplifies axonal dopamine release in brain slices, and regulates food preference in vivo. The effect of insulin on dopamine release is indirect, and requires striatal cholinergic interneurons that express insulin receptors. However, insulin also acts directly on dopamine axons to increase dopamine uptake by promoting dopamine transporter (DAT) surface expression, counteracting enhanced dopamine release. Here, we determined the functional consequences of acute insulin exposure and chronic diet‐induced changes in insulin on DAT activity after evoked dopamine release in striatal slices from adult ad‐libitum fed (AL) rats and mice, and food‐restricted (FR) or high‐fat/high‐sugar obesogenic (OB) diet rats. Uptake kinetics were assessed by fitting evoked dopamine transients to the Michaelis‐Menten equation and extracting Cpeak and Vmax. Insulin (30 nm) increased both parameters in the caudate putamen and nucleus accumbens core of AL rats in an insulin receptor‐ and PI3‐kinase‐dependent manner. A pure effect of insulin on uptake was unmasked using mice lacking striatal acetylcholine, in which increased Vmax caused a decrease in Cpeak. Diet also influenced Vmax, which was lower in FR vs. AL. The effects of insulin on Cpeak and Vmax were amplified by FR but blunted by OB, consistent with opposite consequences of these diets on insulin levels and insulin receptor sensitivity. Overall, these data reveal acute and chronic effects of insulin and diet on dopamine release and uptake that will influence brain reward pathways. Insulin and diet have marked effects on dopamine (DA) transmission in the brain. Insulin increases evoked striatal DA release indirectly via cholinergic interneurons (ChIs) but enhances DA transporter activity and DA uptake directly by activating insulin receptors coupled to the PI3K/Akt pathway. Food restriction (FR) or obesogenic (OB) diets that produce lower or higher plasma insulin respectively decrease DA release and uptake, relative to an ad‐libitum (AL) diet. Moreover, insulin‐induced increases in DA release and uptake are enhanced with FR but blunted with OB diets. [ABSTRACT FROM AUTHOR]

Published

2019

36. Transcriptome analysis revealed the function of five tandemly duplicated nAChRs in the transplantation immunity in pearl oyster Pinctada fucata martensii.

Author

Yang, Min, Zhang, Ming, Li, Xin lei, Deng, Yue wen, and Jiao, Yu

Subjects

*PEARL oysters, *ION channels, *NICOTINIC receptors, *LIGAND-gated ion channels, *TUMOR necrosis factors, *NICOTINIC acetylcholine receptors, *TRANSCRIPTOMES

Abstract

nicotinic acetylcholine receptors (nAChRs) are ligand-gated ion channels that play an important role in the homeostatic regulation of physiological functions. Our previous studies showed that nAChRs in the genome of pearl oyster Pinctada fucata martensii (PmnAChRs) were expanded through tandem duplication. This study aimed to analyze the function of five tandemly duplicated PmnAChRs in the transplantation immunity in P. f. martensii. Transcriptome analysis reveals that the differentially expressed genes (DEGs) shared between PmnAChR-RNAi and the control group were functionally involved in Signal transduction, Immune system et al., and most of the related genes were down-regulated in the PmnAChR-RNAi group. The different copies of PmnAChR may regulate transplantation immunity through various pathways, such as Wnt, protein digestion and absorption, Hippo, and gap junction pathway. The inflammation factor interleukin-17 (IL-17) and tumor necrosis factor-alpha (TNF-α) were down-regulated in PmnAChR-1, 4, 5-RNAi group, and the serum from the pearl oysters in the PmnAChR-1-4-RNAi group could promote the proliferation of the Vibrio harveyi , indicating the immunosuppressive function after down-regulation of PmnAChRs. The different responses of antioxidant enzymes and diverse signal pathways after down-regulation of PmnAChRs suggested that the five tandemly duplicated PmnAChRs may cooperate with different α type PmnAChRs and constitute the functional ion channel in the membrane. Results of this study not only provide insight for the effective regulation of the transplantation immunity, but also provide a theoretical reference for the study of the adaptive evolutionary mechanism of repeating genes. • Down-regulation of PmnAChRs inhibited the expression of immune-regulated genes. • Down-regulation of PmnAChR1,4,5 decreased the activity of IL-17 and TNF-α. • The serum from the PmnAChR1-4-RNAi group activated the growth of Vibrio. • Different copies of PmnAChRs involved in different signal pathways. [ABSTRACT FROM AUTHOR]

Published

2024

37. Effects of cylindrospermopsin, chlorpyrifos and their combination in a SH-SY5Y cell model concerning developmental neurotoxicity.

Author

Hinojosa, M.G., Johansson, Y., Jos, A., Cameán, A.M., and Forsby, A.

Subjects

NICOTINIC receptors, NICOTINIC acetylcholine receptors, NEUROTOXICOLOGY, CHLORPYRIFOS, APOLIPOPROTEIN E, POTASSIUM channels

Abstract

The cyanotoxin cylindrospermopsin (CYN) has been postulated to cause neurotoxicity, although the studies in this concern are very few. In addition, some studies in vitro indicate its possible effects on development. Furthermore, pesticides can be present in the same environmental samples as cyanotoxins. Therefore, chlorpyrifos (CPF) has been one of the most common pesticides used worldwide. The aim of this report was to study the effects of CYN, isolated and in combination with CPF, in a developmental neurotoxicity in vitro model. The human neuroblastoma SH-SY5Y cell line was exposed during 6 days of differentiation to both toxics to study their effects on cell viability and neurite outgrowth. To further evaluate effects of both toxicants on cholinergic signaling, their agonistic and antagonistic activities on the α7 homomeric nicotinic acetylcholine receptor (nAChR) were studied upon acute exposure. Moreover, a transcriptomic analysis by qPCR was performed after 6 days of CYN-exposure during differentiation. The results showed a concentration-dependent decrease on both cell viability and neurite outgrowth for both toxics isolated, leading to effective concentration 20 (EC 20) values of 0.35 µM and 0.097 µM for CYN on cell viability and neurite outgrowth, respectively, and 100 µM and 58 µM for CPF, while the combination demonstrated no significant variations. In addition, 95 µM and 285 µM CPF demonstrated to act as an antagonist to nicotine on the nAChR, although CYN up to 2.4 µM had no effect on the efficacy of these receptors. Additionally, the EC 20 for CYN (0.097 µM) on neurite outgrowth downregulated expression of the 5 genes NTNG2 (netrin G2) , KCNJ11 (potassium channel) , SLC18A3 (vesicular acetylcholine transporter) , APOE (apolipoprotein E) , and SEMA6B (semaphorin 6B), that are all important for neuronal development. Thus, this study points out the importance of studying the effects of CYN in terms of neurotoxicity and developmental neurotoxicity. • CYN and CPF attenuated neurite outgrowth in SH-SY5Y cells during 6-days differentiation. • There was no strong interaction between CYN and CPF on neither cell viability, nor neurite outgrowth in our model. • CYN caused a dysregulation of 6 genes involved in neurodevelopment. • CYN demonstrated no effect on α7-nAChRs, while CPF had an antagonistic effect. [ABSTRACT FROM AUTHOR]

Published

2024

38. Influence of neuropathic pain on nicotinic acetylcholine receptor plasticity and behavioral responses to nicotine in rats.

Author

Brunori, Gloria, Schoch, Jennifer, Mercatelli, Daniela, Ozawa, Akihiko, Toll, Lawrence, and Cippitelli, Andrea

Subjects

*THERAPEUTIC use of nicotine, *RNA metabolism, *CHOLINERGIC receptors, *ANIMALS, *BIOCHEMISTRY, *BIOLOGICAL models, *COMPULSIVE behavior, *CONDITIONED response, *LEARNING, *LIGATURE (Surgery), *PHENOMENOLOGY, *NEURALGIA, *SENSORY perception, *RATS, *REINFORCEMENT (Psychology), *RESEARCH funding, *SELF medication, *TIME, *PAIN measurement, *PROMPTS (Psychology), *NICOTINIC agonists, *PAIN threshold

Abstract

Tobacco smoking is particularly evident in individuals experiencing chronic pain. This complex relationship is poorly understood at both molecular and behavioral levels. Here, we describe experiments aimed at understanding whether a chronic pain state induces neuroadaptations into the brain or peripheral nerves that involve nicotinic acetylcholine receptors (nAChRs) and whether these neuroadaptations directly lead to increased vulnerability to nicotine addiction or to the development of coping strategies to relieve pain symptoms. We found that ligation of the rat L5 spinal nerve led to a dramatic downregulation in the mRNA expression levels of all nAChR subunits examined in dorsal root ganglia and a time-dependent downregulation of discrete subunits, particularly in the cingulate cortex and the amygdala. Spinal nerve ligation and sham-operated rats showed minor or no changes in patterns of acquisition and motivation for nicotine taking. Spinal nerve ligation rats also showed similar vulnerability to nicotine seeking as sham animals when reinstatement was induced by nicotine-associated cues, but failed to reinstate lever pressing when relapse was induced by nicotine priming. Spinal nerve ligation and sham rats were equally sensitive to nicotine-induced anxiety-like behavior and antinociception; however, nicotine produced a potent and long-lasting antiallodynic effect in spinal nerve ligation rats. These results demonstrate that chronic pain leads to plasticity of nAChRs that do not directly facilitate nicotine addictive behaviors. Instead, nicotine potently decreases allodynia, an effect that could lead to increased nicotine consumption in chronic pain subjects. [ABSTRACT FROM AUTHOR]

Published

2018

39. The Coordinated Activities of nAChR and Wnt Signaling Regulate Intestinal Stem Cell Function in Mice.

Author

Takahashi, Toshio, Shiraishi, Akira, and Murata, Jun

Subjects

*STEM cells, *CHOLINERGIC receptors, *WNT signal transduction, *MUSCARINIC receptors, *ENTERIC nervous system, *INTESTINAL physiology, *ORGANOIDS, *DRUG therapy, *PHYSIOLOGY

Abstract

Cholinergic signaling, which modulates cell activities via nicotinic and muscarinic acetylcholine receptors (n- and mAChRs) in response to internal or external stimuli, has been demonstrated in mammalian non-neuronal cells that synthesize acetylcholine (ACh). One of the major pathways of excitatory transmission in the enteric nervous system (ENS) is mediated by cholinergic transmission, with the transmitter ACh producing excitatory potentials in postsynaptic effector cells. In addition to ACh-synthesizing and ACh-metabolizing elements in the ENS, the presence of non-neuronal ACh machinery has been reported in epithelial cells of the small and large intestines of rats and humans. However, little is known about how non-neuronal ACh controls physiological function in the intestine. Here, experiments using crypt-villus organoids that lack nerve and immune cells in culture suggest that endogenous ACh is synthesized in the intestinal epithelium to drive organoid growth and differentiation through activation of nAChRs. Treatment of organoids with nicotine enhanced cell growth and the expression of marker genes for stem and epithelial cells. On the other hand, the nAChR antagonist mecamylamine strongly inhibited the growth and differentiation of organoids, suggesting the involvement of nAChRs in the regulation of proliferation and differentiation of Lgr5-positive stem cells. More specifically, RNA sequencing analysis revealed that Wnt5a expression was dramatically upregulated after nicotine treatment, and Wnt5a rescued organoid growth and differentiation in response to mecamylamine. Taken together, our results indicate that coordinated activities of nAChR and Wnt signaling maintain Lgr5-positive stem cell activity and balanced differentiation. Furthermore, we could clearly separate the two groups, neuronal ACh in the ENS and non-neuronal ACh in the intestinal epithelium. Dysfunction of the non-neuronal cholinergic system is involved in the pathogenesis of disease. The data will increase our understanding of the cholinergic properties of non-neuronal cells and lead to optimization of drug therapy. [ABSTRACT FROM AUTHOR]

Published

2018

40. α5 nAChR modulation of the prefrontal cortex makes attention resilient.

Author

Brooks, Julie L., Tierney, Patrick L., Pang, Jincheng, Rossi, Amie, Young, Damon, Dlugolenski, Keith, Guillmette, Ed, Roy, Marc, Hales, Katherine, Kozak, Rouba, and Howe, William M.

Subjects

*PREFRONTAL cortex, *NICOTINIC acetylcholine receptors, *ATTENTION, *COGNITION disorders, *DRUG abuse, *SCHIZOPHRENIA, *RNA interference, *PHYSIOLOGY

Abstract

A loss-of-function polymorphism in the α5 nicotinic acetylcholine receptor (nAChR) subunit gene has been linked to both drug abuse and schizophrenia. The α5 nAChR subunit is strategically positioned in the prefrontal cortex (PFC), where a loss-of-function in this subunit may contribute to cognitive disruptions in both disorders. However, the specific contribution of α5 to PFC-dependent cognitive functions has yet to be illustrated. In the present studies, we used RNA interference to knockdown the α5 nAChR subunit in the PFC of adult rats. We provide evidence that through its contribution to cholinergic modulation of cholinergic modulation of neurons in the PFC, the α5 nAChR plays a specific role in the recovery of attention task performance following distraction. Our combined data reveal the potent ability of this subunit to modulate the PFC and cognitive functions controlled by this brain region that are impaired in disease. [ABSTRACT FROM AUTHOR]

Published

2018

41. α-Conotoxin TxIB: A Uniquely Selective Ligand for α6/α3β2β3 Nicotinic Acetylcholine Receptor Attenuates Nicotine-Induced Conditioned Place Preference in Mice

Author

Shen You, Xiaodan Li, Jian Xiong, Xiaoyu Zhu, Dongting Zhangsun, Xiaopeng Zhu, and Sulan Luo

Subjects

nicotine addiction, nAChRs, conditioned place preference (CPP), neurotransmitters, Biology (General), QH301-705.5

Abstract

α-Conotoxin TxIB is a specific antagonist of α6/α3β2β3(α6β2*) nicotinic acetylcholine receptor (nAChR) with an IC50 of 28 nM. Previous studies have shown that α6β2* nAChRs are abundantly expressed in midbrain dopaminergic neurons and play an important role in mediating the mechanism of nicotine and other drugs reward effect. It provided important targets for the development of anti-addiction drugs. The present study evaluated the pharmacological activity of TxIB in vivo with conditioned place preference (CPP) model, which were induced by subcutaneous injection (s.c.) of nicotine (NIC, 0.5 mg/kg). α-Conotoxin TxIB inhibited the expression and reinstatement of CPP in mice dose-dependently, but had no significant effect on locomotor activity. The concentrations of dopamine (DA), γ-aminobutyric acid (GABA) and noradrenaline (NE) in different brain regions were measured by enzyme-linked immunosorbent assay (ELISA). We found that TxIB could inhibit the concentrations of DA, GABA and NE in different brain regions (such as nucleus accumbens (NAc), hippocampus (HIP) and prefrontal cortex (PFC)) in NIC-induced mice. The concentrations of DA and NE were decreased in ventral tegmental area (VTA), while GABA had little change. The current work described the inhibition activity of TxIB in NIC-induced CPP, suggesting that α6β2* nAChR-targeted compound may be a promising drug for nicotine addiction treatment.

Published

2019

42. Effect of memantine hydrochloride on cisplatin-induced neurobehavioral toxicity in mice

Author

Salih, Nadia Abdulkareem and Al-Baggou, Banan Khalid

Published

2020

43. In vivo and in vitro testing of native α-conotoxins from the injected venom of Conus purpurascens.

Author

Hoggard, Mickelene F., Rodriguez, Alena M., Cano, Herminsul, Clark, Evan, Tae, Han-Shen, Adams, David J., Godenschwege, Tanja A., and Marí, Frank

Subjects

*CONUS, *CONOTOXINS, *ACETYLCHOLINE receptor inhibitors, *ARTHROPOD venom, *PHARMACOLOGY

Abstract

α-Conotoxins inhibit nicotinic acetylcholine receptors (nAChRs) and are used as probes to study cholinergic pathways in vertebrates. Model organisms, such as Drosophila melanogaster, express nAChRs in their CNS that are suitable to investigate the neuropharmacology of α-conotoxins in vivo . Here we report the paired nanoinjection of native α-conotoxin PIA and two novel α-conotoxins, PIC and PIC[O7], from the injected venom of Conus purpurascens and electrophysiological recordings of their effects on the giant fiber system (GFS) of D. melanogaster and heterologously expressed nAChRs in Xenopus oocytes. α-PIA caused disruption of the function of giant fiber dorsal longitudinal muscle (GF-DLM) pathway by inhibiting the Dα7 nAChR a homolog to the vertebrate α7 nAChR, whereas PIC and PIC[O7] did not. PIC and PIC[O7] reversibly inhibited ACh-evoked currents mediated by vertebrate rodent (r)α1β1δγ, rα1β1δε and human (h)α3β2, but not hα7 nAChR subtypes expressed in Xenopus oocytes with the following selectivity: rα1β1δε > rα1β1δγ ≈ hα3β2 >> hα7. Our study emphasizes the importance of loop size and α-conotoxin sequence specificity for receptor binding. These studies can be used for the evaluation of the neuropharmacology of novel α-conotoxins that can be utilized as molecular probes for diseases such as, Alzheimer's, Parkinson's, and cancer. This article is part of the Special Issue entitled ‘Venom-derived Peptides as Pharmacological Tools.’ [ABSTRACT FROM AUTHOR]

Published

2017

44. Granulocytes as models for human protein marker identification following nicotine exposure.

Author

Mulcahy, Matthew J. and Lester, Henry A.

Subjects

*NICOTINIC acetylcholine receptors, *GRANULOCYTES, *HUMAN proteins, *NICOTINE, *PERIPHERAL nervous system, *LEUCOCYTES, *NEUTROPHILS

Abstract

Nicotinic acetylcholine receptors ( nAChRs) are pentameric cation channels expressed in the mammalian CNS, in the peripheral nervous system, and in skeletal muscle. Neuronal-type nAChRs are also found in several non-neuronal cell types, including leukocytes. Granulocytes are a subtype of leukocytes that include basophils, eosinophils, and neutrophils. Granulocytes, also known as polymorphonuclear leukocytes, are characterized by their ability to produce, store, and release compounds from intracellular granules. Granulocytes are the most abundant type of leukocyte circulating in the peripheral blood. Granulocyte abundance, nAChR expression, and nAChR upregulation following chronic nicotine administration makes granulocytes interesting models for identifying protein markers of nicotine exposure. Nicotinic receptor subunits and several non- nAChR proteins have been identified as protein markers of granulocyte nicotine exposure. We review methods to isolate granulocytes from human tissue, summarize present data about the expression of nAChRs in the three granulocyte cell types (basophils, eosinophils, and neutrophils), describe current knowledge of the effects of nicotine exposure on human granulocyte protein expression, and highlight areas of interest for future investigation. This is an article for the . [ABSTRACT FROM AUTHOR]

Published

2017

45. Molecular characterization and expression profiles of nicotinic acetylcholine receptors in the rice striped stem borer, Chilo suppressalis (Lepidoptera: Crambidae).

Author

Xu, Gang, Wu, Shun‐Fan, Teng, Zi‐Wen, Yao, Hong‐Wei, Fang, Qi, Huang, Jia, and Ye, Gong‐Yin

Subjects

*MOLECULAR biology, *CHOLINERGIC receptors, *CHILO suppressalis, *ION channels, *CENTRAL nervous system

Abstract

Nicotinic acetylcholine receptors (nAChRs) are members of the cys-loop ligand-gated ion channel (cysLGIC) superfamily, mediating fast synaptic cholinergic transmission in the central nervous system in insects. Insect nAChRs are the molecular targets of economically important insecticides, such as neonicotinoids and spinosad. Identification and characterization of the nAChR gene family in the rice striped stem borer, Chilo suppressalis, could provide beneficial information about this important receptor gene family and contribute to the investigation of the molecular modes of insecticide action and resistance for current and future chemical control strategies. We searched our C. suppressalis transcriptome database using Bombyx mori nAChR sequences in local BLAST searches and obtained the putative nAChR subunit complementary DNAs (cDNAs) via reverse transcription polymerase chain reaction (RT-PCR) and rapid amplification of cDNA ends methods. Similar to B. mori, C. suppressalis possesses 12 nAChR subunits, including nine α-type and three β-type subunits. Quantitative RT-PCR analysis revealed the expression profiles of the nAChR subunits in various tissues, including the brain, subesophageal ganglion, thoracic ganglion, abdominal ganglion, hemocytes, fat body, foregut, midgut, hindgut and Malpighian tubules. Developmental expression analyses showed clear differential expression of nAChR subunits throughout the C. suppressalis life cycle. The identification of nAChR subunits in this study will provide a foundation for investigating the diverse roles played by nAChRs in C. suppressalis and for exploring specific target sites for chemicals that control agricultural pests while sparing beneficial species. [ABSTRACT FROM AUTHOR]

Published

2017

46. Mechanisms of nicotine-induced cutaneous vasodilation and sweating in young adults: roles for KCa, KATP, and KV channels, nitric oxide, and prostanoids.

Author

Fujii, Naoto, Louie, Jeffrey C., McNeely, Brendan D., Amano, Tatsuro, Nishiyasu, Takeshi, and Kenny, Glen P.

Subjects

*POTASSIUM metabolism, *ENZYME metabolism, *BLOOD circulation, *BLOOD plasma substitutes, *VASODILATION, *DOSE-effect relationship in pharmacology, *ENZYME inhibitors, *FOREARM, *NICOTINE, *NONSTEROIDAL anti-inflammatory agents, *PERSPIRATION, *PROBABILITY theory, *SKIN, *CYCLOOXYGENASE 2, *MUSCARINIC antagonists, *DESCRIPTIVE statistics, *PHARMACODYNAMICS

Abstract

We evaluated the influence of K+ channels (i.e., Ca2+-activated K+ (KCa), ATP-sensitive K+ (KATP), and voltage-gated K+ (KV) channels) and key enzymes (nitric oxide synthase (NOS) and cyclooxygenase (COX)) on nicotine-induced cutaneous vasodilation and sweating. Using intradermal microdialysis, we evaluated forearm cutaneous vascular conductance (CVC) and sweat rate in 2 separate protocols. In protocol 1 ( n = 10), 4 separate sites were infused with ( i) lactated Ringer (Control), ( ii) 50 mmol·L−1 tetraethylammonium (KCa channel blocker), ( iii) 5 mmol·L−1 glybenclamide (KATP channel blocker), and ( iv) 10 mmol·L−1 4-aminopyridine (KV channel blocker). In protocol 2 ( n = 10), 4 sites were infused with ( i) lactated Ringer (Control), ( ii) 10 mmol·L−1 Nω-nitro- l-arginine (NOS inhibitor), ( iii) 10 mmol·L−1 ketorolac (COX inhibitor), or ( iv) a combination of NOS+COX inhibitors. At all sites, nicotine was infused in a dose-dependent manner (1.2, 3.6, 11, 33, and 100 mmol·L−1; each for 25 min). Nicotine-induced increase in CVC was attenuated by the KCa, KATP, and KV channel blockers, whereas nicotine-induced increase in sweat rate was reduced by the KCa and KV channel blockers ( P ≤ 0.05). COX inhibitor augmented nicotine-induced increase in CVC ( P ≤ 0.05), which was absent when NOS inhibitor was co-administered ( P > 0.05). In addition, our secondrary experiment ( n = 7) demonstrated that muscarinic receptor blockade with 58 μmol·L−1 atropine sulfate salt monohydrate abolished nicotine-induced increases in CVC (1.2-11 mmol·L−1) and sweating (all doses). We show that under a normothermic resting state: ( i) KCa, KATP, and KV channels contribute to nicotinic cutaneous vasodilation, ( ii) inhibition of COX augments nicotinic cutaneous vasodilation likely through NOS-dependent mechanism(s), and ( iii) KCa and KV channels contribute to nicotinic sweating. [ABSTRACT FROM AUTHOR]

Published

2017

47. Discovery and characterization of EIIB, a new α-conotoxin from Conus ermineus venom by nAChRs affinity capture monitored by MALDI-TOF/TOF mass spectrometry.

Author

Echterbille, Julien, Gilles, Nicolas, Araóz, Romulo, Mourier, Gilles, Amar, Muriel, Servent, Denis, De Pauw, Edwin, and Quinton, Loic

Subjects

*CONOTOXINS, *NICOTINIC acetylcholine receptors, *MATRIX-assisted laser desorption-ionization, *DRUG development, *TARGETED drug delivery

Abstract

Animal toxins are peptides that often bind with remarkable affinity and selectivity to membrane receptors such as nicotinic acetylcholine receptors (nAChRs). The latter are, for example, targeted by α-conotoxins, a family of peptide toxins produced by venomous cone snails. nAChRs are implicated in numerous physiological processes explaining why the design of new pharmacological tools and the discovery of potential innovative drugs targeting these receptor channels appear so important. This work describes a methodology developed to discover new ligands of nAChRs from complex mixtures of peptides. The methodology was set up by the incubation of Torpedo marmorata electrocyte membranes rich in nAChRs with BSA tryptic digests (>100 peptides) doped by small amounts of known nAChRs ligands (α-conotoxins). Peptides that bind to the receptors were purified and analyzed by MALDI-TOF/TOF mass spectrometry which revealed an enrichment of α-conotoxins in membrane-containing fractions. This result exhibits the binding of α-conotoxins to nAChRs. Negative controls were performed to demonstrate the specificity of the binding. The usefulness and the power of the methodology were also investigated for a discovery issue. The workflow was then applied to the screening of Conus ermineus crude venom, aiming at characterizing new nAChRs ligands from this venom, which has not been extensively investigated to date. The methodology validated our experiments by allowing us to bind two α-conotoxins (α-EI and α-EIIA) which have already been described as nAChRs ligands. Moreover, a new conotoxin, never described to date, was also captured, identified and sequenced from this venom. Classical pharmacology tests by radioligand binding using a synthetic homologue of the toxin confirm the activity of the new peptide, called α-EII B . The K i value of this peptide for Torpedo nicotinic receptors was measured at 2.2 ± 0.7 nM. [ABSTRACT FROM AUTHOR]

Published

2017

48. An insertion in intron 3 of nAChR a6 subunit is associated with spinosad resistance in the western flower thrips Frankliniella occidentalis.

Author

Kun Zhang, Jiangjiang Yuan, Yanran Wan, Jing Wang, Xiaobin Zheng, Youjun Zhang, Shaoying Wu, Pei Liang, Xuguo Zhou, and Qingjun Wu

Subjects

*FRANKLINIELLA occidentalis, *SPINOSAD, *NICOTINIC acetylcholine receptors, *INSECTICIDES, *THRIPS, *INSECT pests, *NICOTINIC receptors, *IMIDACLOPRID

Abstract

Derived from natural products of a soil bacteria, spinosad is a highly effective insecticide with a broad spectrum and a sound environmental profile. The mode of action of spinosad is the disruption of a neural mechanism, targeting primarily at the α6 subunit of nicotinic acetylcholine receptors (nAChRs) of the insect nervous system. Insect pests, including the western flower thrips, Frankliniella occidentalis (Pergande), however, have developed resistance to spinosad by producing truncated α6 subunits. Here, we cloned and compared the splicing variants and genomic DNAs of α6 subunit using a pair of spinosad susceptible (Ivf03) and resistant (NIL-R) near-isogenic F. occidentalis lines with the same genetic background. The resultant structural differences in α6 subunit between Ivf03 and NIL-R were further validated in Sf9 cells using a mini-gene construct. Results showed 100% truncation of the α6 subunit transcripts in the NIL-R strain, and the presence of seven INDELs (insertions and deletions) within α6 subunit between the two strains, where a 230 bp insertion in intron 3 of NIL-R had inverted repeat at both ends. In Sf9 cells, this insertion sequence was able to mediate 92.7% truncation of the mini-gene transcript. More importantly, the ratio of insertion is positively correlated with spinosad resistance levels in both lab (4) and field (8) F. occidentalis populations (y=53.28x-4.054, R²=0.9527, N=12). This study not only advances our mechanistic understanding of spinosad resistance in F. occidentalis, but also provides a diagnostic tool for monitoring the development of resistance in the field. [ABSTRACT FROM AUTHOR]

Published

2023

49. When, where and how? Focus on neuronal calcium dysfunctions in Alzheimer’s Disease.

Author

Agostini, Mario and Fasolato, Cristina

Abstract

Alzheimer’s disease (AD), since its characterization as a precise form of dementia with its own pathological hallmarks, has captured scientists’ attention because of its complexity. The last 30 years have been filled with discoveries regarding the elusive aetiology of this disease and, thanks to advances in molecular biology and live imaging techniques, we now know that an important role is played by calcium (Ca 2+ ). Ca 2+ , as ubiquitous second messenger, regulates a vast variety of cellular processes, from neuronal excitation and communication, to muscle fibre contraction and hormone secretion, with its action spanning a temporal scale that goes from microseconds to hours. It is therefore very challenging to conceive a single hypothesis that can integrate the numerous findings on this issue with those coming from the classical fields of AD research such as amyloid-beta (Aβ) and tau pathology. In this contribution, we will focus our attention on the Ca 2+ hypothesis of AD, dissecting it, as much as possible, in its subcellular localization, where the Ca 2+ signal meets its specificity. We will also follow the temporal evolution of the Ca 2+ hypothesis, providing some of the most updated discoveries. Whenever possible, we will link the findings regarding Ca 2+ dysfunction to the other players involved in AD pathogenesis, hoping to provide a crossover body of evidence, useful to amplify the knowledge that will lead towards the discovery of an effective therapy. [ABSTRACT FROM AUTHOR]

Published

2016

50. Expression profile of nicotinic acetylcholine receptor subunits in the brain of HIV-1 transgenic rats given chronic nicotine treatment.

Author

Cao, Junran, Nesil, Tanseli, Wang, Shaolin, Chang, Sulie, and Li, Ming

Subjects

*HIV-positive persons, *NICOTINIC acetylcholine receptors, *BRAIN physiology, *HIGHLY active antiretroviral therapy, *DRUG addiction, *LABORATORY rats

Abstract

Abuse of addictive substances, including cigarettes, is much greater in HIV-1-infected individuals than in the general population and challenges the efficiency of highly active anti-retroviral therapy (HAART). The HIV-1 transgenic (HIV-1Tg) rat, an animal model used to study drug addiction in HIV-1-infected patients on HAART, displays abnormal neurobehavioral responses to addictive substances. Given that the cholinergic system plays an essential part in the central reward circuitry, we evaluated the expression profile of nine nicotinic acetylcholine receptor (nAChR) subunit genes in the central nervous system (CNS) of HIV-1Tg rats. We found that nAChR subunits were differentially expressed in various brain regions in HIV-1Tg rats compared to F344 control rats, with more subunits altered in the ventral tegmental area (VTA) and nucleus accumbens (NAc) of the HIV-1Tg rats than in other brain regions. We also found that chronic nicotine treatment (0.4 mg/kg/day) decreased the mRNA expression of nAChR subunits α6, β3, and β4 in the VTA of HIV-1Tg rats, whereas expression of α4 and α6 subunits in the NAc increased. No such changes were observed in F344 rats. Together, our data suggest that HIV-1 proteins alter the expression of nAChRs, which may contribute to the vulnerability to cigarette smoking addiction in HIV-1 patients. [ABSTRACT FROM AUTHOR]

Published

2016