Search

Your search keyword '"Thomsen, Morten S."' showing total 46 results
Start Over Author "Thomsen, Morten S."
46 results on '"Thomsen, Morten S."'

17. Water‐soluble variant of human Lynx1 positively modulates synaptic plasticity and ameliorates cognitive impairment associated with α7‐nAChR dysfunction

Author

Shenkarev, Zakhar O., primary, Shulepko, Mikhail A., additional, Bychkov, Maxim L., additional, Kulbatskii, Dmitrii S., additional, Shlepova, Olga V., additional, Vasilyeva, Nathalia A., additional, Andreev-Andrievskiy, Alexander A., additional, Popova, Anfisa S., additional, Lagereva, Evgeniya A., additional, Loktyushov, Eugene V., additional, Koshelev, Sergey G., additional, Thomsen, Morten S., additional, Dolgikh, Dmitry A., additional, Kozlov, Sergey A., additional, Balaban, Pavel M., additional, Kirpichnikov, Mikhail P., additional, and Lyukmanova, Ekaterina N., additional

Published
2020
Full Text
View/download PDF

23. Functional interaction between Lypd6 and nicotinic acetylcholine receptors

Author

Arvaniti, Maria, Jensen, Majbrit M, Soni, Neeraj, Wang, Hong, Klein, Anders B, Thiriet, Nathalie, Pinborg, Lars H, Muldoon, Pretal P, Wienecke, Jacob, Imad Damaj, M, Kohlmeier, Kristi A, Gondré-Lewis, Marjorie C, Mikkelsen, Jens D, Thomsen, Morten S, Arvaniti, Maria, Jensen, Majbrit M, Soni, Neeraj, Wang, Hong, Klein, Anders B, Thiriet, Nathalie, Pinborg, Lars H, Muldoon, Pretal P, Wienecke, Jacob, Imad Damaj, M, Kohlmeier, Kristi A, Gondré-Lewis, Marjorie C, Mikkelsen, Jens D, and Thomsen, Morten S

Abstract

Nicotinic acetylcholine receptors (nAChRs) affect multiple physiological functions in the brain and their functions are modulated by regulatory proteins of the Lynx family. Here, we report for the first time a direct interaction of the Lynx protein LY6/PLAUR domain-containing 6 (Lypd6) with nAChRs in human brain extracts, identifying Lypd6 as a novel regulator of nAChR function. Using protein cross-linking and affinity purification from human temporal cortical extracts, we demonstrate that Lypd6 is a synaptically enriched membrane-bound protein that binds to multiple nAChR subtypes in the human brain. Additionally, soluble recombinant Lypd6 protein attenuates nicotine-induced hippocampal inward currents in rat brain slices and decreases nicotine-induced extracellular signal-regulated kinase phosphorylation in PC12 cells, suggesting that binding of Lypd6 is sufficient to inhibit nAChR-mediated intracellular signaling. We further show that perinatal nicotine exposure in rats (4 mg/kg/day through minipumps to dams from embryonic day 7 to post-natal day 21) significantly increases Lypd6 protein levels in the hippocampus in adulthood, which did not occur after exposure to nicotine in adulthood only. Our findings suggest that Lypd6 is a versatile inhibitor of cholinergic signaling in the brain, and that Lypd6 is dysregulated by nicotine exposure during early development. Regulatory proteins of the Lynx family modulate the function of nicotinic receptors (nAChRs). We report for the first time that the Lynx protein Lypd6 binds to nAChRs in human brain extracts, and that recombinant Lypd6 decreases nicotine-induced ERK phosphorylation and attenuates nicotine-induced hippocampal inward currents. Our findings suggest that Lypd6 is a versatile inhibitor of cholinergic signaling in the brain.

Published
2016

24. Therapeutic improvements expected in the near future for schizophrenia and schizoaffective disorder:an appraisal of phase III clinical trials of schizophrenia-targeted therapies as found in US and EU clinical trial registries

Author

Garay, Ricardo P, Citrome, Leslie, Samalin, Ludovic, Liu, Chen-Chung, Thomsen, Morten S, Correll, Christoph U, Hameg, Ahcène, Llorca, Pierre-Michel, Garay, Ricardo P, Citrome, Leslie, Samalin, Ludovic, Liu, Chen-Chung, Thomsen, Morten S, Correll, Christoph U, Hameg, Ahcène, and Llorca, Pierre-Michel

Abstract

INTRODUCTION: In this review, the authors describe medications in phase III of clinical development for schizophrenia and schizoaffective disorder, and provide an opinion on how current treatment can be improved in the near future. Areas covered: Recent (post 2013) phase III clinical trials of schizophrenia-targeted therapies were found in US and EU clinical trial registries. Two hundred fifty-three trials were identified, that included 16 investigational compounds. The antipsychotics brexpiprazole and cariprazine have been approved in the US, and although both are dopamine D2 receptor partial agonists, they differ markedly in their pharmacodynamic profiles. Encenicline and valbenazine are first-in-class candidates for treatment of cognitive impairment associated with schizophrenia (CIAS) and tardive dyskinesia, respectively. Eleven add-on compounds were previously approved for other therapeutic indications and are for the most part being studied at academic medical centers and smaller pharmaceutical companies for negative symptoms and CIAS or for specific populations (comorbidities, antipsychotic-induced obesity). Expert opinion: Promising new agents are emerging for schizophrenia and schizoaffective disorder. In addition to better-tolerated antipsychotics that treat positive symptoms, we could see the arrival of the first effective drug for negative symptoms and CIAS, which would strongly facilitate the ultimate goal of recovery in persons with schizophrenia.

Published
2016

25. Functional interaction between Lypd6 and nicotinic acetylcholine receptors

Author

Arvaniti, Maria, primary, Jensen, Majbrit M., additional, Soni, Neeraj, additional, Wang, Hong, additional, Klein, Anders B., additional, Thiriet, Nathalie, additional, Pinborg, Lars H., additional, Muldoon, Pretal P., additional, Wienecke, Jacob, additional, Imad Damaj, M., additional, Kohlmeier, Kristi A., additional, Gondré-Lewis, Marjorie C., additional, Mikkelsen, Jens D., additional, and Thomsen, Morten S., additional

Published
2016
Full Text
View/download PDF

26. Human Secreted Ly-6/uPAR Related Protein-1 (SLURP-1) Is a Selective Allosteric Antagonist of α7 Nicotinic Acetylcholine Receptor

Author

Lyukmanova, Ekaterina N., primary, Shulepko, Mikhail A., additional, Kudryavtsev, Denis, additional, Bychkov, Maxim L., additional, Kulbatskii, Dmitrii S., additional, Kasheverov, Igor E., additional, Astapova, Maria V., additional, Feofanov, Alexey V., additional, Thomsen, Morten S., additional, Mikkelsen, Jens D., additional, Shenkarev, Zakhar O., additional, Tsetlin, Victor I., additional, Dolgikh, Dmitry A., additional, and Kirpichnikov, Mikhail P., additional

Published
2016
Full Text
View/download PDF

27. Therapeutic improvements expected in the near future for schizophrenia and schizoaffective disorder: an appraisal of phase III clinical trials of schizophrenia-targeted therapies as found in US and EU clinical trial registries

Author

Garay, Ricardo P., primary, Citrome, Leslie, additional, Samalin, Ludovic, additional, Liu, Chen-Chung, additional, Thomsen, Morten S., additional, Correll, Christoph U., additional, Hameg, Ahcène, additional, and Llorca, Pierre-Michel, additional

Published
2016
Full Text
View/download PDF

28. a7 nicotinic receptor agonism mitigates phencyclidine-induced changes in synaptophysin and Arc gene expression in the mouse prefrontal cortex

Author

Thomsen, Morten S, Hansen, Henrik H, Mikkelsen, Jens D, Thomsen, Morten S, Hansen, Henrik H, and Mikkelsen, Jens D

Abstract

Repeated phencyclidine (PCP) administration in mice reproduces several histopathological features of schizophrenia, such as reduced synaptophysin and parvalbumin mRNA expression in the frontal cortex. These changes can be prevented by co-administering the a7 nicotinic acetylcholine receptor (nAChR) agonist SSR180711 with PCP, but it is not known to what extent PCP-induced changes can be normalized once they have already occurred. Here we use semi-quantitative in situ hybridization to show that repeated administration of SSR180711 (3 mg/kg b.i.d. for 5 days) subsequent to repeated PCP administration (10 mg/kg/day for 10 days) is able to mitigate the reduction of synaptophysin mRNA expression induced by PCP in two prefrontal cortical regions, the medial prefrontal cortex (mPFC) and the ventrolateral orbitofrontal cortex (VLO). This effect is accompanied by a normalization of the PCP-induced increase in Arc mRNA expression in the same regions. In contrast, subsequent administration of SSR180711 does not affect PCP-induced decreases in parvalbumin mRNA in the mPFC, and glutamate decarboxylase 67 mRNA in the mPFC or VLO. These data demonstrate that it is possible to restore some, but not all, of the molecular dysregulations induced by repeated PCP administration with an a7 nAChR agonist. They also suggest that the previously demonstrated cognitive improvement with SSR180711 subsequent to PCP treatment does not require normalization of parvalbumin expression, but may instead be related to a restoration of synaptophysin and/or Arc levels in the frontal cortex. These data lend support to the potential for development of a7 nAChR agonists for the treatment of cognitive deficits in schizophrenia.

Published
2010

29. Use of biomarkers in the discovery of novel anti-schizophrenia drugs

Author

Mikkelsen, Jens D, Thomsen, Morten S, Hansen, Henrik H, Lichota, Jacek, Mikkelsen, Jens D, Thomsen, Morten S, Hansen, Henrik H, and Lichota, Jacek

Abstract

Schizophrenia is characterized by a diverse symptomatology that often includes positive, cognitive and negative symptoms. Current anti-schizophrenic drugs act at multiple receptors, but little is known about how each of these receptors contributes to their mechanisms of action. Screening of novel anti-schizophrenic drug candidates targeting single receptors will be based on biomarker assays that measure signalling pathways, transcriptional factors, epigenetic mechanisms and synaptic function and translate these effects to behavioural effects in animals and humans. This review discusses current states of the validity of biomarkers in the identification of novel anti-schizophrenic drug candidates.

Published
2010

30. Repeated administration of alpha7 nicotinic acetylcholine receptor (nAChR) agonists, but not positive allosteric modulators, increases alpha7 nAChR levels in the brain

Author

Christensen, Ditte Z, Mikkelsen, Jens D, Hansen, Henrik H, Thomsen, Morten S, Christensen, Ditte Z, Mikkelsen, Jens D, Hansen, Henrik H, and Thomsen, Morten S

Abstract

The alpha7 nicotinic acetylcholine receptor (nAChR) is an important target for treatment of cognitive deficits in schizophrenia and Alzheimer's disease. However, the receptor desensitizes rapidly in vitro, which has led to concern regarding its applicability as a clinically relevant drug target. Here we investigate the effects of repeated agonism on alpha7 nAChR receptor levels and responsiveness in vivo in rats. Using [(125)I]-alpha-bungarotoxin (BTX) autoradiography we show that acute or repeated administration with the selective alpha7 nAChR agonist A-582941 increases the number of alpha7 nAChR binding sites in several brain regions, particularly in the prefrontal cortex. The alpha7 nAChR agonists SSR180711 and PNU-282987 also increase [(125)I]-BTX binding, suggesting that this is a general consequence of alpha7 nAChR agonism. Interestingly, the alpha7 nAChR positive allosteric modulators PNU-120596 and NS1738 do not increase [(125)I]-BTX binding. Furthermore, A-582941-induced increase in Arc and c-fos mRNA expression in the prefrontal cortex is enhanced and unaltered, respectively, after repeated administration, demonstrating that the alpha7 nAChRs remain responsive. Contrarily, A-582941-induced phosphorylation of Erk2 in the prefrontal cortex occurs following acute, but not repeated administration. Our results demonstrate that repeated agonist administration increases the number of alpha7 nAChRs in the brain, and leads to coupling versus uncoupling of specific intracellular signaling pathways. Additionally, our data suggest a fundamental difference between the sequelae of repeated administration with agonists and allosteric modulators of the alpha7 nAChR.

Published
2010

31. Cognitive improvement by activation of alpha7 nicotinic acetylcholine receptors: from animal models to human pathophysiology

Author

Thomsen, Morten S, Hansen, Henrik H, Timmerman, Daniel B, Mikkelsen, Jens D, Thomsen, Morten S, Hansen, Henrik H, Timmerman, Daniel B, and Mikkelsen, Jens D

Abstract

Agonists and positive allosteric modulators of the alpha(7) nicotinic acetylcholine receptor (nAChR) are currently being developed for the treatment of cognitive disturbances in patients with schizophrenia or Alzheimer's disease. This review describes the neurobiological properties of the alpha nAChR and the cognitive effects of alpha(7) nAChR activation, focusing on the translational aspects in the development of these drugs. The functional properties and anatomical localization of the alpha(7) nAChR makes it well suited to modulate cognitive function. Accordingly, systemic administration of alpha(7) nAChR agonists improves learning, memory, and attentional function in variety of animal models, and pro-cognitive effects of alpha(7) nAChR agonists have recently been demonstrated in patients with schizophrenia or Alzheimer's disease. The alpha(7) nAChR desensitizes rapidly in vitro, and this has been a major concern in the development of alpha(7) nAChR agonists as putative drugs. Our review of the existing literature shows that development of tolerance to the behavioral effects of alpha(7) nAChR agonists does not occur in animal models or humans. However, the long-term memory-enhancing effects seen in animal models are not mimicked in healthy humans and schizophrenic patients, where attentional improvement predominates. This discrepancy may result from inherent differences in testing methods or from species differences in the level of expression of alpha(7) nAChRs in limbic brain regions, and may hamper preclinical evaluation of alpha(7) nAChR activation. It is therefore important to consider the translational power of the animal models used before entering into a clinical evaluation of the pro-cognitive effects of alpha(7) nAChR activation.

Published
2010

32. Opposite effect of phencyclidine on activity-regulated cytoskeleton-associated protein (Arc) in juvenile and adult limbic rat brain regions

Author

Thomsen, Morten S, Hansen, Henrik H, Mikkelsen, Jens D, Thomsen, Morten S, Hansen, Henrik H, and Mikkelsen, Jens D

Abstract

The psychotomimetic effect of NMDA antagonists such as phencyclidine (PCP) in humans spurred the hypoglutamatergic theory of schizophrenia. This theory is supported by animal studies demonstrating schizophrenia-like behavioral and molecular changes following PCP administration to adult or neonatal animals. However, schizophrenia is believed to develop in part due to neurodevelopmental dysfunction during adolescence. Therefore, the effects of PCP in juvenile animals may better reflect the pathophysiology of schizophrenia. Here, we compare the effect of PCP (5mg/kg/day for 5 days) on activity-regulated cytoskeleton-associated protein (Arc) and parvalbumin mRNA expression in juvenile and adult rats. Arc is a marker for excitatory neurotransmission. Parvalbumin is a marker for GABAergic neurotransmission, known to be reduced in postmortem brains of schizophrenics. PCP reduced parvalbumin mRNA expression in the medial prefrontal cortex (mPFC), ventrolateral orbitofrontal cortex (VLO) and shell of the nucleus accumbens (ACCshell) in both juvenile and adult rats. Contrarily, PCP produced opposite effects on Arc mRNA expression in the mPFC, VLO and ACCshell, leading to decreased expression in juvenile and increased expression in adult rats. The differential effect of PCP in juvenile and adult rats may be caused by the immature functional state of the prefrontal cortex in juvenile rats. These results demonstrate differences between the effects of PCP in juvenile and adult rats. The decrease in Arc mRNA in juvenile rats corresponds best with the proposed "hypofrontality" in schizophrenia, suggesting the merits of using PCP in juvenile animals as a model for schizophrenia, as this would relate better to the typical onset and clinical features of schizophrenia.

Published
2010

34. Distinct neural pathways mediate alpha7 nicotinic acetylcholine receptor-dependent activation of the forebrain

Author

Thomsen, Morten S, Hay-Schmidt, Anders, Hansen, Henrik H, Mikkelsen, Jens D, Thomsen, Morten S, Hay-Schmidt, Anders, Hansen, Henrik H, and Mikkelsen, Jens D

Abstract

Udgivelsesdato: 2010-Sep, alpha(7) nicotinic acetylcholine receptor (nAChR) agonists are candidates for the treatment of cognitive deficits in schizophrenia. Selective alpha(7) nAChR agonists, such as SSR180711, activate neurons in the medial prefrontal cortex (mPFC) and nucleus accumbens shell (ACCshell) in rats, regions important for cognitive function. However, the neural substrates involved in these effects remain elusive. Here we identify cortically projecting cholinergic neurons in the horizontal limb of the diagonal band of Broca (HDB) in the basal forebrain (BF) as important targets for alpha(7) nAChR activation, as measured by c-Fos immunoreactivity, a marker of neuronal activation. Selective depletion of these cholinergic neurons abolishes the SSR180711-induced activation of the mPFC but not the ACCshell, demonstrating their critical importance for alpha(7) nAChR-dependent activation of the mPFC. Contrarily, selective depletion of dopaminergic neurons in the ventral tegmental area abolishes the SSR180711-induced activation of the ACCshell but not the mPFC or HDB. These results demonstrate 2 distinct neural pathways activated by SSR180711. The BF and mPFC are important for attentional function and may subserve the procognitive effects of alpha(7) nAChR agonists, whereas activation of the ACCshell is implicated in the beneficial effect of antipsychotics on the positive symptoms of schizophrenia.

Published
2010

42. Cognitive Improvement by Activation of α7 Nicotinic Acetylcholine Receptors: From Animal Models to Human Pathophysiology

Author

Thomsen, Morten S., Hansen, Henrik H., Timmerman, Mikkelsen B., and Mikkelsen, Jens D.

Abstract

Agonists and positive allosteric modulators of the α7 nicotinic acetylcholine receptor (nAChR) are currently being developed for the treatment of cognitive disturbances in patients with schizophrenia or Alzheimer's disease. This review describes the neurobiological properties of the α7 nAChR and the cognitive effects of α7 nAChR activation, focusing on the translational aspects in the development of these drugs. The functional properties and anatomical localization of the α7 nAChR makes it well suited to modulate cognitive function. Accordingly, systemic administration of α7 nAChR agonists improves learning, memory, and attentional function in variety of animal models, and procognitive effects of α7 nAChR agonists have recently been demonstrated in patients with schizophrenia or Alzheimer's disease. The α7 nAChR desensitizes rapidly in vitro, and this has been a major concern in the development of α7 nAChR agonists as putative drugs. Our review of the existing literature shows that development of tolerance to the behavioral effects of α7 nAChR agonists does not occur in animal models or humans. However, the long-term memory-enhancing effects seen in animal models are not mimicked in healthy humans and schizophrenic patients, where attentional improvement predominates. This discrepancy may result from inherent differences in testing methods or from species differences in the level of expression of α7 nAChRs in limbic brain regions, and may hamper preclinical evaluation of α7 nAChR activation. It is therefore important to consider the translational power of the animal models used before entering into a clinical evaluation of the pro-cognitive effects of α7 nAChR activation.

Published
2010

43. Developmental, pharmacological, and experience-dependent regulation of nicotinic receptor-interacting Ly6 proteins

Author

Cinar, Betül, Rewitz, Kim, Thomsen, Morten S, and Klein, Anders B

Subjects
learning, western blot, synaptic plasticity, Ly6, Lynx1, neurobiology, RT-qPCR, Lynx2, memory, neuromodulator, Lypd6, nicotinic acetylcholine receptors, RIC-3, PSCA, Ly6H
Abstract

Proteins belonging to the Ly6 superfamily are believed to be allosteric modulators of nicotinic acetylcholine receptors (nAChRs) affecting synaptic plasticity, learning, and memory serving to prevent the effects of excitatory receptor signaling which causes neurodegeneration. The objective of this thesis was to study the expression, regulation, and localization of the Ly6 superfamily under various conditions in rats by means of RT-qPCR and/or western blotting. A postnatal developmental study was conducted to examine the expression profiles of the Ly6 superfamily. The expression of Ly6 proteins in different neuronal and non-neuronal tissues was studied to evaluate the tissue type-dependent distribution of Ly6 proteins. Furthermore, a BS3 cross-linkage assay was carried out where proteins located at cellular surfaces were cross-linked with BS3 with the purpose of investigating cell surface levels of Ly6 proteins. Experiments in which male rat pups were exposed to nicotine and/or the partial α7 agonist, SSR-180711, pre- and postnatally were conducted to study putative alterations in the expression of Ly6 proteins. Finally, acute and chronic forced exercise studies were conducted to investigate the expression of Ly6 proteins. Postnatal expression profiles of the Ly6 superfamily revealed upregulation of the Ly6 superfamily associated with aging. The majority of the Ly6 proteins exhibited tissue-restrictive expression profiles being predominantly located in neuronal tissues, namely cortex and cerebellum. Furthermore, cell surface cross-linkage studies revealed both intracellular and cell surface expression of Ly6 proteins exhibiting brain region-specificity. Neither pre- nor postnatal nicotine and/or SSr-180711 exposure affected Ly6 protein levels. Finally, acute and chronic exercise studies did not indicate any impact of exercise on the expression of Ly6 proteins. Altogether, these results suggest that expression of the Ly6 superfamily is robust to perturbations which allows minimal interference by other factors like nAChR agonists and synaptic plasticity-increasing interferences such as exercise.

Published
2012

44. The α7 nicotinic acetylcholine receptor complex: one, two or multiple drug targets?

Author

Thomsen MS and Mikkelsen JD

Subjects
Allosteric Regulation drug effects, Animals, Central Nervous System drug effects, Central Nervous System metabolism, Central Nervous System Diseases drug therapy, Central Nervous System Diseases physiopathology, Drug Delivery Systems, Drug Design, Humans, Receptors, Nicotinic metabolism, alpha7 Nicotinic Acetylcholine Receptor, Nicotinic Agonists pharmacology, Nicotinic Antagonists pharmacology, Receptors, Nicotinic drug effects
Abstract

The α7 nicotinic acetylcholine receptor (nAChR) is a promising drug target for a number of diseases ranging from schizophrenia and Alzheimer's disease to chronic pain and inflammatory diseases. Focusing on the central nervous system, we describe how endogenous and experimental compounds and proteins regulate expression and function of the α7 nAChR. Drug development efforts have hitherto focused on direct manipulation of the α7 nAChR, but it is still not clear, whether agonism/antagonism or allosteric modulation is preferable as a potential drug therapy. In addition, the action of such compounds in vivo is highly dependent on α7 nAChR-interacting proteins, such as RIC-3 and lynx1, which modulate expression and function of the receptor. These regulatory proteins are often not expressed in in vitro models used to study α7 nAChR function, and it is not known to what extent they are involved in diseases such as schizophrenia and Alzheimer's disease. Furthermore, α7 nAChR agonists and allosteric modulators differentially alter expression and functionality of the α7 nAChR with repeated administration, which suggests that there may be fundamentally different outcomes of long-term administration with these different types of compounds. Finally, we describe the special case of Aβ1-42 binding to the α7 nAChR, which may pose a unique challenge to drug development of α7 nAChR-specific ligands for Alzheimer's disease. Hopefully, a greater knowledge of the many factors influencing α7 nAChR function as well as an increasing pipeline of specific drug candidates, enabling a more subtle manipulation of α7 nAChR function, may facilitate α7 nAChR drug development efforts.

Published
2012
Full Text
View/download PDF

45. Repeated administration of alpha7 nicotinic acetylcholine receptor (nAChR) agonists, but not positive allosteric modulators, increases alpha7 nAChR levels in the brain.

Author

Christensen DZ, Mikkelsen JD, Hansen HH, and Thomsen MS

Subjects
Allosteric Regulation drug effects, Allosteric Regulation physiology, Animals, Binding Sites drug effects, Binding Sites physiology, Brain metabolism, Bungarotoxins metabolism, Cytoskeletal Proteins biosynthesis, Cytoskeletal Proteins genetics, Drug Administration Schedule, Male, Nerve Tissue Proteins biosynthesis, Nerve Tissue Proteins genetics, Proto-Oncogene Proteins c-fos biosynthesis, Proto-Oncogene Proteins c-fos genetics, Pyridazines administration & dosage, Pyrroles administration & dosage, Rats, Rats, Wistar, Receptors, Nicotinic biosynthesis, Signal Transduction drug effects, Signal Transduction physiology, alpha7 Nicotinic Acetylcholine Receptor, Brain drug effects, Nicotinic Agonists administration & dosage, Receptors, Nicotinic metabolism
Abstract

The alpha7 nicotinic acetylcholine receptor (nAChR) is an important target for treatment of cognitive deficits in schizophrenia and Alzheimer's disease. However, the receptor desensitizes rapidly in vitro, which has led to concern regarding its applicability as a clinically relevant drug target. Here we investigate the effects of repeated agonism on alpha7 nAChR receptor levels and responsiveness in vivo in rats. Using [(125)I]-alpha-bungarotoxin (BTX) autoradiography we show that acute or repeated administration with the selective alpha7 nAChR agonist A-582941 increases the number of alpha7 nAChR binding sites in several brain regions, particularly in the prefrontal cortex. The alpha7 nAChR agonists SSR180711 and PNU-282987 also increase [(125)I]-BTX binding, suggesting that this is a general consequence of alpha7 nAChR agonism. Interestingly, the alpha7 nAChR positive allosteric modulators PNU-120596 and NS1738 do not increase [(125)I]-BTX binding. Furthermore, A-582941-induced increase in Arc and c-fos mRNA expression in the prefrontal cortex is enhanced and unaltered, respectively, after repeated administration, demonstrating that the alpha7 nAChRs remain responsive. Contrarily, A-582941-induced phosphorylation of Erk2 in the prefrontal cortex occurs following acute, but not repeated administration. Our results demonstrate that repeated agonist administration increases the number of alpha7 nAChRs in the brain, and leads to coupling versus uncoupling of specific intracellular signaling pathways. Additionally, our data suggest a fundamental difference between the sequelae of repeated administration with agonists and allosteric modulators of the alpha7 nAChR.

Published
2010
Full Text
View/download PDF

46. Cognitive improvement by activation of alpha7 nicotinic acetylcholine receptors: from animal models to human pathophysiology.

Author

Thomsen MS, Hansen HH, Timmerman DB, and Mikkelsen JD

Subjects
Allosteric Regulation, Alzheimer Disease drug therapy, Alzheimer Disease physiopathology, Animals, Cognition Disorders etiology, Disease Models, Animal, Humans, Schizophrenia drug therapy, Schizophrenia physiopathology, Species Specificity, alpha7 Nicotinic Acetylcholine Receptor, Cognition Disorders drug therapy, Nicotinic Agonists pharmacology, Receptors, Nicotinic drug effects
Abstract

Agonists and positive allosteric modulators of the alpha(7) nicotinic acetylcholine receptor (nAChR) are currently being developed for the treatment of cognitive disturbances in patients with schizophrenia or Alzheimer's disease. This review describes the neurobiological properties of the alpha nAChR and the cognitive effects of alpha(7) nAChR activation, focusing on the translational aspects in the development of these drugs. The functional properties and anatomical localization of the alpha(7) nAChR makes it well suited to modulate cognitive function. Accordingly, systemic administration of alpha(7) nAChR agonists improves learning, memory, and attentional function in variety of animal models, and pro-cognitive effects of alpha(7) nAChR agonists have recently been demonstrated in patients with schizophrenia or Alzheimer's disease. The alpha(7) nAChR desensitizes rapidly in vitro, and this has been a major concern in the development of alpha(7) nAChR agonists as putative drugs. Our review of the existing literature shows that development of tolerance to the behavioral effects of alpha(7) nAChR agonists does not occur in animal models or humans. However, the long-term memory-enhancing effects seen in animal models are not mimicked in healthy humans and schizophrenic patients, where attentional improvement predominates. This discrepancy may result from inherent differences in testing methods or from species differences in the level of expression of alpha(7) nAChRs in limbic brain regions, and may hamper preclinical evaluation of alpha(7) nAChR activation. It is therefore important to consider the translational power of the animal models used before entering into a clinical evaluation of the pro-cognitive effects of alpha(7) nAChR activation.

Published
2010
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results