The vesicular acetylcholine transporter is present in melanocytes and keratinocytes in the human epidermis

Schallreuter, Karin U., Chavan, Bhavan, Elwary, Souna M.A.

January 2006

No / The human epidermis holds the full machinery for cholinergic signal transduction. However, the presence of the vesicular transporter (vesicular acetylcholine (ACh) transporter (VAChT)) for both choline and ACh has never been shown in this compartment. The results of this study confirm the presence of VAChT in cutaneous nerves and in both epidermal melanocytes and keratinocytes as well as in their nuclei using immunofluorescence labelling in situ and in vitro, Western blot analysis of cellular and nuclear extracts and reverse transcription-PCR. These results underline that ACh/choline transport in the non-neuronal epidermis is no different from the neuronal pathway. However, the function of VAChT in the nucleus remains to be shown.

Human Epidermis

Melanocytes

Keratinocytes

VAChT

Vesicular Acetylcholine Transporter

Thyroid hormones, brain function and cognition

Smith, Jeremy W., Evans, A. Tudor, Costall, Brenda, Smythe, James W.

January 2002

No / In addition to their role in cellular metabolic activity, thyroid hormones (THs), also regulate neural development; the central nervous system is particularly dependent on TH for normal maturation and function. Specifically, there appears to be extensive inter-reliance between TH and acetylcholine (Ach), nerve growth factor and hippocampal function. These associations led us to investigate the possible effects of thyroxine (L-T4) on performance of a spatial learning task, where cholinergic activity and hippocampal function are known to be important. Groups of rats (n=20) received saline (controls) or L-T4 at 2.5 or 5 mg/kg daily for 4 days as a sub-chronic treatment, or 0, 5 or 10 mg/kg doses administered every third day for 28 days prior to testing as a chronic regimen. Rats were assessed in a watermaze for their ability to find a submerged or visible platform. Forty minutes prior to watermaze testing, half the animals in each group received 1 mg/kg scopolamine to elicit a cognitive deficit. Following testing, rats were decapitated, blood samples taken, and the frontal cortex and hippocampus were dissected out for acetylcholinesterase (AChE) assay. The results showed that L-T4 treatment, administered both sub-chronically and chronically, significantly enhanced the ability of rats to learn a spatial memory task, compared with controls. Moreover, both short-term and long-term L-T4 treatment reduced the cognitive-impairing effects of scopolamine. Improvements in performance were shown to occur alongside significantly increased cholinergic activity in frontal cortex and in the hippocampus of treated animals.These findings demonstrate an augmentative effect of L-T4 upon cognitive function, possibly mediated by an enhancement of cholinergic activity. The results support previous findings of a relationship between L-T4 and acetylcholine, and underscore possible mechanisms by which disorders of thyroid function may be associated with cognitive decline.

Hippocampus

Rat

Acetylcholine

Spatial learning

Thyroxine

Development

NGF

Ageing

Aspects of Non-Neuronal Signalling Functions of Acetylcholine in Colorectal Cancer : Roles for the α7nAChR

Novotny, Ann

January 2009

No description available.

alpha7 nicotinic acetylcholine receptor

acetylcholine

colorectal cancer

morphine

nicotine

plasminogen activator inhibitor-1

SLURP-1

Oncology

Onkologi

Nicotinic Acetylcholine Receptor α3 mRNA in Rat Visual System After Monocular Deprivation

Taylor, James H. (James Harvey), 1970-

08 1900

In situ hybridization was used to examine effects of monocular enucleation on nicotinic acetylcholine receptor subunit cc3 mRNA in the rat dLGNand visual cortex. After 28 days postoperative, there were no significant differences in α3 mRNA density between the contralateral (deprived) and ipsilateral (non-deprived) sides. The lack of obvious effects of visual deprivation on α3 mRNA density suggests that other factors, possibly intrinsic to dLGNand visual cortex, govern the postnatal expression of α3 mRNA.

dLGN

Visual cortex

Alpha 3 mRNA

Nicotinic acetylcholine

Nicotinic receptors.

Acetylcholine -- Receptors.

Visual cortex.

Rats -- Nervous system.

Caractérisation des sous-types de récepteurs nicotiniques neuronaux d'insectes et étude de la modulation de leurs profils pharmacologiques par les insecticides néonicotinoïdes / Subtypes characterization and pharmacological profiles modulation study of insect nicotinic receptors by neonicotinoid insecticides

Cartereau, Alison

26 September 2018

L’utilisation intensive des insecticides pour lutter contre les insectes ravageurs de culture et vecteurs demaladies, a conduit à des polémiques sur le mode d’action des insecticides. Ces polémiques sont liéesau fait que le mode d’action des insecticides, notamment des néonicotinoïdes est mal connu. Ils agissentprincipalement sur les récepteurs à l’acétylcholine (ACh) de type nicotinique (nAChR) qui jouent un rôlefondamental dans la transmission synaptique cholinergique. Bien que ces récepteurs soient bien décritschez les mammifères, très peu d’études ont évalué l’effet des néoniotinoïdes sur un récepteur natifd’insecte.Au cours de cette thèse, nous avons pour la première fois exprimé en ovocytes de xénope un récepteurhomomérique ⍺7 de blatte et étudié ces propriétés pharmacologiques vis-à-vis des néonicotinoïdes,comparativement au récepteur a7 de rat. Nos résultats révèlent un récepteur atypique qui est insensibleà l’⍺-bungarotoxine et qui n’est pas activé par les néonicotinoïdes. Ainsi, bien que les gènes codantpour les sous-unités α7 de blatte et de rat forment un groupe monophylétique distinct des autres sousunitésd’insectes et de mammifères, les récepteurs homomériques obtenus semblent avoir despropriétés pharmacologiques différentes. Parallèlement, nous avons étudié les propriétéspharmacologiques des nAChR natifs et notamment l’effet modulateur d’un pyréthrinoïde, la permethrine,sur les courants induits par le dinotefurane. Ce travail a permis d’évaluer le mode d’action d’unantiparasitaire, le Vectra 3D. Enfin, nous avons également entrepris de développer la techniqued’extraction membranaire afin de l’utiliser comme alternative pour étudier le mode d’action desinsecticides.Pour conclure, cette thèse a permis une avancée sur l’étude de la caractérisation des propriétéspharmacologiques des récepteurs nicotiniques neuronaux des insectes et sur l’étude du mode d’actiondes insecticides néonicotinoïdes. / The intensive use of insecticides against crop pests and vectors of human and animal leads to several polemics about their mode of action. All these controversies are related to the fact that the mode of action of insecticides in insects is poorly unknown, in particular neonicotinoids which act on nicotinic acetylcholine (ACh) receptors (nAChR).During this PhD thesis, we characterized for the first time the pharmacological properties of a cockroach ⍺7 homomeric receptor in a xenopus oocyte. Our results revealed that cockroach ⍺7 in an atypical receptor that is insensitive to ⍺-bungarotoxin and not activated by neonicotinoids. Cockroach and rat ⍺7 receptors which are included in the same cluster have distinct pharmacological properties. We then studied the pharmacological properties of native receptors, in particular, the modulatory effect of permethrin on dinotefuran-induced currents. This work was included in the study of Vectra 3D. We also evaluated the use of insect central nervous system membrane extraction as a strategy to study the pharmacological properties of insect native nAChRs.To conclude, this PhD contribute to the study of the pharmacological properties of insect nAChRs and the study of the mode of action of neonicotinoids insecticides.

Acétylcholine

Néonicotinoïdes

Periplaneta americana

Nicotinic acetylcholine receptor (nAChR)

Acetylcholine

Neonicotinoid insecticides

Periplaneta americana

573.8

Acetylcholine levels in the prefrontal cortex and hippocampus during trace and delay conditioning

Flesher, Mary Melissa

01 January 2008

The goal of this experiment was to examine the pattern of ACh release in mPFC and HPC during performance in trace and delay appetitive conditioning.

Memory Physiology

Brain Physiology

Acetylcholine Receptors

Conditioned response

Neurotransmitters

Acetylcholine Receptors

Brain Physiology

Conditioned response

Neurotransmitters.

Biological Psychology

Mechanism of IL-12 Mediated Enhancement of Passive Experimental Autoimmune Myasthenia Gravis

Brown, Paul Michael

January 2010

No description available.

Immunology

interleukin-12

interferon-gamma

natural killer cells

complement

muscle

acetylcholine

acetylcholine receptors

Efeito da redução da função colinérgica na mecânica pulmonar e na histopatologia pulmonar em modelo experimental de inflamação aguda induzida por instilação de LPS em camundongos geneticamente modificados / Cholinergic function reduction effect of pulmonary mechanics and pulmonary histopathology acute inflammation model of experimental induced by LPS in mice genetically modified

Pinheiro, Nathalia Montouro

05 May 2016

A lesão pulmonar aguda (LPA) é caracterizada por inflamação pulmonar de início súbito com recrutamento de polimorfonucleares e liberação de mediadores próinflamatórios. É uma condição grave que evolui com óbito em aproximadamente 40% dos casos. Diversos estudos que elucidaram a fisiopatologia da LPA, o tratamento ainda é insatisfatório. O sistema colinérgico anti-inflamatório foi descrito no pulmão e está relacionado a um reflexo via nervo vago que inibe a liberação de citocinas inflamatórias por efeitos relacionados a ação da acetilcolina em receptores nicotínicos. Nossa hipótese é de que a redução de VAChT, que está relacionada ao déficit na liberação de ACh, module a resposta inflamatória pulmonar em modelo de LPS. Objetivo: 1. Avaliar se a deficiência de VAChT modula a resposta pulmonar em animais geneticamente modificados; 2. Avaliar se a deficiência colinérgica induzida por redução de VAChT está envolvida na resposta pulmonar ao LPS e elucidar alguns mecanismos envolvidos; 3. Avaliar o potencial terapêutico do PNU, um agonista de alfa7nAChR nas alterações funcionais e histopatológicas em modelo de LPA em animais C57Bl6. Metodologia: Foram utilizados camundongos machos geneticamente modificados mutante (VAChT KDHOM) ou selvagem (WT) e C57BL/6. Inicialmente avaliamos a função pulmonar e a histopatologia pulmonar em animais VAChT KDHOM. Após, animais WT e VAChT KDHOM receberam instilação intranasal de LPS ou salina e a resposta inflamatória foi avaliada de 1,5h até 72 horas após. Ainda, foi avaliado a resposta pulmonar em VAChT KDHOM e WT após a instilação de LPS intraperitoneal. Por fim, animais C57BL/6 instilados com LPS intranasal, receberam tratamento prévio ou após com PNU, agonista do receptor nicotínico alfa7. Resultados: Animais mutante apresentaram maior quantidade de células recuperadas no lavado bronco alveolar (LBA) e aumento de citocinas próinflamatórias, aumento de edema peribrônquico e piora da função pulmonar. Ainda, observamos aumento da expressão de NF-kB e redução de JAK2. A deficiência de VAChT induziu aumento de células inflamatórias em animais que receberam LPS somente em 1.5h após a indução, sendo os valores iguais ao dos animais WT em 24 e 72 horas. Nos animais WT, o estimulo do receptor nicotínico melhora a inflamação, enquanto o estímulo de receptores muscarínicos parece contribuir com a piora da resposta da inflamação pulmonar. Os efeitos do PNU parecem que dependem da via colinérgica intacta, uma vez que esta droga não teve o mesmo efeito em animais mutante. Entretanto, o tratamento com PNU em animais C57BL/6 reduziu a inflamação, a produção de citocinas, a deposição de colágeno no tecido pulmonar e os níveis de MMP-2, MMP-9 e TIMP-1, melhorando a função pulmonar. Estes efeitos parecem estar associados a redução de macrófagos perfil M1, e a inibição de NF-kB. Conclusão: Estes dados claramente demonstram que o sistema colinérgico anti-inflamatório está envolvido no controle da resposta inflamatória pulmonar, seja na manutenção da homeostasia ou ainda nas fases iniciais do desenvolvimento da LPA. Ainda, está claro que o estímulo de receptores nicotínicos tem grande potencial como alvo terapêutico a ser explorado na SDRA / Acute lung injury (ALI) is characterized by acute lung inflammation with recruitment of polymorphonuclear and release of proinflammatory mediators. It is a severe condition since leads to death 40% of the cases. Several studies have elucidated the pathophysiology of ALI, however the treatment is still unsatisfactory. The anti-inflammatory cholinergic system was described in the lung and is related to a vagal nerve reflex that inhibits the release of inflammatory cytokines by the action o ACh on nicotinic receptors. Our hypothesis is that the VAChT reduction, which is related to the deficit in the release of ACh, modulates the pulmonary inflammatory response in a model of LPS. Aim: 1. To assess whether VAChT deficiency modulates the pulmonary response in genetically modified animals; 2. Assess whether cholinergic deficiency induced reduction VAChT is involved in pulmonary response to LPS and elucidate some mechanisms involved; 3. To evaluate the therapeutic potential of PNU, an agonist alfa7nAChR, in functional and histological changes in C57BL6 mice with LPA. Methods: Mutant genetically modified male mice (VAChT KDHOM) or wild (WT) and C57BL/6 were used. First, we evaluated lung function and lung histopathology in VAChT KDHOM animals. After, WT animals and VAChT KDHOM received intranasal instillation of LPS or saline and the inflammatory response was assessed 1.5 hours to 72 hours. Moreover, the pulmonary response was evaluated in WT and VAChT KDHOM after instillation of LPS intraperitoneally. Finally, C57BL6 instilled with intranasal LPS received prior or post-treatment with PNU, an alfa7 nicotinic receptor agonist. Results: Mutant animals had higher number of cells recovered in brochoalveolar lavage (BAL) and increased pro-inflammatory cytokines, peribronchial edema and worsening of lung function. Still, there was an increase of NF_kB expression and reduction of JAK2. The VAChT deficiency induced increase in inflammatory cells in animals receiving LPS only 1.5h after the LPS instilation, and the values were similar to WT in 24 and 72 hours. In WT mice, the stimulation of the nicotinic receptor improves inflammation, while the stimulation of muscarinic receptors appears to contribute to the worsening of the pulmonary inflammatory response. The effects of PNU seem to depend on the intact cholinergic pathway, since this drug had no effects on mutant animals. However, treatment with PNU in C57BL6 reduced pulmonar inflammation, cytokine production, collagen deposition in lung tissue and the levels of MMP-2, MMP-9 and TIMP-1, improving pulmonary function. These effects appear to be associated with reduced profile M1 macrophages and the inhibition of NF-kB. Conclusion: These data clearly demonstrate that the anti-inflammatory cholinergic system is involved in the control of lung inflammatory response, both to maintain the lung homeostasis or in the early stages of the development of ALI. Finally, it is clear that the stimulation of nicotinic receptors has great potential as a therapeutic target to be explored in ARDS

Acetilcolina

Acute lung injury, Acetylcholine

Alpha7 nicotinic acetylcholine receptor

Camundongos

Lesão pulmonar aguda

Mice, Pneumonia

Modelos animais

Models animal

Pneumonia

Efeito da redução da função colinérgica na mecânica pulmonar e na histopatologia pulmonar em modelo experimental de inflamação aguda induzida por instilação de LPS em camundongos geneticamente modificados / Cholinergic function reduction effect of pulmonary mechanics and pulmonary histopathology acute inflammation model of experimental induced by LPS in mice genetically modified

Nathalia Montouro Pinheiro

05 May 2016

A lesão pulmonar aguda (LPA) é caracterizada por inflamação pulmonar de início súbito com recrutamento de polimorfonucleares e liberação de mediadores próinflamatórios. É uma condição grave que evolui com óbito em aproximadamente 40% dos casos. Diversos estudos que elucidaram a fisiopatologia da LPA, o tratamento ainda é insatisfatório. O sistema colinérgico anti-inflamatório foi descrito no pulmão e está relacionado a um reflexo via nervo vago que inibe a liberação de citocinas inflamatórias por efeitos relacionados a ação da acetilcolina em receptores nicotínicos. Nossa hipótese é de que a redução de VAChT, que está relacionada ao déficit na liberação de ACh, module a resposta inflamatória pulmonar em modelo de LPS. Objetivo: 1. Avaliar se a deficiência de VAChT modula a resposta pulmonar em animais geneticamente modificados; 2. Avaliar se a deficiência colinérgica induzida por redução de VAChT está envolvida na resposta pulmonar ao LPS e elucidar alguns mecanismos envolvidos; 3. Avaliar o potencial terapêutico do PNU, um agonista de alfa7nAChR nas alterações funcionais e histopatológicas em modelo de LPA em animais C57Bl6. Metodologia: Foram utilizados camundongos machos geneticamente modificados mutante (VAChT KDHOM) ou selvagem (WT) e C57BL/6. Inicialmente avaliamos a função pulmonar e a histopatologia pulmonar em animais VAChT KDHOM. Após, animais WT e VAChT KDHOM receberam instilação intranasal de LPS ou salina e a resposta inflamatória foi avaliada de 1,5h até 72 horas após. Ainda, foi avaliado a resposta pulmonar em VAChT KDHOM e WT após a instilação de LPS intraperitoneal. Por fim, animais C57BL/6 instilados com LPS intranasal, receberam tratamento prévio ou após com PNU, agonista do receptor nicotínico alfa7. Resultados: Animais mutante apresentaram maior quantidade de células recuperadas no lavado bronco alveolar (LBA) e aumento de citocinas próinflamatórias, aumento de edema peribrônquico e piora da função pulmonar. Ainda, observamos aumento da expressão de NF-kB e redução de JAK2. A deficiência de VAChT induziu aumento de células inflamatórias em animais que receberam LPS somente em 1.5h após a indução, sendo os valores iguais ao dos animais WT em 24 e 72 horas. Nos animais WT, o estimulo do receptor nicotínico melhora a inflamação, enquanto o estímulo de receptores muscarínicos parece contribuir com a piora da resposta da inflamação pulmonar. Os efeitos do PNU parecem que dependem da via colinérgica intacta, uma vez que esta droga não teve o mesmo efeito em animais mutante. Entretanto, o tratamento com PNU em animais C57BL/6 reduziu a inflamação, a produção de citocinas, a deposição de colágeno no tecido pulmonar e os níveis de MMP-2, MMP-9 e TIMP-1, melhorando a função pulmonar. Estes efeitos parecem estar associados a redução de macrófagos perfil M1, e a inibição de NF-kB. Conclusão: Estes dados claramente demonstram que o sistema colinérgico anti-inflamatório está envolvido no controle da resposta inflamatória pulmonar, seja na manutenção da homeostasia ou ainda nas fases iniciais do desenvolvimento da LPA. Ainda, está claro que o estímulo de receptores nicotínicos tem grande potencial como alvo terapêutico a ser explorado na SDRA / Acute lung injury (ALI) is characterized by acute lung inflammation with recruitment of polymorphonuclear and release of proinflammatory mediators. It is a severe condition since leads to death 40% of the cases. Several studies have elucidated the pathophysiology of ALI, however the treatment is still unsatisfactory. The anti-inflammatory cholinergic system was described in the lung and is related to a vagal nerve reflex that inhibits the release of inflammatory cytokines by the action o ACh on nicotinic receptors. Our hypothesis is that the VAChT reduction, which is related to the deficit in the release of ACh, modulates the pulmonary inflammatory response in a model of LPS. Aim: 1. To assess whether VAChT deficiency modulates the pulmonary response in genetically modified animals; 2. Assess whether cholinergic deficiency induced reduction VAChT is involved in pulmonary response to LPS and elucidate some mechanisms involved; 3. To evaluate the therapeutic potential of PNU, an agonist alfa7nAChR, in functional and histological changes in C57BL6 mice with LPA. Methods: Mutant genetically modified male mice (VAChT KDHOM) or wild (WT) and C57BL/6 were used. First, we evaluated lung function and lung histopathology in VAChT KDHOM animals. After, WT animals and VAChT KDHOM received intranasal instillation of LPS or saline and the inflammatory response was assessed 1.5 hours to 72 hours. Moreover, the pulmonary response was evaluated in WT and VAChT KDHOM after instillation of LPS intraperitoneally. Finally, C57BL6 instilled with intranasal LPS received prior or post-treatment with PNU, an alfa7 nicotinic receptor agonist. Results: Mutant animals had higher number of cells recovered in brochoalveolar lavage (BAL) and increased pro-inflammatory cytokines, peribronchial edema and worsening of lung function. Still, there was an increase of NF_kB expression and reduction of JAK2. The VAChT deficiency induced increase in inflammatory cells in animals receiving LPS only 1.5h after the LPS instilation, and the values were similar to WT in 24 and 72 hours. In WT mice, the stimulation of the nicotinic receptor improves inflammation, while the stimulation of muscarinic receptors appears to contribute to the worsening of the pulmonary inflammatory response. The effects of PNU seem to depend on the intact cholinergic pathway, since this drug had no effects on mutant animals. However, treatment with PNU in C57BL6 reduced pulmonar inflammation, cytokine production, collagen deposition in lung tissue and the levels of MMP-2, MMP-9 and TIMP-1, improving pulmonary function. These effects appear to be associated with reduced profile M1 macrophages and the inhibition of NF-kB. Conclusion: These data clearly demonstrate that the anti-inflammatory cholinergic system is involved in the control of lung inflammatory response, both to maintain the lung homeostasis or in the early stages of the development of ALI. Finally, it is clear that the stimulation of nicotinic receptors has great potential as a therapeutic target to be explored in ARDS

Acetilcolina

Camundongos

Lesão pulmonar aguda

Modelos animais

Pneumonia

Acute lung injury, Acetylcholine

Alpha7 nicotinic acetylcholine receptor

Mice, Pneumonia

Models animal

Stanovení acetylcholinu pomocí LC-MS ve vzorcích mozkových mikrodialyzátů LC-MS/MS / Stanovení acetylcholinu pomocí LC-MS ve vzorcích mozkových mikrodialyzátů LC-MS/MS

Vrobel, Ivo

January 2013

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Analytical Chemistry Candidate: Ivo Vrobel Supervisors: Prof. RNDr. Petr Solich, CSc; Department of Analytical Chemistry, Faculty of Pharmacy, Charles University in Prague Prof. Seppo Auriola, MSc.(Chem.) Marko Lehtonen; Department of Pharmaceutical Chemistry, School of Pharmacy, University of Eastern Finland in Kuopio Title of master's thesis: LC-MS/MS analysis of acetylcholine in brain microdialysis samples Novel fast and simple LC-MS/MS method of ACh quantification in brain microdialysis samples utilizing stable-isotope-labeled IS was developed. The chromatographic step is based on revered-phase mode of pentafluorophenylpropyl (PFPP) column. The satisfactory retention of ACh is achieved with highly aqueous mobile phase containing 0.05% of the ion-pairing agent TFA and 4% of ACN in 4 min analytical run. Ionization of ACh and IS with low background noise and tolerant towards use of TFA was performed with atmospheric pressure thermospray ionization (APTSI). The selectivity of ACh and IS detection was obtained by SRM modes of MS/MS in the linear ion trap mass analyzer. The performance of developed method was cross validated to the validated method used in the laboratory for ACh measurements. The set of microdialysis...