Global ETD Search

41	Acute elevations in kynurenic acid result in cognitive inflexibility in an attentinal set-shfiting task via an alpha 7-mediated mechanism Pershing, Michelle 18 December 2012 (has links) No description available. Behavioral Psychology Neurosciences Kynurenic acid kynurenine alpha 7 nicotinic receptors glutamate attentional set shifting
42	Nicotinic Acetylcholine Receptor α3 mRNA in Rat Visual System After Monocular Deprivation Taylor, James H. (James Harvey), 1970- 08 1900 (has links) 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.
43	Etude de l’implication des récepteurs nicotiniques à l’acétylcholine dans le développement des cancers pulmonaires non à petites cellules / Study of the involvement of nicotinic acetylcholine receptors in the development of non-small cell lung cancer Medjber, Kahina 30 January 2012 (has links) La progression tumorale est caractérisée par deux processus clés, la prolifération et l’invasion cellulaires. Les nAChRs, activés par la nicotine et ses nitrosamines dérivées (NNN et NNK), modulent les concentrations calciques intracellulaires et activent in vitro la prolifération, l’apoptose, la migration et l’invasion de lignées cellulaires tumorales. Dans cette étude, nous montrons, en utilisant des cultures primaires de cellules dérivées de cancers pulmonaires non à petites cellules (carcinomes épidermoïdes et adénocarcinomes), que les nAChRs α7 régulent différemment la prolifération cellulaire en fonction du stade de différenciation des tumeurs. Le nAChR α7 agit comme répresseur de la prolifération cellulaire dans les tumeurs bien différenciées et dans l’épithélium respiratoire normal, alors que dans les tumeurs peu différenciées, il stimule la prolifération cellulaire en réponse à la nicotine. A l’inverse, le nAChR α3α5β2 n’est que partiellement impliqué dans la régulation de la prolifération cellulaire aussi bien dans les tumeurs pulmonaires que dans l’épithélium respiratoire normal. Les nAChRs α7 et nAChRs α3α5β2 sont tous les deux impliqués dans la stimulation de l’invasion des cellules tumorales des carcinomes épidermoïdes et adénocarcinomes. Le polymorphisme non-synonyme rs16969968 de la sous-unité α5 induit une mutation au niveau d’un acide aminé hautement conservé (D398N). De nombreuses études d’association pangénomiques lient ce polymorphisme au développement des cancers pulmonaires. Dans cette étude nous montrons que les nAChRs exprimant la sous-unité α5 mutée (D398N) altèrent la prolifération et la différenciation des cellules respiratoires et modulent l’invasion des cellules tumorales, en synergie avec les nAChRs α7. / Tumor progression is characterized by two key processes, cell proliferation and invasion. Nicotinic receptors, activated by nicotine and its derived nitrosamines (NNK and NNN) modulate intracellular calcium concentrations and activate in vitro proliferation, apoptosis, migration and invasion of tumor cell lines. In this study, we show, by using primary cell cultures from lung cancer tumors, adenocarcinoma and squamous cell carcinoma, that nAChR α7 differently regulates cell proliferation according to the state of tumor differentiation. The α7 nAChRs acts as a repressor of cell proliferation in differentiated lung cancer tissues and in the normal respiratory epithelium, while it stimulates cell proliferation in response to nicotine, in poorly differentiated tumors. Conversely, the α3α5β2 nAChR is only partially involved in the regulation of cell proliferation in lung cancers and in the normal respiratory epithelium. The α7 and α3α5β2 nAChRs are both involved in the in vitro invasion process of adenocarcinoma and squamous cell carcinoma. Non-synonymous polymorphism rs16969968 in the CHRNA5 gene induces a mutation in a highly conserved amino acid (D398N). Many genome-wide association studies have demonstrated the relationship between this polymorphism and the incidence of lung cancer. In this study, we show that nAChRs, expressing the mutated α5 subunit (D398N), are in involved in the alteration of the proliferation and the differentiation state of respiratory epithelial cells, and also modulate tumor cell invasion, in synergy with the α7 nAChRs. Récepteurs nicotiniques Progression tumorale Polymorphisme rs16969968 Nicotinic receptors Non-small cell lung cancers Tumor progression Polymorphism rs16969968
44	Neuroinflammation et neuroprotection dans un modèle de maladie de Parkinson précoce (lésion à la 6-hydroxydopamine chez le rat) / Neuroinflammation and neuroprotection in Parkinson's disease animal model mimicking the early stages of the disease (6-hydroxydopamine lesion in rat) Vetel, Steven 11 December 2018 (has links) Les stratégies thérapeutiques mises en place dans la maladie de Parkinson sont symptomatiques et ne permettent pas de ralentir la progression de la maladie, nécessitant le développement de nouvelles approches neuroprotectrices. La neuroinflammation joue un rôle majeur dans le processus neurodégénératif où elle se manifeste précocement par l’activation de cellules gliales (microglie et astrocytes). En s’appuyant sur l’utilisation de modèles animaux mimant les stades précoces de la maladie, l’élaboration de stratégies thérapeutiques à visée anti-inflammatoire constitue donc une approche thérapeutique prometteuse. Ce travail de thèse a consisté à mettre au point et à caractériser un modèle de lésion partielle à la 6-hydroxydopamine chez le rat afin d’évaluer les effets d’une stratégie thérapeutique originale basée sur l’utilisation en combinaison d’un agoniste des récepteurs nicotiniques α7 et d’un agoniste des récepteurs σ1. En utilisant différentes approches expérimentales, nous avons tout d’abord évalué le processus neurodégénératif et la neuroinflammation dans le modèle que nous avons mis en place. Nos résultats ont montré une dégénérescence partielle et reproductible des neurones dopaminergiques nigro-striataux associée à une importante neuroinflammation. Nos analyses métabolomiques ont également révélé plusieurs altérations spécifiques, apportant ainsi de nouvelles informations sur les mécanismes intervenant dans le processus neurodégénératif. En s’appuyant sur l’utilisation de la tomographie par émission de positrons, nous avons ensuite évalué longitudinalement le profil d’expression des récepteurs nicotiniques α7 dans les structures clés de la voie nigrostriée. Nos résultats ont montré des modifications transitoires de la densité de ces récepteurs pouvant être liées à des réponses microgliales biphasiques en association avec la cinétique de la dégénérescence neuronale. Ainsi, ces résultats renforcent l’idée de cibler spécifiquement les récepteurs nicotiniques α7 dans l’atténuation des processus neuroinflammatoires. Nous avons enfin évalué les effets de notre stratégie thérapeutique dans le modèle et nos résultats ont permis de montrer que ce type de combinaison préserve partiellement l’intégrité des neurones dopaminergiques nigro-striataux et réduit les réactions gliales chez les animaux lésés. Bien qu’il sera nécessaire de confirmer et de compléter ces résultats avec d’autres analyses, ce type de combinaison pourrait constituer une nouvelle entité biochimique prometteuse dans le traitement de la maladie de Parkinson. / Currently, therapeutic strategies in Parkinson’s disease are symptomatic and the progression of the disease is uncontrolled, requiring the development of new neuroprotective approaches. Neuroinflammation plays a major role in the neurodegenerative process where it occurs early through the activation of glial cells (microglia and astrocytes). Based on the use of animal models mimicking the early stages of the disease, the development of anti-inflammatory strategies is therefore a promising therapeutic approach. This thesis work consisted in the development and the characterisation of a partial 6-hydroxydopamine lesion model in rats in order to evaluate the effects of an original therapeutic strategy based on the combined use of a α7 nicotinic receptors agonist and a σ1 receptors agonist. Using different experimental approaches, we first evaluated the neurodegenerative and neuroinflammation processes in the model that we developped. Our results showed a partial and reproductible degeneration of nigro-striatal dopaminergic neurons associated with a marked neuroinflammation. Our metabolic analyses have also revealed several specific alterations, providing new insight on the mechanisms involved in the neurodegenerative process. Using positron emission tomography imaging, we then evaluated longitudinally the expression profile of α7 nicotinic receptors in the key structures of the nigro-striatal pathway. Our results showed transient changes in the density of these receptors that may be linked to biphasic microglial responses in association with the kinetics of neuronal degeneration. Thus, these results reinforce the hypothesis of specifically targeting α7 nicotinic receptors in order to reduce the neuroinflammatory processes. Finally, we evaluated the effects of our therapeutic strategy in the model and our results showed that this type of combination partially preserves the integrity of nigro-striatal dopaminergic neurons and reduces glial reactions in lesioned animals. Although it is necessary to confirm and extend these results, this type of combination could represent a promising new pharmacological approach in the treatment of Parkinson’s disease. Maladie de Parkinson 6-hydroxydopamine Neuroinflammation Récepteurs nicotiniques α7 Récepteurs σ1 Parkinson’s disease 6-hydroxydopamine Neuroinflammation Α7 nicotinic receptors Σ1 receptor
45	APPLICATIONS OF CELL-DERIVED VESICLES: FROM SINGLE MOLECULE STUDIES TO DRUG DELIVERY Moonschi, Faruk H. 01 January 2018 (has links) Single molecule studies can provide information of biological molecules which otherwise is lost in ensemble studies. A wide variety of fluorescence-based techniques are utilized for single molecule studies. While these tools have been widely applied for imaging soluble proteins, single molecule studies of transmembrane proteins are much more complicated. A primary reason for this is that, unlike membrane proteins, soluble proteins can be easily isolated from the cellular environment. One approach to isolate membrane proteins into single molecule level involves a very low label expression of the protein in cells. However, cells generate background fluorescence leading to a very low signal to noise ratio. An alternative approach involves isolating membrane proteins in artificial membrane derived vesicles. This approach is limited to proteins which can be solubilized or stabilized in detergent solution. This intermediate step endangers the structural integrity of proteins with multiple subunits. Hence, we isolated transmembrane proteins into cell-derived vesicles which maintain the proteins in their physiological membrane without compromising their functional integrity. We studied the stoichiometric assembly of α3β4 nicotinic receptors which are pentameric receptor with possible stoichiometry of (α3)2(β4)3 and (α3)3(β4)2. We found that (α3)2(β4)3 is the predominant stoichiometry, and we have verified our finding with both single and double color experiments. We have also demonstrated that cell-derived vesicles can be utilized to study ligand receptor interactions. Cell-derived vesicles generated from cellular preparations provide a method to study the overall structural and functional properties of membrane proteins. However, organelle specific information is not available in this approach. Alternatively, separating vesicles based on their original organelle could provide information on the assembly and trafficking of membrane proteins. For example, it has been hypothesized that nicotine acts as a pharmacological chaperone of α4β2 nicotinic receptors and nicotine alters the assembly of the nicotinic receptors towards the high sensitivity isoform in the ER. To validate this hypothesis, we isolated α4β2 nicotinic receptors located on vesicles derived from the ER and plasma membrane origins and utilized single molecule studies to determine the stoichiometric assembly of the receptor. The data suggested that the ER has a higher percentage of the low sensitivity isoform ((α4)3(β2)2) than the plasma membrane indicating that the high sensitivity isoform trafficked more efficiently to the cell surface. When nicotine was added, the distribution of nicotinic receptors changes in those compartments. In both the ER and plasma membrane, the percentage of high sensitivity isoform was greater than the sample without the presence of nicotine. The results suggested that nicotine altered the assembly of nicotinic receptors to form the high sensitivity isoform in the ER and the altered assembly trafficked to the plasma membrane efficiently increasing the ratio of this isoform in the plasma membrane. The cell derived vesicles we utilized to isolate single receptors are structurally similar to liposomes, an FDA approved drug delivery system, which is spherical vesicles composed of at least one lipid bilayer. Hence, cell-derived vesicles possess potential to be utilized as drug delivery vehicles. I explored the applicability of cell-derived vesicles as general delivery vehicles to cultured cells. Additionally, we implanted xenografts into immune compromised nude mice and prepared cell derived vesicles labeled with dye molecules. The vesicles were injected in a mouse containing a xenograft to monitor whether these vesicles can reach to the xenograft. Our data suggested that cell-derived vesicles can successfully reach the xenograft and thus have potential to be utilized as a drug delivery vehicle. single molecule nicotinic receptors stoichiometry drug delivery vesicles Analytical Chemistry Cancer Biology Cell Biology
46	Effet de faibles doses d'un insecticide néonicotinoïde sur le système olfactif d'un lépidoptère de ravageur des cultures, Agrotis ipsilon / Neonicotinoid insecticide low doses effects on the olfactory system of the lepidopteran crop pest, Agrotis ipsilon Rabhi, Kaouther 06 November 2015 (has links) Durant leur cycle de vie, les insectes doivent faire face à différents perturbateurs pour réussir à survivre et à se reproduire. L’utilisation de plus en plus répandue des insecticides néonicotinoïdes, en raison de leur grande efficacité, a conduit à l’accumulation de résidus dans l’environnement. Ceux-ci ont certainement un effet additif toxique sur les insectes cibles. Cependant il a été montré que ces résidus peuvent aussi avoir un effet positif non désiré sur certains traits de vie des insectes ravageurs.Dans ma thèse, j’ai étudié les effets d’un insecticide néonicotinoïde sur le système olfactif d’un insecte ravageur, la noctuelle Agrotis ipsilon. Nos résultats montrent que l’exposition aigüe des mâles à des faibles doses de clothianidine modifie leurs réponses comportementales à la phéromone sexuelle: une baisse est observée à la dose 0,25 ng/insecte (<DL0) alors que la doses de 10 ng (DL20) induit une augmentation de la réponse chez les adultes naïfs ou pré-exposés à la phéromone. Cet effet biphasique à faible et très faible dose s’apparente à un effet hormétique et les modifications observées sont corrélées avec des changements de sensibilité du système olfactif central et non périphérique. Nous émettons l’hypothèse que la clothianidine agirait sur l’expression des sous-unités des récepteurs nicotiniques pour lesquels elle joue le rôle d’agoniste, changeant leur affinité pour l’acétylcholine et perturbant ou améliorant la transmission synaptique des signaux sensoriels selon la dose. Nos résultats montrent que la prise en compte d’effets de doses sublétales d’insecticides est essentielle non seulement pour les insectes non cibles, mais aussi des insectes cibles. / Insects face a multitude of environmental stresses, which they have to bypass in order to survive and reproduce. The extensive use of neonicotinoid insecticides, because of their high efficiency, leads to the accumulation of residues in the environment, which can have an additive toxic effect on target insects. However, such residues can also have unwanted positive effects on certain life traits of pest insects. In my thesis I studied the effects of a neonicotinoid insecticide on the olfactory system of the pest insect Agrotis ipsilon. Our results show that acute oral treatments of males with low doses of clothianidin modify their behavioural responses to the sex pheromone: a treatment with 0.25 ng/moth (<LD0) induces a decrease of pheromone responses whereas intoxication with 10 ng/moth (LD20) leads to an increase in the capacity of naive and pre-exposed males to locate a pheromone source as compared to controls. We propose that this biphasic effect, with low dose stimulation and very low dose inhibition is an hormeticlike effect, that is correlated with sensitivity changes within the central, but not the peripheral olfactory system. We hypothesize that the observed modifications might be due to a differential effect of clothianidin on the expression of different subunits of nicotinic acetylcholine receptors, which might change the affinity of the receptors for acetylcholine, and thus disturb or improve synaptic transmission of sensory signals as a function of the insecticide dose. Our results show that effects of sublethal doses of insecticides need to be taken into account not only for non-target, but also for target insects when evaluating pest management strategies. Insecticides néonicotinoïdes Comportement sexuel Lobe antennaire Neonicotinoid insecticides Hormesis Pheromone Nicotinic receptors Sexual behaviour Antennal lobe 570
47	Cholinergic terminals and receptors in the lumbosacral spinal cord of adult and neonatal rat Ralcewicz, Karen Lynn 27 January 2006 (has links) Cholinergic input to, and cholinergic mechanisms within the lower lumbar (L6) and upper sacral (S1) spinal cord of rat may influence neuronal excitability and afferent transmission (Thor et al, 2000) and may provide the environment necessary for appropriate central nervous system control of bladder and bowel function. It is unclear, however, if cholinergic terminals and receptors are present in the L6 & S1 spinal segments of rat and when this may develop. Cholinergic mechanisms have been shown to alter sensory afferent transmission, enhance motoneuron excitability, induce plateau potentials via non-linear membrane properties in motoneurons and reveal oscillations in locomotor-related interneurons. The enhanced activity of sphincter motoneurons was attributed to non-linear properties during the continence phase of distention-evoked voiding in the decerebrate cat (Paroschy & Shefchyk, 2000). Candidate neurotransmitters inducing non-linear properties in cat sphincter motoneurons are 5-HT (Paroschy & Shefchyk, 2000) and acetylcholine via motoneuron axon collaterals (Sasaki, 1994) and other spinal sources. We have established using the antibody to the vesicular acetylcholine transporter (VAChT) that cholinergic terminals are present on ventrolateral Onuf (VLO), dorsomedial Onuf (DMO) motoneurons and parasympathetic preganglionic motoneurons (PGN) in the L6 and S1 rat spinal cord segments. Muscarinic receptor (M2), nicotinic-α4 and α7 receptor subunit immunoreactivity was also present on Onuf motoneurons and in regions dorsal to the PGN. One source of the cholinergic puncta on Onuf motoneurons may be from motoneuron axon collaterals which we observed on a postnatal day 15 VLO motoneuron. Cholinergic terminals were observed on vasoactive intestinal polypeptide-immunoreactive (VIP) afferents, interneurons in the intermediolateral (IML) region and perhaps on other afferents in the lateral and medial collateral pathway of L6 and S1 spinal segments. In the ventral horn, the cholinergic puncta and receptors appear to have a mature distribution around two weeks postnatal and the cholinergic terminals appeared to have a mature distribution in the IML region by three weeks postnatal. Using whole cell patch clamp recording techniques and thick slices of the L6 and S1 rat spinal cord, we observed excitatory responses of ventral horn neurons and motoneurons to carbachol (10-50 μM), a non-specific cholinergic agonist. Ventral horn neurons (postnatal day 8- 16) exhibited prolonged firing and prolonged depolarizations (plateau potentials) beyond the duration of the applied excitatory input from cholinergic (n=6/33) and other (n= 4/37) neurotransmitter systems. In a selection of the neurons with plateau potentials, the L-type calcium current played a role in the plateau production (n=5/5) and low frequency oscillations (n=2/2) as revealed by nifedipine. Postnatally, the voiding reflex changes from a perineal-evoked reflex, to the adult bladder-bladder reflex. Cholinergic input may be responsible in part for the bursting activity of the external urethral sphincter and the activation of the bladder, which is required for complete voiding reflexes in the adult rat. Plateau potentials and enhanced excitability due to cholinergic mechanisms could render inessential a constant excitatory drive that is required in the perineal-evoked voiding reflex in the neonatal rat and may underlie changes in the voiding reflexes that occur during postnatal development. / February 2006 cholinergic plateau potentials motoneurons voiding and continence muscarinic receptors axon collaterals nicotinic receptors VAChT terminals spinal cord electrophysiology neonatal rat
48	Cholinergic terminals and receptors in the lumbosacral spinal cord of adult and neonatal rat Ralcewicz, Karen Lynn 27 January 2006 (has links) Cholinergic input to, and cholinergic mechanisms within the lower lumbar (L6) and upper sacral (S1) spinal cord of rat may influence neuronal excitability and afferent transmission (Thor et al, 2000) and may provide the environment necessary for appropriate central nervous system control of bladder and bowel function. It is unclear, however, if cholinergic terminals and receptors are present in the L6 & S1 spinal segments of rat and when this may develop. Cholinergic mechanisms have been shown to alter sensory afferent transmission, enhance motoneuron excitability, induce plateau potentials via non-linear membrane properties in motoneurons and reveal oscillations in locomotor-related interneurons. The enhanced activity of sphincter motoneurons was attributed to non-linear properties during the continence phase of distention-evoked voiding in the decerebrate cat (Paroschy & Shefchyk, 2000). Candidate neurotransmitters inducing non-linear properties in cat sphincter motoneurons are 5-HT (Paroschy & Shefchyk, 2000) and acetylcholine via motoneuron axon collaterals (Sasaki, 1994) and other spinal sources. We have established using the antibody to the vesicular acetylcholine transporter (VAChT) that cholinergic terminals are present on ventrolateral Onuf (VLO), dorsomedial Onuf (DMO) motoneurons and parasympathetic preganglionic motoneurons (PGN) in the L6 and S1 rat spinal cord segments. Muscarinic receptor (M2), nicotinic-α4 and α7 receptor subunit immunoreactivity was also present on Onuf motoneurons and in regions dorsal to the PGN. One source of the cholinergic puncta on Onuf motoneurons may be from motoneuron axon collaterals which we observed on a postnatal day 15 VLO motoneuron. Cholinergic terminals were observed on vasoactive intestinal polypeptide-immunoreactive (VIP) afferents, interneurons in the intermediolateral (IML) region and perhaps on other afferents in the lateral and medial collateral pathway of L6 and S1 spinal segments. In the ventral horn, the cholinergic puncta and receptors appear to have a mature distribution around two weeks postnatal and the cholinergic terminals appeared to have a mature distribution in the IML region by three weeks postnatal. Using whole cell patch clamp recording techniques and thick slices of the L6 and S1 rat spinal cord, we observed excitatory responses of ventral horn neurons and motoneurons to carbachol (10-50 μM), a non-specific cholinergic agonist. Ventral horn neurons (postnatal day 8- 16) exhibited prolonged firing and prolonged depolarizations (plateau potentials) beyond the duration of the applied excitatory input from cholinergic (n=6/33) and other (n= 4/37) neurotransmitter systems. In a selection of the neurons with plateau potentials, the L-type calcium current played a role in the plateau production (n=5/5) and low frequency oscillations (n=2/2) as revealed by nifedipine. Postnatally, the voiding reflex changes from a perineal-evoked reflex, to the adult bladder-bladder reflex. Cholinergic input may be responsible in part for the bursting activity of the external urethral sphincter and the activation of the bladder, which is required for complete voiding reflexes in the adult rat. Plateau potentials and enhanced excitability due to cholinergic mechanisms could render inessential a constant excitatory drive that is required in the perineal-evoked voiding reflex in the neonatal rat and may underlie changes in the voiding reflexes that occur during postnatal development. cholinergic plateau potentials motoneurons voiding and continence muscarinic receptors axon collaterals nicotinic receptors VAChT terminals spinal cord electrophysiology neonatal rat
49	Cholinergic terminals and receptors in the lumbosacral spinal cord of adult and neonatal rat Ralcewicz, Karen Lynn 27 January 2006 (has links) Cholinergic input to, and cholinergic mechanisms within the lower lumbar (L6) and upper sacral (S1) spinal cord of rat may influence neuronal excitability and afferent transmission (Thor et al, 2000) and may provide the environment necessary for appropriate central nervous system control of bladder and bowel function. It is unclear, however, if cholinergic terminals and receptors are present in the L6 & S1 spinal segments of rat and when this may develop. Cholinergic mechanisms have been shown to alter sensory afferent transmission, enhance motoneuron excitability, induce plateau potentials via non-linear membrane properties in motoneurons and reveal oscillations in locomotor-related interneurons. The enhanced activity of sphincter motoneurons was attributed to non-linear properties during the continence phase of distention-evoked voiding in the decerebrate cat (Paroschy & Shefchyk, 2000). Candidate neurotransmitters inducing non-linear properties in cat sphincter motoneurons are 5-HT (Paroschy & Shefchyk, 2000) and acetylcholine via motoneuron axon collaterals (Sasaki, 1994) and other spinal sources. We have established using the antibody to the vesicular acetylcholine transporter (VAChT) that cholinergic terminals are present on ventrolateral Onuf (VLO), dorsomedial Onuf (DMO) motoneurons and parasympathetic preganglionic motoneurons (PGN) in the L6 and S1 rat spinal cord segments. Muscarinic receptor (M2), nicotinic-α4 and α7 receptor subunit immunoreactivity was also present on Onuf motoneurons and in regions dorsal to the PGN. One source of the cholinergic puncta on Onuf motoneurons may be from motoneuron axon collaterals which we observed on a postnatal day 15 VLO motoneuron. Cholinergic terminals were observed on vasoactive intestinal polypeptide-immunoreactive (VIP) afferents, interneurons in the intermediolateral (IML) region and perhaps on other afferents in the lateral and medial collateral pathway of L6 and S1 spinal segments. In the ventral horn, the cholinergic puncta and receptors appear to have a mature distribution around two weeks postnatal and the cholinergic terminals appeared to have a mature distribution in the IML region by three weeks postnatal. Using whole cell patch clamp recording techniques and thick slices of the L6 and S1 rat spinal cord, we observed excitatory responses of ventral horn neurons and motoneurons to carbachol (10-50 μM), a non-specific cholinergic agonist. Ventral horn neurons (postnatal day 8- 16) exhibited prolonged firing and prolonged depolarizations (plateau potentials) beyond the duration of the applied excitatory input from cholinergic (n=6/33) and other (n= 4/37) neurotransmitter systems. In a selection of the neurons with plateau potentials, the L-type calcium current played a role in the plateau production (n=5/5) and low frequency oscillations (n=2/2) as revealed by nifedipine. Postnatally, the voiding reflex changes from a perineal-evoked reflex, to the adult bladder-bladder reflex. Cholinergic input may be responsible in part for the bursting activity of the external urethral sphincter and the activation of the bladder, which is required for complete voiding reflexes in the adult rat. Plateau potentials and enhanced excitability due to cholinergic mechanisms could render inessential a constant excitatory drive that is required in the perineal-evoked voiding reflex in the neonatal rat and may underlie changes in the voiding reflexes that occur during postnatal development. cholinergic plateau potentials motoneurons voiding and continence muscarinic receptors axon collaterals nicotinic receptors VAChT terminals spinal cord electrophysiology neonatal rat
50	Estudo dos efeitos do veneno da serpente Bothrops alcatraz em preparações neuromusculares in vitro / Neuromuscular activity of Bothrops alcatraz snake venom in chick biventer cervcis preparations Moraes, Delkia Seabra de, 1978- 18 August 2018 (has links) Orientador: Léa Rodrigues Simioni / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-18T22:38:09Z (GMT). No. of bitstreams: 1 Moraes_DelkiaSeabrade_M.pdf: 1400052 bytes, checksum: a886434537e4c9307797b649e17cd63c (MD5) Previous issue date: 2011 / Resumo: Bothrops alcatraz é uma serpente do Arquipélago de Alcatrazes no litoral norte do estado de São Paulo, Brasil, recentemente descrita. Neste trabalho foram analisados os efeitos neuromusculares do veneno de B. alcatraz em preparações isoladas de biventer cervicis de pintainho (BC) e nervo frênico-diafragma de camundongo (NFD), sob estimulação elétrica indireta (0.1 Hz; 0.2 ms). Em preparações BC, o veneno causou bloqueio neuromuscular completo e irreversível nas concentrações de 10, 50 e 100 g/ml em 90 ± 2, 80 ± 1 e 50 ± 1 min, respectivamente (n = 6-9). Nestas mesmas concentrações, as respostas contraturantes evocadas pela adição exógena de ACh (110 mM) foram 27±10, 8±4 e 0%, respectivamente, e do KCl (20 mM) em 45±11, 24±6 e 39±7%, respectivamente. O veneno de B. alcatraz mostrou-se pouco ativo na preparação NFD de camundongo, pois mesmo ensaiado na concentração de 100 g/ml (n=4) causou apenas 30±4% de bloqueio neuromuscular após 120 min de incubação. Em preparações BC previamente curarizadas (d-Tc, 10 g/ml), seguida pela adição do veneno (10 g/ml), por 120 min de incubação, observou-se o retorno da resposta contrátil em 81±7% (n= 4), após sucessivas lavagens. O veneno de B. alcatraz exibiu baixa atividade fosfolipásica quando comparado ao veneno de Crotalus durissus terrificus (A425nm 0,06 ± 0,02 vs 0,2 ± 0,03; n = 4). A análise morfológica in vitro da preparação BC, mostrou, em ambas as concentrações de veneno analisadas (10 e 100 g/ml), dano musculares, sendo 18,1±1,5% e 24,7±6,6% (n= 5), respectivamente, quando comparadas ao controle (7,9±2,4%). Paralelamente também foi observado um aumento significativo na medida da liberação de CK, de 1441 ± 173 (10 g/ml) e 1797 ± 343 (100 g/ml) vs 282 ± 27 U/L da preparação controle, aos 120 min. O estudo sobre a neutralização do veneno pelo antiveneno botrópico comercial, mostrou que foram necessárias altas concentrações do antiveneno (15 vezes mais que o recomendado pelo fabricante) para neutralizar a ação do veneno de B. alcatraz (10 g/ml). Conclui-se que o veneno de B. alcatraz promove bloqueio neuromuscular total e irreversível em preparações de ave, por atuar inicialmente nos receptores colinérgicos e por causar efeito miotóxico tardio; todos estes efeitos foram neutralizados pelo antiveneno botrópico comercial dependendo da concentração de veneno utilizada / Abstract: Bothrops alcatraz is a recently described pitviper from the Alcatrazes Archipelago off the northern coast of São Paulo state, Brazil. The neuromuscular effects of B. alcatraz venom were examined in chick isolated biventer cervicis preparations. In indirectly stimulated preparations, venom (10, 50 and 100 g/ml, n=6-9) caused progressive, irreversible neuromuscular blockade that was complete in 90±2, 80±1 and 50±1 min (mean±SEM), respectively. Venom (10 and 100 g/ml) also inhibited contractures to exogenous ACh (110 ?M) (by 73% and 100%, respectively), but only partially inhibited contractures to KCl (20 mM) (by 55% and 61%, respectively). These same venom concentrations increased the proportion of damaged fibers from 7.9±2.4% (saline control) to 18.1±1.5% and 24.7±6.6%, respectively (p<0.05) and increase in the activity of CK release (1441 ± 173 and 1797 ± 343 vs 282 ± 27 U/L respectively). Bothrops alcatraz venom had low PLA2 activity compared to South American rattlesnake (Crotalus durissus terrificus) venom (A425nm 0.06±0.02 vs 0.2±0.03; n=4). Pretreating the preparations with d-tubucurarine (10 g/ml) prevented the neuromuscular blockade. Commercial bothropic antiserum effectively neutralized the neuromuscular action of B. alcatraz venom. In conclusion, B. alcatraz venom causes neuromuscular blockade by interfering with cholinergic receptors but is only mildly myotoxic. Commercial antivenom neutralizes the neuromuscular blockade / Mestrado / Mestre em Farmacologia Bloqueio neuromuscular Receptores nicotínicos Junção neuromuscular Venenos de serpentes Neuromuscular blockade Nicotinic receptors Neuromuscular junction Snake venom Neutralization

Search results