Control por fosfodiesterasas de la función cardíaca activada por los receptores acoplados a la proteína Gs

Galindo Tovar, Alejandro

15 October 2009

Los receptores β-adrenérgicos (βAR) y de serotonina (5-HT4) median sus efectos en tejidos cardiacos a través de la ruta receptor-Gs-AC-AMPc. Las fosfodiesterasas (PDE) son una amplia familia de enzimas cuya función es la degradación del AMPc. Se desconocía que isoenzimas de PDEs son responsables de la hidrólisis de AMPc en las diferentes regiones cardiacas. El objetivo de esta tesis doctoral es investigar que isoenzimas de PDEs tienen actividad en el miocardio humano, porcino y de roedores. Se han realizado estudios cronotrópicos, inotrópicos, lusitrópicos, bioquímicos y electrofisiológicos. Los principales resultados son: Las PDEs se comportan de manera distinta en las diferentes regiones cardiacas y compartimentos celulares; y La frecuencia basal de nódulo sinusal está controlada por PDEs pero en ninguna especie estudiada las PDEs controlan la taquicardia causada por los βARs y los receptores 5-HT4. La extrapolación de la función de las PDEs al humano debe h acerse con cautela. / Myocardial β-adrenoceptors (βAR) and serotonin receptors (5-HT4) mediate their signals through the receptor-Gs-AC-cAMP pathway. Phosphodiesterases (PDEs) are a large enzyme family that degrade cAMP. It was unknown which PDE isoenzymes are responsible for the hydrolysis of the cAMP in different cardiac regions. The aim of this doctoral thesis is to investigate which isoenzymes have a role in human, porcine and rodent myocardium. We performed chronotropic, inotropic, lusitropic, biochemical and electrophysiological studies. The key results are: PDEs have different roles in different cardiac regions and cellular compartments; and the basal beating rate of the sinoatrial node is controlled by PDE3 and/or PDE4, but these PDEs do not limit the tachycardia mediated through the stimulation of β1AR, β2AR and 5-HT4. Given the diverse roles of PDE3 and PDE4 and their dependence on species, extrapolation to humans should be done cautiously because these animal models usually do not reflect the human myocardium.

noradrenaline

adrenalina

serotonin

5-HT4

beta-adrenoceptor

PDEs

Gs protein

sinoatrial-node

hearth

ratón

rata

lechón

humano

AMPc

corriente de calcio

noradrenalina

adrenalina

5-HT4

serotonina

receptores beta-adrenergicos

fosfodiesteresas

proteína Gs

marcapasos-sinusal

Corazón

calcium-current

cAMP

human

piglet

rat

mouse

Ciencias de la Salud

612

615

Participación del sistema cannabinoide endógeno en el control de las respuestas relacionadas con trastornos afectivos

Aso Pérez, Ester

19 December 2008

Los trastornos emocionales de tipo depresivo y la ansiedad son las formas más prevalentes de enfermedad mental y suponen un serio problema de salud en la sociedad occidental. Recientemente, se ha postulado que el sistema endocannabinoide pueda ser un importante sustrato en el desarrollo de estos trastornos dada su participación en el control de las emociones. Nuestros resultados demuestran que los animales carentes del receptor cannabinoide CB1 manifiestan un fenotipo de tipo depresivo asociado a una deficiencia del factor neurotrófico BDNF en el hipocampo, que podría estar causada por los elevados niveles de glucocorticoides liberados en respuesta al estrés en estos mutantes. Por otra parte, el sistema endocannabinoide participa en los efectos inducidos por la nicotina sobre la ansiedad y en la expresión del síndrome de abstinencia de esta droga. Así, la actividad del receptor CB1 alivia los efectos ansiogénicos de dosis elevadas de nicotina y facilita los efectos ansiolíticos de dosis bajas. Además, la administración del agonista cannabinoide 9-THC atenúa las manifestaciones somáticas y emocionales negativas de la abstinencia de nicotina. En general, considerando los resultados presentados en esta Tesis Doctoral, podemos afirmar que el receptor CB1 participa de forma determinante en la recuperación del balance homeostático del organismo tras la exposición a un estímulo emocional negativo, bien sea una situación estresante aguda o sostenida, o bien una droga que incrementa los niveles de ansiedad o cuya retirada produce abstinencia. / Mood disorders such as depression and anxiety are the most common mental diseases and they suppose a serious health problem in our society. Recently, endocannabinoid system has been postulated to be an important substrate in the development of such disorders taking into account the role exerted by this neuromodulatory system in mood and emotions. Our results demonstrate that CB1 knockout mice exhibit a depressive-like phenotype associated to a deficiency in the neurotrophic factor BDNF in the hippocampus, which could be a consequence of the increased glucocorticoid release in response to stress exposure. On the other hand, the endocannabinoid system participates in nicotine induced effects on anxiety and in the expression of nicotine withdrawal. Thus, CB1 receptor activity attenuates anxiogenic-like effects and facilitates anxiolytic-like responses induced by high or low doses of nicotine, respectively. Moreover, 9-THC administration ameliorates somatic and negative motivational signs of nicotine withdrawal. In summary, the results presented in this Doctoral Thesis indicate that CB1 receptor participates in the recovery of the homeostatic balance after the exposure to negative emotional stimuli, either acute or sustained stress or a drug which induced anxiety-like effects or withdrawal signs after the end of the exposure.

glucocorticoid

stress

behaviour

serotonin

nicotine

withdrawal

anxiety

depression

CB1 receptor

serotonergic system

cannabinoid system

brain

knockout

ratón

antidepresivo

5-HTT

5-HT2C

5-HT2A

5-HT1A

BDNF

hipocampo

glucocorticoide

estrés

comportamiento

serotonina

nicotina

abstinencia

ansiedad

depresión

receptor CB1

sistema serotonérgico

sistema cannabinoide

cerebro

hippocampus

BDNF

5-HT1A

5-HT2A

5-HT2C

5-HTT

antidepressant

mouse

knockout

57

Efectos conductuales y neuroquímicos del consumo de éxtasis y cocaína en ratones adolescentes.

Daza Losada, Manuel

16 June 2009

La 3,4-metilendioximetanfetamina (MDMA), una sustancia popularmente conocida como éxtasis, es una droga ilícita consumida habitualmente por adolescentes y adultos jóvenes. Además, el policonsumo es una práctica habitual entre los usuarios de la MDMA, siendo la cocaína una de las drogas más frecuentemente asociadas a esta sustancia. El objetivo del presente trabajo fue evaluar los efectos a corto y largo plazo que se producen tras la administración de la MDMA (5, 10, o 20 mg/kg) sola o en combinación con cocaína (25 mg/kg) en ratones adolescentes. En el estudio sobre el efecto agudo, observamos que ambas drogas administradas individual o simultáneamente incrementan la actividad motora. La dosis alta de MDMA disminuye de los contactos sociales en la prueba de la interacción social afectando igualmente el test de retención de la evitación pasiva. Sin embargo, sólo la co-administración de MDMA en combinación con cocaína produjo un efecto ansiolítico caracterizado por un aumento del tiempo de permanencia en los brazos abiertos del laberinto elevado en cruz. Igualmente, el análisis neuroquímico reveló que los ratones que recibieron MDMA en combinación con cocaína mostraron un incremento en el turnover de DA en el estriado, pero una disminución del de serotonina en la corteza. Los estudios de los efectos a largo plazo, realizados tres semanas después de haber finalizado un tratamiento con MDMA sola o en combinación con cocaína (2 administraciones por día durante 3 días consecutivos), mostraron que los ratones expuestos a la MDMA, sola o más cocaína, incrementaron el tiempo dedicado a las conductas sociales, aunque los que también habían recibido cocaína presentaban además conductas de amenaza. Observamos un efecto neurotóxico en los ratones tratados únicamente con 20 mg/kg de MDMA que mostraron un decremento de la concentración de DA en el estriado, no observándose este deterioro en los tratados además con cocaína. Por otra parte, mediante el condicionamiento de la preferencia de lugar (CPL) confirmamos que la MDMA posee efectos reforzantes y que esta sustancia es capaz de reinstaurar la preferencia de lugar una vez que esta se ha extinguido. La expresión y la reinstauración del CPL inducido por la MDMA dependen de la pauta de condicionamiento que condiciona los efectos neurotóxicos producidos por esta droga. Para finalizar, el tratamiento con MDMA sola o en combinación con cocaína durante la adolescencia favorece los efectos reforzantes de la MDMA durante el periodo adulto. Además, la exposición previa a la cocaína aumenta el tiempo necesario para extinguir la preferencia de lugar inducida por la MDMA. / 3,4-methylene-dioxy-methamphetamine (MDMA), commonly known as ecstasy, is an illicit recreational drug consumed by teenagers and young adults. The poly-drug pattern is the most common among those observed in MDMA users, with cocaine being a frequently associated drug. The aim of the present study was to evaluate the short- and long-term effects of exposure to MDMA (5, 10, or 20 mg/kg), alone or plus cocaine (25 mg/kg), on adolescent mice. In the acute phase, both drugs produced hyperactivity whether administered alone or concurrently. The highest MDMA dose decreased social contacts and affected the passive avoidance task. However, an anxiolytic effect, studied by means of the elevated plus maze and expressed as an increase in the time spent on the open arms, was observed only in animals treated with both cocaine and MDMA. Neurochemical analyses revealed an increase in striatal DA turnover and a decrease in serotonin cortical turnover in mice treated with MDMA plus cocaine. The studies conducted to establish long-term effects, which were performed 3 weeks after a 3-day treatment of two daily injections of MDMA alone or plus cocaine (6 administrations) during the adolescent period, showed that mice treated with MDMA alone and plus cocaine spent more time engaged in social contact, although those also treated with cocaine exhibited threat behaviors. Furthermore, we observed a neurotoxic effect in mice exposed to 20 mg/kg of MDMA, evident in a decrease in DA levels in the striatum, but this effect was not detected in mice additionally treated with cocaine. On the other hand, using the conditioned place preference (CPP), we have confirmed the rewarding effects of MDMA. In addition, we also show that MDMA can produce reinstatement of place preference after the extinction of this response. The expression and reinstatement of MDMA-induced CPP depend on the conditioning protocol, which conditions the neurotoxic effects produced by this drug. Finally, exposure during adolescence to MDMA alone or plus cocaine facilitates the rewarding effects of MDMA in adulthood. Moreover, previous experience of cocaine increases the time required to extinguish the MDMA-induced CPP.

interacción social

laberinto elevado en cruz

actividad motora

CPL

reinstauración

dopamina

adolescencia

serotonina

ratones

cocaína

MDMA

evitación pasiva

DOPAC

HVA

5-HIAA. / MDMA

cocaine

mice

adolescence

serotonine

dopamine

reinstatement

CPP

motor activity

elevated plus maze

social interaction

passive avoidance task

DOPAC

HVA

5-HIAA.

Facultat de Psicologia

159.9

Dual-tracer molecular neuroimaging : methodological improvements and biomedical applications

Figueiras, Francisca Patuleia, 1984-

26 June 2012

Positron emission tomography (PET) is a functional imaging method that allows studying physiological, biochemical or pharmacological processes in vivo. PET is being used in both research and clinical practice. In the brain, it has been used to investigate metabolism, receptor binding, and alterations in regional blood flow. This thesis involves both preclinical and clinical dual-tracer PET imaging studies of different neurological disorders. In this way, different radiotracers were used along the projects. The first project focused on the implementation and in vivo validation of the simultaneous dual-tracer PET imaging technique on the rat brain and its applications in the study of cerebral ischemia. In particular, in this project two biological processes were studied at the same time: cerebral blood flow and cerebral glucose metabolism. The second project consisted in a clinical correlation study of the GABAergic and serotonin systems in a population with Essential Tremor (ET), the most commonly movement disorders. / La tomografia per emissió de positrons (PET) és un mètode d'imatge funcional que permet l'estudi in vivo de processos fisiològics, bioquímics i farmacològics. La PET s'utilitza tant en la pràctica clínica com en la recerca. Al cervell, s'ha utilitzat per investigar el metabolisme, la neurotransmissió, i les alteracions en el flux sanguini regional. Aquesta tesi implica estudis preclínics i clínics de la tècnica PET en diversos trastorns neurològics. D'aquesta manera, es van utilitzar diferents radiotraçadors al llarg dels projectes. El primer projecte es va centrar en la implementació i validació in vivo de la tècnica PET del doble-marcador simultani en el cervell de rata i les seves aplicacions en l'estudi de la isquèmia cerebral. En particular, en aquest projecte es van estudiar en el mateix moment dos processos biològics: el flux sanguini cerebral i el metabolisme cerebral de la glucosa. El segon projecte va consistir en un estudi clínic de correlació dels sistemes GABAèrgic i serotoninèrgic en una població amb tremolor essencial (TE), el trastorn del moviment més comú

Positron Emission Tomography (PET)

Dual-tracer

Neuroimaging

Cerebral ischemia

Essential tremor

Cerebral blood flow

Glucose metabolism

GABAergic system

Serotonin system

Tomografia per emissió de positrons

Doble-marcador

Neuroimatge

Isquèmia cerebral

Tremolor essencial

Flux sanguini cerebral

Metabolisme de la glucosa

Sistema GABAèrgic

Sistema de la serotonina

615

Contribuição à investigação das alterações hemostáticas induzidas pelo veneno da serpente Bothrops jararaca em coelhos: estudo das glicoproteínas da membrana, função, secreção e sobrevivência plaquetárias. / Contribution to the investigation of hemostatic disturbances induced by Bothrops jararaca snake venom in rabbits: study of platelet membrane glycoproteins, function, secretion and survival.

Santoro, Marcelo Larami

15 May 2002

Que o envenenamento pela serpente Bothrops jararaca causa distúrbios hemorrágicos sistêmicos, com alteração da coagulação e fibrinólise sangüíneas, é notório. Contudo, pouco se sabe sobre a ação in vivo desse veneno sobre as plaquetas. Em estudos recentes, demonstrou-se que esse veneno causa trombocitopenia, distúrbios da agregação e diminuição do número de corpos densos plaquetários, que, dessarte, sugeriam a ativação das plaquetas circulantes. Com o escopo de comprovar esta hipótese e melhor caracterizar as ações in vivo desse veneno sobre as plaquetas, serviu-se de um modelo experimental que empregava coelhos para o envenenamento pela B. jararaca. No grupo experimental, os animais foram injetados i.v. com o veneno da B. jararaca (60 µg/kg) e no grupo controle com salina. Previamente à administração de salina ou veneno, os coelhos tiveram suas plaquetas marcadas ex vivo com NHS-biotina. Para a avaliação das alterações plaquetárias, amostras de sangue foram coletadas seqüencialmente, em intervalos de tempo que variaram de 1 a 144 horas após a administração do veneno ou salina. Durante o envenenamento, houve trombocitopenia, hipofibrinogenemia, elevação dos níveis plasmáticos do fator de von Willebrand, diminuição da função plaquetária no sangue total induzida pela botrocetina e pelo colágeno e diminuição da secreção de ATP. Não obstante, os níveis plasmáticos de fator plaquetário 4, um marcador específico da ativação plaquetária in vivo, e os níveis intraplaquetários de serotonina se mantiveram constantes. Pela citometria de fluxo, observou-se um decréscimo significativo da expressão do epítopo da GPIIb-IIIa reconhecido pelo anticorpo monoclonal P2, porém isso não foi observado ao utilizar-se anticorpos policlonais. A expressão de fibrinogênio ou dos produtos de degradação do fibrinogênio/fibrina (PDF) na membrana plaquetária também não sofreu alteração significativa ao longo do tempo. Houve, todavia, elevações significativas da P-selectina plaquetária, um receptor cuja expressão é indicativa de ativação plaquetária, e do epítopo induzido por ligantes (LIBS1) da GPIIIa. A porcentagem de plaquetas reticuladas na circulação, assim como os tempos de sobrevivência plaquetária, não foram estatisticamente diferentes entre os dois grupos. As análises histológicas e imuno-histoquímicas dos órgãos dos coelhos mostraram que as plaquetas circulantes são retidas entre redes de fibrina nos capilares pulmonares. Os resultados obtidos sugerem que a trombina engendrada pelos componentes pró-coagulantes deste veneno desempenha uma função essencial na patogenia dos distúrbios da coagulação e plaquetários observados neste modelo de envenenamento. O aumento da expressão de P-selectina no grupo experimental comprovou a hipótese inicial de que as plaquetas dos coelhos envenenados são verdadeiramente ativadas na circulação. Os dados ora apresentados demonstram definitivamente que a diminuição do fibrinogênio ou o aumento dos PDF não são a causa fundamental da disfunção plaquetária observada no envenenamento botrópico e que outro(s) composto(s) parece(m) estar envolvido(s) com estes distúrbios plaquetários. / In spite of being well established that Bothrops jararaca snake venom causes blood coagulation and fibrinolysis disturbances in patients, scant information about blood platelet disorders during envenomation is available. In recent investigations, thrombocytopenia, platelet aggregation disturbances and decreased numbers of platelet dense bodies were observed following venom administration, suggesting that circulating platelets had been activated. In order to prove this hypothesis and to gain a better characterization of the in vivo role of this venom on platelets, an experimental model of B. jararaca envenomation was utilized. Rabbits were injected i.v. either with B. jararaca venom (60 µg/kg) (experimental group) or saline (control group). Previously to saline or venom administration, rabbit platelets were labeled ex vivo with NHS-biotin. To evaluate platelet disturbances, blood samples were collected consecutively, at time intervals that varied from 1 to 144 hours after venom or saline administration. During envenomation, there were thrombocytopenia, hypofibrinogenemia, elevation of von Willebrand factor plasma levels, reduced botrocetin- and collagen-induced platelet aggregation in whole blood, and decreased ATP secretion. However, plasma levels of platelet factor 4, a specific marker of in vivo platelet activation, and intraplatelet serotonin levels remained constant. By flow cytometry, a significant decrease on the expression of GPIIb-IIIa epitope recognized by P2 monoclonal antibody was observed; however, this was not observed when polyclonal antibodies were employed. Fibrinogen or fibrin(ogen) degradation product (FDP) expression on platelet surface showed no significant alteration. Nonetheless, significant elevations of platelet P-selectin, a receptor whose expression is indicative of platelet activation, and of ligand-induced binding sites (LIBS1) of GPIIIa were noted. The percentage of circulating reticulated platelets, as well as platelet survival times, were not statistically different between the two groups. Histopathological and immunohistochemical analyses of rabbit organs demonstrated that circulating platelets were sequestered among fibrin deposits in pulmonary capillaries. These results suggest that thrombin generated by procoagulating components of B. jararaca venom has an essential role in the pathogenesis of platelet and coagulation disorders in this experimental model. Increased expression of P-selectin in the experimental group proves the initial hypothesis that platelets of envenomed rabbits are indeed activated in the circulation. The data presented herein demonstrate definitively that decreased fibrinogen or increased FDP levels are not the primary cause of the platelet dysfunction observed in bothropic envenomation, but other substances seem to be responsible for it.

Bothrops jararaca

Adenosine Triphosphate

Aggregation

Agregação

Antibodies

Anticorpos

Antitrombin III

Antitrombina III

Botrocetin

Botrocetina

Chicken

Citometria de fluxo

Coagulação

Coagulation

Coelho

Colágeno

Collagen

Egg

ELISA

Envenenamento

Envenomation

Fator de von Willebrand

Fator plaquetário 4

Fibrinogen

Fibrinogênio

Flow Cytometry

Galinha

Glicoproteína IIb-IIIa

Glycoprotein IIb-IIIa

Ovo

P-selectin

P-selectina

Plaquetas

Plaquetas Reticuladas

Platelet Factor 4

Platelet Survival

Platelets

Rabbit

Reticulated platelet

Secreção

Secretion

Serotonin

Serotonina

Serpentes

Snakes

Sobrevivência Plaquetária

Trifosfato de adenosina

Venenos

Venoms

von Willebrand Factor

Contribuição à investigação das alterações hemostáticas induzidas pelo veneno da serpente Bothrops jararaca em coelhos: estudo das glicoproteínas da membrana, função, secreção e sobrevivência plaquetárias. / Contribution to the investigation of hemostatic disturbances induced by Bothrops jararaca snake venom in rabbits: study of platelet membrane glycoproteins, function, secretion and survival.

Marcelo Larami Santoro

15 May 2002

Que o envenenamento pela serpente Bothrops jararaca causa distúrbios hemorrágicos sistêmicos, com alteração da coagulação e fibrinólise sangüíneas, é notório. Contudo, pouco se sabe sobre a ação in vivo desse veneno sobre as plaquetas. Em estudos recentes, demonstrou-se que esse veneno causa trombocitopenia, distúrbios da agregação e diminuição do número de corpos densos plaquetários, que, dessarte, sugeriam a ativação das plaquetas circulantes. Com o escopo de comprovar esta hipótese e melhor caracterizar as ações in vivo desse veneno sobre as plaquetas, serviu-se de um modelo experimental que empregava coelhos para o envenenamento pela B. jararaca. No grupo experimental, os animais foram injetados i.v. com o veneno da B. jararaca (60 µg/kg) e no grupo controle com salina. Previamente à administração de salina ou veneno, os coelhos tiveram suas plaquetas marcadas ex vivo com NHS-biotina. Para a avaliação das alterações plaquetárias, amostras de sangue foram coletadas seqüencialmente, em intervalos de tempo que variaram de 1 a 144 horas após a administração do veneno ou salina. Durante o envenenamento, houve trombocitopenia, hipofibrinogenemia, elevação dos níveis plasmáticos do fator de von Willebrand, diminuição da função plaquetária no sangue total induzida pela botrocetina e pelo colágeno e diminuição da secreção de ATP. Não obstante, os níveis plasmáticos de fator plaquetário 4, um marcador específico da ativação plaquetária in vivo, e os níveis intraplaquetários de serotonina se mantiveram constantes. Pela citometria de fluxo, observou-se um decréscimo significativo da expressão do epítopo da GPIIb-IIIa reconhecido pelo anticorpo monoclonal P2, porém isso não foi observado ao utilizar-se anticorpos policlonais. A expressão de fibrinogênio ou dos produtos de degradação do fibrinogênio/fibrina (PDF) na membrana plaquetária também não sofreu alteração significativa ao longo do tempo. Houve, todavia, elevações significativas da P-selectina plaquetária, um receptor cuja expressão é indicativa de ativação plaquetária, e do epítopo induzido por ligantes (LIBS1) da GPIIIa. A porcentagem de plaquetas reticuladas na circulação, assim como os tempos de sobrevivência plaquetária, não foram estatisticamente diferentes entre os dois grupos. As análises histológicas e imuno-histoquímicas dos órgãos dos coelhos mostraram que as plaquetas circulantes são retidas entre redes de fibrina nos capilares pulmonares. Os resultados obtidos sugerem que a trombina engendrada pelos componentes pró-coagulantes deste veneno desempenha uma função essencial na patogenia dos distúrbios da coagulação e plaquetários observados neste modelo de envenenamento. O aumento da expressão de P-selectina no grupo experimental comprovou a hipótese inicial de que as plaquetas dos coelhos envenenados são verdadeiramente ativadas na circulação. Os dados ora apresentados demonstram definitivamente que a diminuição do fibrinogênio ou o aumento dos PDF não são a causa fundamental da disfunção plaquetária observada no envenenamento botrópico e que outro(s) composto(s) parece(m) estar envolvido(s) com estes distúrbios plaquetários. / In spite of being well established that Bothrops jararaca snake venom causes blood coagulation and fibrinolysis disturbances in patients, scant information about blood platelet disorders during envenomation is available. In recent investigations, thrombocytopenia, platelet aggregation disturbances and decreased numbers of platelet dense bodies were observed following venom administration, suggesting that circulating platelets had been activated. In order to prove this hypothesis and to gain a better characterization of the in vivo role of this venom on platelets, an experimental model of B. jararaca envenomation was utilized. Rabbits were injected i.v. either with B. jararaca venom (60 µg/kg) (experimental group) or saline (control group). Previously to saline or venom administration, rabbit platelets were labeled ex vivo with NHS-biotin. To evaluate platelet disturbances, blood samples were collected consecutively, at time intervals that varied from 1 to 144 hours after venom or saline administration. During envenomation, there were thrombocytopenia, hypofibrinogenemia, elevation of von Willebrand factor plasma levels, reduced botrocetin- and collagen-induced platelet aggregation in whole blood, and decreased ATP secretion. However, plasma levels of platelet factor 4, a specific marker of in vivo platelet activation, and intraplatelet serotonin levels remained constant. By flow cytometry, a significant decrease on the expression of GPIIb-IIIa epitope recognized by P2 monoclonal antibody was observed; however, this was not observed when polyclonal antibodies were employed. Fibrinogen or fibrin(ogen) degradation product (FDP) expression on platelet surface showed no significant alteration. Nonetheless, significant elevations of platelet P-selectin, a receptor whose expression is indicative of platelet activation, and of ligand-induced binding sites (LIBS1) of GPIIIa were noted. The percentage of circulating reticulated platelets, as well as platelet survival times, were not statistically different between the two groups. Histopathological and immunohistochemical analyses of rabbit organs demonstrated that circulating platelets were sequestered among fibrin deposits in pulmonary capillaries. These results suggest that thrombin generated by procoagulating components of B. jararaca venom has an essential role in the pathogenesis of platelet and coagulation disorders in this experimental model. Increased expression of P-selectin in the experimental group proves the initial hypothesis that platelets of envenomed rabbits are indeed activated in the circulation. The data presented herein demonstrate definitively that decreased fibrinogen or increased FDP levels are not the primary cause of the platelet dysfunction observed in bothropic envenomation, but other substances seem to be responsible for it.

Bothrops jararaca

Agregação

Anticorpos

Antitrombina III

Botrocetina

Citometria de fluxo

Coagulação

Coelho

Colágeno

ELISA

Envenenamento

Fator de von Willebrand

Fator plaquetário 4

Fibrinogênio

Galinha

Glicoproteína IIb-IIIa

Ovo

P-selectina

Plaquetas

Plaquetas Reticuladas

Secreção

Serotonina

Serpentes

Sobrevivência Plaquetária

Trifosfato de adenosina

Venenos

Adenosine Triphosphate

Aggregation

Antibodies

Antitrombin III

Botrocetin

Chicken

Coagulation

Collagen

Egg

Envenomation

Fibrinogen

Flow Cytometry

Glycoprotein IIb-IIIa

P-selectin

Platelet Factor 4

Platelet Survival

Platelets

Rabbit

Reticulated platelet

Secretion

Serotonin

Snakes

Venoms

von Willebrand Factor

Study of the interaction between 3,4 methylenedioximethamphetamine and the endocannabinoid system

Touriño Raposo, Clara

17 February 2009

La 3,4-metilendioximetamfetamina (MDMA, èxtasi) i el cannabis són dues drogues les quals es consumeixen conjuntament de manera habitual. Malgrat que tots dos compostos presenten propietats reforçant i potencial addictiu, també tenen propietats farmacològiques oposades. La MDMA es una droga psicoestimulant, la qual causa hiperlocomoció, hipertèrmia, resposted de tipus asiogènic i neurotoxicitat. Per altra banda el Δ9-tetrahydrocannabinol (THC), principal compost psicoactiu del cannabis, posseeix efectes relaxants, hipolocomotors, hipotèrmics i neuroprotectors. Els efectes de la MDMA i el THC al sistema nerviós central es troben mediats per dos mecanismes notablement diferents. La MDMA augmenta els nivells extracel·lulars de dopamina i serotonina, mentre que el THC produeix l'activació del receptor cannabinoide CB1. Cal destacar a més que les interaccions entre els sistemes monoaminèrgic i endocannabinoide s'observa de manera freqüent en l'organisme.En el present estudi hem explorat la implicació del sistema endocannabinoide i la MDMA en diversos aspectes. Per una banda el receptor cannabinoide CB1 juga un important paper en els efectes hiperlocomotors i hipertèrmics, i en les respostes de tipus ansiogènic produïdes per la MDMA. Curiosament, encara que el receptor CB1 no participa en els efectes recompensants primaris de la MDMA, és imprescindible per que tinguin lloc els seus efectes reforçants. Així mateix, l'alliberació de serotonina per part de la MDMA redueix de manera dosi-depenent la simptomatologia física causada pel síndrome d'abstinència a cannabinoides precipitada per un antagonista del receptor CB1. Finalment, el tractament amb THC era capaç de prevenir la hipertèrmia, activació glial, estrès oxidatiu i pèrdua de terminals causada per la MDMA. Com a conseqüència el THC exerceix un efecte neuroprotector contra la neurotoxicitat induïda per la MDMA. / 3,4-methylenedioximethamphetamine (MDMA, ecstasy) and cannabis are two drugs frequently consumed in combination. Despite both compounds have rewarding properties and abuse liability, they show opposite pharmacological properties. On the one hand, MDMA is a psychostimulant drug with hyperlocomotor, hyperthermic, anxiogenic-like and neurotoxic effects. On the other hand, Δ9-tetrahydrocannabinol (THC), the main psychoactive compound of cannabis, has relaxant, hypolocomotor, hypothermic and neuroprotective properties. The effects of MDMA and THC in the central nervous system are mediated by two different mechanisms. MDMA enhances the extracellular levels of dopamine and serotonin, whereas THC activates the CB1 cannabinoid receptor. Likewise, interactions between the monoaminergic and the endogenous cannabinoid system have been frequently observed.In the current study, we explored the involvement of CB1 cannabinoid receptor on the hyperlocomotor, hyperthermic, anxiogenic-like, rewarding and reinforcing effects of MDMA. We also studied the effect of acute and chronic administration of MDMA on rimonabant-precipitated THC withdrawal syndrome. Furthermore, we explored the neuroprotective effects of THC on MDMA-induced neurotoxicity.As a result of this study we may conclude that endocannabinoid system and MDMA interact in a wide variety of aspects. CB1 receptor plays an important role on the hyperlocomotor, hyperthermic, and anxiogenic-like effects of MDMA. Interestingly, CB1 receptor is essential for the reinforcing but not the primary rewarding properties of MDMA. In addition, the release of serotonin by MDMA dose-dependently reduced the severity of THC withdrawal syndrome triggered by a CB1 antagonist. Finally, pretreatment with THC prevented the hyperthermia, glial activation, oxidative stress and terminal loss caused by MDMA. Consequently, THC exerts a neuroprotective effect against MDMA-induced neurotoxicity.

tremolor

transportador de dopamina

tirosina hidroxilasa

THC

temperatura corporal

sintasa d'òxid nítric

síndrome d'abstinència

serotonina

rotarod

rimonabant

reforç

recompensa

receptor cannabinoide

Ptosis

proteïna glial fibrilar acídica

preferència de plaça condicionada

piloerecció

pèrdua de terminals

nucli accumbens

neuroprotecció

neurotoxicitat

microglia

microdialisis

MDMA

masticació

laberint en creu elevat

infusió

inflamació

immunohistoquímica

hipotèrmia

hipolocomoció

hipertèrmia

hiperlocomoció

glutamat

èxtasi

estriat

dopamina

diarrea

dependència

DAT

dany neuronal

coordinació motora

CD11b

CB2

CB1

autoadministració

atàxia

astròcits

anxiolític

anxiogènic

ansietat

activitat locomotora

abstinència

4-metilendioximetamfetamina

3

Δ9-tetrahydrocannabinol

western blot

Δ9-tetrahydrocannabinol

3

4-methylenedioximethamphetamine

abstinence

anxiety

anxiogenic

anxiolytic

astrocytes

ataxia

body temperature

615

616.8