Análise do perfil dos prostanoides e do seu papel no controle da migração celular em glioblastoma. / Analysis of the profile of prostanoids and their role in the control of cell migration in glioblastoma.

Gomes, Renata Nascimento

12 September 2016

O glioblastoma (GBM) é o tumor mais frequente do sistema nervoso central com um alto grau de malignidade e um prognóstico desfavorável. Apesar dos avanços nas técnicas cirúrgicas e de radioterapia e/ou quimioterapia, não há tratamento eficiente disponível para o GBM. Os prostanoide são derivados do ácido araquidônico e estão envolvidas com vários processos do desenvolvimento e progressão do câncer. O objetivo deste estudo foi analisar in vitro o perfil de diferentes prostanoides nas linhagens de GBM. Além de analisar o papel dos prostanoides e dos receptores na migração celular de GBM. Os resultados demostraram um perfil dos prostanoides da série 2 diferente entre as linhagens, além da expressão dos genes envolvidos na biossíntese de PGE2. Nos ensaios de migração os dados demostraram que os tratamentos realizados com os prostanoides exógenos aumentaram a migração celular e os tratamentos com os antagonistas de EP2 e EP4 diminuiram a migração. Em conjunto esses resultados, demonstram o papel importante dos prostanoides, especialmente PGE2, no processo de migração das células de GBM. / Glioblastoma (GBM) is the most common tumor of the central nervous system with a high degree of malignancy and poor prognosis. Despite advances in surgical techniques and radiation therapy and/or chemotherapy, there is no effective treatment available for GBM. The prostanoid are derived from arachidonic acid and are involved in many processes of development and progression of cancer. The aim of this study was to analyze in vitro profile of different prostanoids in the lines of GBM. In addition to analyzing the role of prostanoids and receptors on the cell migration of GBM. The results showed a profile of series 2 prostanoids the different between the cell lines, in addition to expression of genes involved in the biosynthesis of PGE2. In migration testing data showed that the treatments performed with exogenous prostanoids increased cell migration and treatment with antagonists of EP2 and EP4 decreased migration. Together these results demonstrate the important role of prostanoids, especially PGE2, in the migration process of the GBM cells.

EP Receptors

Glioblastoma

Glioblastoma

Migração

Migration

Prostaglandin E2

Prostaglandina E2

Prostanoid

Prostanoides

Receptores EP

Análise do perfil dos prostanoides e do seu papel no controle da migração celular em glioblastoma. / Analysis of the profile of prostanoids and their role in the control of cell migration in glioblastoma.

Renata Nascimento Gomes

12 September 2016

O glioblastoma (GBM) é o tumor mais frequente do sistema nervoso central com um alto grau de malignidade e um prognóstico desfavorável. Apesar dos avanços nas técnicas cirúrgicas e de radioterapia e/ou quimioterapia, não há tratamento eficiente disponível para o GBM. Os prostanoide são derivados do ácido araquidônico e estão envolvidas com vários processos do desenvolvimento e progressão do câncer. O objetivo deste estudo foi analisar in vitro o perfil de diferentes prostanoides nas linhagens de GBM. Além de analisar o papel dos prostanoides e dos receptores na migração celular de GBM. Os resultados demostraram um perfil dos prostanoides da série 2 diferente entre as linhagens, além da expressão dos genes envolvidos na biossíntese de PGE2. Nos ensaios de migração os dados demostraram que os tratamentos realizados com os prostanoides exógenos aumentaram a migração celular e os tratamentos com os antagonistas de EP2 e EP4 diminuiram a migração. Em conjunto esses resultados, demonstram o papel importante dos prostanoides, especialmente PGE2, no processo de migração das células de GBM. / Glioblastoma (GBM) is the most common tumor of the central nervous system with a high degree of malignancy and poor prognosis. Despite advances in surgical techniques and radiation therapy and/or chemotherapy, there is no effective treatment available for GBM. The prostanoid are derived from arachidonic acid and are involved in many processes of development and progression of cancer. The aim of this study was to analyze in vitro profile of different prostanoids in the lines of GBM. In addition to analyzing the role of prostanoids and receptors on the cell migration of GBM. The results showed a profile of series 2 prostanoids the different between the cell lines, in addition to expression of genes involved in the biosynthesis of PGE2. In migration testing data showed that the treatments performed with exogenous prostanoids increased cell migration and treatment with antagonists of EP2 and EP4 decreased migration. Together these results demonstrate the important role of prostanoids, especially PGE2, in the migration process of the GBM cells.

Glioblastoma

Migração

Prostaglandina E2

Prostanoides

Receptores EP

EP Receptors

Glioblastoma

Migration

Prostaglandin E2

Prostanoid

The distinct role of cyclooxygenase-2 in prostate and bladder carcinogenesis

Wang, Xingya

17 July 2007

No description available.

Health Sciences, Nutrition

prostate cancer

bladder cancer

COX-2

PGE2

EP receptors

RECEPTORES EP1 E EP3 MODULAM AS CRISES EPILÉPTICAS INDUZIDAS POR PENTILENOTETRAZOL E ÁCIDO CAÍNICO EM CAMUNDONGOS / EP1 AND EP3 RECEPTORS MODULATE PENTYLENETETRAZOLAND KAINIC ACID-INDUCED SEIZURES IN MICE

Reschke, Cristina Ruedell

27 June 2013

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Epilepsy is one of the most common neurologic disorders. It has been suggested that seizures may be facilitaded by inflammation. PGE2 is one of the most important inflammatory mediators, and facilitates pentylenetetrazol (PTZ)-induced seizures by stimulating EP1 and EP3 receptors. However, up to the present moment, no study has investigated whether EP1 and EP3 receptors blocking attenuate seizures induced by convulsants other than PTZ. It is also unknown whether Na+,K+-ATPase activity alterations are involved in such an effect. Therefore, in the current study we investigated whether EP1 and EP3 ligands (agonists and antagonists) modulate PTZ- and kainic acid (KA)-induced seizures, and whether alterations in Na+,K+-ATPase activity mediate such a protective effect, in mice. EP1 and EP3 antagonists (ONO-8713 and ONO-AE3-240, respectively, 10 Og/kg, s.c.) attenuated PTZ (60 mg/kg, i.p.)- and KA (20 mg/kg, i.p.)-induced seizures. The respective agonists (ONO-DI-004 and ONO-AE-248, 10 Og/kg, s.c.) facilitated seizures in both acute models, and at noneffective doses, prevented the protective effects of the antagonists. Animals injected with PTZ presented decreased Na+,K+-ATPase activity in the cerebral cortex and hippocampus. On the other hand, animals injected with KA presented increased Na+,K+-ATPase activity in the same cerebral structures at the end of the experiment. These divergent findings suggest that alterations in Na+,K+-ATPase activity in both acute models depends on the convulsant agent used and make difficult to establish a relationship between Na+,K+-ATPase activity and seizure development. Moreover, EP1 and EP3 antagonists administration abolished Na+,K+- ATPase activity alterations induced by PTZ and KA, in such a way that these alterations seem to be related more to the presence of ictal phenomenon itself than to the seizure induction mechanisms. Notwithstanding, the currrent results clearly show that EP1 and EP3 receptors might constitute novel targets for anticonvulsants development, since EP1 and EP3 decreased seizures, regardless of the convulsant agent used. / A epilepsia é uma das disfunções neurológicas mais comuns. Tem sido sugerido que as crises epilépticas podem ser facilitadas pela ocorrência de inflamação. A PGE2 é um dos mediadores inflamatórios mais importantes que, agindo por meio dos receptores EP1 e EP3, facilita as convulsões induzidas por pentilenotetrazol (PTZ). Contudo, até a presente data, nenhum estudo investigou, de maneira sistêmica, se a ativação ou bloqueio de receptores EP1 e EP3 facilitam as convulsões induzidas por outros agentes; tampouco se alterações na atividade da Na+,K+-ATPase estão envolvidas nesse efeito. Assim, no presente estudo, investigamos se ligantes (agonistas e antagonistas) de receptores EP1 e EP3 modificam as crises induzidas por PTZ e ácido caínico (KA), e se tais efeitos estão associados a alterações na atividade da enzima Na+,K+-ATPase, em camundongos. Os antagonistas EP1 e EP3 (ONO-8713 e ONO-AE3-240, respectivamente, 10 Og/Kg, s.c.) atenuaram as convulsões induzidas por PTZ (60 mg/Kg, i.p.) e KA (20 mg/Kg). Os seus respectivos agonistas (ONO-DI-004 e ONO-AE-248 de 10 Og/Kg, s.c.) facilitaram as convulsões em ambos modelos agudos de crises epilépticas e, em doses não efetivas para gerar crises, preveniram os efeitos dos antagonistas. Os animais submetidos à administração de PTZ apresentaram, ao final do experimento, a atividade Na+,K+-ATPásica diminuída no córtex cerebral e hipocampo. Por outro lado, animais tratados com KA apresentaram um aumento na atividade Na+,K+-ATPásica nestas mesmas estruturas, que se correlacionou positivamente com a vigência de status epilepticus no momento do sacrifício. Os achados divergentes no que diz respeito à alteração da atividade da Na+,K+-ATPase nos dois modelos de crises agudas sugere que tais alterações estejam relacionadas ao tipo de agente convulsivante utilizado, e dificultam estabelecer, de forma inequívoca, uma relação entre atividade desta ATPase e sensibilidade à crises agudas. Ademais, a administração de antagonistas EP1 e EP3 aboliu as alterações da atividade da Na+,K+-ATPase induzidas tanto por PTZ como por KA, de tal forma que estas parecem estar mais associadas com o fenômeno ictal em si, do que com os mecanismos de indução da crise. Contudo, os resultados mostram de forma clara que os receptores EP1 e EP3 podem se constituir possíveis novos alvos para o desenvolvimento de drogas antiepilépticas, pois antagonistas EP1 e EP3 diminuíram as crises, independente do agente convulsivante utilizado.

Epilepsia

Prostaglandina E2

Receptores EP

PTZ

Ácido caínico

Epilepsy

Prostaglandin E2

EP receptors

PTZ

Kainic acid

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

The Role of Prostaglandin E2 in causing susceptibility towards Anaphylaxis

Rastogi, Shruti

30 July 2020

Die Ausbildung und der Schweregrad einer Anaphylaxie kann durch verschiedene Co-Faktoren beeinflusst werden. Zu diesen zählen die nichtsteroidalen Antiphlogistika (NSAIDs), die ihre Wirkung über die Inhibition der COX entfalten. Wie NSAIDs den Schweregrad der Anaphylaxie beeinflussen, ist bisher nicht genau bekannt. Interessanterweise zeigen Anaphylaxie-Patienten mit einer NSAID-Hypersensibilität niedrige Konzentrationen des regulatorischen Prostaglandins E2 (PGE2). Zudem zeigen ASA-tolerante und –intolerante Asthma-Patienten variable anaphylaktische Sensitivitäten. Anhand der vorliegenden Arbeit sollte untersucht werden, ob sich eine PGE2-Dysregulation auf die Ausbildung und den Schweregrad der Anaphylaxie auswirkt und ob diese durch genetische Prädispositionen gefördert werden kann. Dazu wurden zunächst die PGE2 Konzentration im Serum von ANA-Patienten und gesunden Individuen gemessen. ANA-Patienten zeigten reduzierte PGE2 Level, die invers mit dem Schweregrad der ANA korrelierten. Unterstützend weisen zwei in der Allergieforschung häufig verwendete Mauslinien, Balb/c und C57BL/6, unterschiedliche PGE2 Level auf, die wiederum invers mit dem ANA-Schweregrad korrelierten. Eine Stabilisierung der PGE2 Konzentration mittels eines pharmakologischen Inhibitors der Hydroxyprostaglandin-Dehydrogenase (15-PGDH-I) in vivo führte zu einer Verbesserung des ANA Schweregrades. Um in diesem Zusammenhang den Einfluss von ASA und PGE2 besser zu verstehen, wurde das Model der systemisch passiven ANA im Mausmodel eingesetzt. ASA verschlimmerte den Schweregrad der ANA durch die Inhibition der COX1/2. PGE2 konnte diese Verschlimmerung über die EP Rezeptoren 2, 3 und 4 reduzieren. Um die zugrundeliegenden Mechanismen der Wirkweise von exogenem PGE2 und EP-Agonisten besser zu verstehen, wurden diese Zusammenhänge in murinen und humanen Mastzellen untersucht. PGE2 reduzierte die Schwere der ANA durch Inhibition der Mastzell-Aktivität in diesem System über die Rezeptoren EP2 und EP4. Anhand der vorliegenden Arbeit konnte gezeigt werden, dass bereits homöostatische PGE2 Konzentrationen die Aktivität der Mastzelle verändern und vor einer schweren ANA schützen. Zudem kann der Grad der ANA und der Einfluss des PGE2 auf die Mastzellantwort durch genetische Prädisposition beeinflusst werden. Die pharmakologische Stabilisierung des PGE2 könnte daher eine vielversprechende, therapeutische wie auch vorbeugende Strategie zur Behandlung risikoreicher ANA- Patienten sein. / The clinical outcome of anaphylaxis (ANA) can be affected by several co-factors. Non-steroidal anti-inflammatory drugs (NSAIDs) are well-known co-factors of ANA acting via COX-inhibition. The NSAIDs-mediated mechanisms altering the severity of ANA are not well-defined. It is reported that patients of ASA (NSAID)-hypersensitivity show low levels of the regulatory prostaglandin E2 (PGE2). Moreover, the effectiveness of PGE2 administration in such patients suggests a critical role of PGE2 in ASA hypersensitivity. In addition, patients of ASA-tolerant and ASA-intolerant asthma show variable ANA sensitivities suggesting a role of genetic variation in susceptibility. The aim of this thesis was to study whether and how PGE2 dysregulation predisposes to ANA and whether genetic pre-dispositions affect the PGE2 system and therefore ANA susceptibility. First, sera from ANA patients and healthy individuals were analyzed for PGE2 levels. ANA patients were characterized by reduced PGE2 levels which inversely correlated with the severity of ANA. This disparity was confirmed by differential PGE2 levels between Balb/c and BL/6 strains, two genetic mouse strains frequently employed in allergy research. PGE2 levels in these mice were again inversely related with the severity of ANA. Results were confirmed by in vivo PGE2 stabilization using 15-hydroxyprostaglandin dehydrogenase inhibitor (15-PGDH-I). Pharmacological PGE2 stabilization ameliorated ANA severity in mice. A passive systemic ANA (PSA) model was applied to study the impact of ASA on ANA severity and the role of PGE2 in this context. ASA aggravated ANA by inhibiting COX-1/COX-2, while PGE2 reduced the aggravation through EP receptors 2, 3 and 4. To delineate the underlying mechanisms, murine and human mast cells were used to study the impact of exogenous PGE2 and EP agonists. PGE2 attenuated ANA severity by inhibiting MC activation through EP2 and EP4 receptors and interfering with MC signaling. In summary, this thesis demonstrates that homeostatic levels of PGE2 modulate MC activation and protect against ANA severity. The impact of PGE2 on MC responses and ANA susceptibility is governed by genetic variation. Pharmacological stabilization of PGE2 may prove to be a therapeutic or preventive strategy in the management of high-risk ANA patients.

Anaphylaxie

Prostaglandin E2

EP-Rezeptoren

15-PGDH-Hemmer

Mastzellen

Anaphylaxis

prostaglandin E2

EP receptors

15-PGDH inhibitor

mast cells

570 Biologie

YB 4600

WF 9910

ddc:570

Padronização e validação de um novo modelo de febre induzida pela injeção intratecal de prostaglandina e2 em ratos jovens / Characterization and validation of a new fever model induced by the intrathecal injection of prostaglandin e2 in young rats

Ratzlaff, Viviane

07 December 2006

The fever response, besides being part of host defense response to infection or inflammation, is associated with discomfort and anxiety and may constitute a risk for febrile seizures in children. Therefore, antipyretic therapy is routinely prescribed for febrile patients. The animal models of fever using the systemic injection of lipopolysaccharide (LPS) and Baker yeast, described in the literature, are suitable for screening of novel antipyretics, but they do not provide information regarding the mechanism of action of these compounds. Therefore, the present study aimed to describe and validate a model of fever induction by prostaglandin (PG) E2, the final mediator of febrile response in the central nervous system, in young male Wistar rats (25-30 days of age). In this protocol, PGE2 was injected intrathecally without implantation of cannula. Rectal temperature (TR) was recorded every thirty minutes for three hours after PGE2 injection (08:00 11:00 h). The intrathecal (i.t.) injection of PGE2 10 ηg in 100 μL/animal induced fever in the animals, which was prevented by administration of EP1 and EP3 receptors antagonists, but did not by antagonist of EP4 receptor. In addition, the classic antipyretics dipyrone and acetaminophen, at doses that had no effect per se on TR of animals, did not revert the fever induced by i.t. injection of PGE2. This model seems suitable to investigate whether the action of antipyretics occurs upstream or downstream the prostaglandin coupling in EP receptors. In addition, this protocol is advantageous from the technical, ethical and economical point of view compared to others PGE2-induced fever protocols described in the literature, because trepanation for cannula implantation is not required, reducing the inflammatory response, animals suffering and experimental costs. / A febre, apesar de fazer parte da resposta de defesa do hospedeiro à infecção ou inflamação, está associada com desconforto e ansiedade, além de representar um risco iminente de convulsões febris em crianças. Por isso, terapia antipirética é rotineiramente prescrita a pacientes febris. Os modelos animais de febre empregando a injeção sistêmica de lipopolissacarídeo (LPS) e fermento de padeiro, descritos na literatura, são úteis para a triagem de novos antipiréticos, mas não fornecem informações a respeito do mecanismo de ação desses compostos. Diante disso, o presente estudo objetivou padronizar e validar um modelo de indução de febre por prostaglandina (PG) E2, o mediador final da resposta febril no sistema nervoso central, em ratos machos jovens da raça Wistar (25-30 dias). Neste protocolo, a PGE2 foi injetada pela via intratecal (i.t.), não necessitando a implantação de cânula. A temperatura retal (TR) foi registrada a cada trinta minutos durante três horas após a injeção da PGE2 (08:00-11:00 h). A injeção i.t. de PGE2 10 ηg em 100 μL/animal induziu febre nos animais, a qual foi prevenida pela administração de antagonistas dos receptores EP1 e EP3, mas não por antagonista do receptor EP4. Além disso, os antipiréticos clássicos dipirona e paracetamol, em doses que não tiveram efeito per se na TR dos animais, não reverteram a febre induzida por PGE2 i.t. Este modelo parece útil para investigar se a ação dos antipiréticos ocorre antes ou depois da ligação da PGE2 em seus receptores EP. Além disso, este protocolo é vantajoso do ponto de vista técnico, ético e econômico em relação aos outros protocolos de indução de febre por PGE2 descritos na literatura, porque a trepanação para implantação de cânula não é necessária, reduzindo a resposta inflamatória, o sofrimento dos animais e os custos experimentais.

Febre

Prostaglandina E2

Modelo animal

Injeção intratecal

Antagonistas de receptores EP

Antipiréticos

Ratos jovens

Fever

Prostaglandin E2

Animal model

Intrathecal injection

EP receptors antagonists

Antipyretics

Young rats

CNPQ::CIENCIAS BIOLOGICAS::BIOQUIMICA