Doctoral Thesis
DOI
https://doi.org/10.11606/T.75.2009.tde-25082009-110446
Document
Author
Full name
Emmanuela Ferreira de Lima
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 2009
Supervisor
Committee
Silva, Albérico Borges Ferreira da (President)
Mello, Paula Homem de
Santos, Regina Helena de Almeida
Teijido, Mauricio Angel Vega
Honorio, Káthia Maria
Mello, Paula Homem de
Santos, Regina Helena de Almeida
Teijido, Mauricio Angel Vega
Honorio, Káthia Maria
Title in Portuguese
Estudo da modelagem molecular do receptor canabinóide CB1 e suas interações com o ∆9 - THC
Keywords in Portuguese
atividade psicotrópica
modelagem molecular
modelagem por homologia
receptores canabinóides
modelagem molecular
modelagem por homologia
receptores canabinóides
Abstract in Portuguese
Marihuana (Cannabis sativa) é uma planta amplamente usada pelo ser humano há séculos e suas várias aplicações têm benefícios importantes. A planta Cannabis sativa tem sido usada pelo homem como comida, em práticas medicinais e rituais religiosos. Seus efeitos incluem analgesia, alteração na percepção, cognição, memória e atividade psicomotora. Os compostos canabinoides têm sido usados na quimioterapia do câncer e AIDS. No entanto, o uso da marijuana é um problema devido aos seus efeitos indesejados, nesse caso, a atividade psicotrópica apresentada pelos compostos canabinoides. Devido ao grande interesse nos efeitos causados pelos compostos extraídos da Cannabis, vários estudos têm sido realizados com o objetivo de melhor entender a relação entre a estrutura química e a atividade biológica de compostos canabinoides, bem como as suas interações com os receptores canabinoides, CB1 e CB2. Ambos são receptores de sete transmembranas (TM) que pertencem à família classe A, como a da rodopsina bovina, dos receptores acoplados à proteína-G (GPCRs). Esta Tese representa um estudo da modelagem molecular do receptor CB1 baseado na estrutura da rodopsina bovina já publicada, uma vez que a maioria dos efeitos terapêuticos dos canabinoides tem sido mostrado serem mediados pelo receptor canabinoide CB1. Esse trabalho fornece, também, uma investigação da interação ligante-receptor e um estudo da ativação do receptor CB1. Ao final, foi feito um estudo de docking a fim de entender as principais interações que ocorrem entre o ∆9 -THC, a principal molécula psicoativa presente na Cannabis, e seu receptor CB1.
Title in English
Molecular modeling study of CB1 cannabinoid receptor and its interaction with delta-9-THC
Keywords in English
canabinoid receptors
homology modeling
molecular modeling
phychotropic activity
homology modeling
molecular modeling
phychotropic activity
Abstract in English
Marijuana (Cannabis sativa) is a widely used plant and its various applications have important benefits. The plant Cannabis sativa has been used by man for centuries for eating, medicinal practices and religious rituals. In human subjects, its effects include analgesia, alterations in perceptions, cognition, memory and psychomotor activity. The cannabinoid compounds have been used in the cancer chemotherapy and AIDS, but the use of marijuana is a problem due to its unwanted effects (the psychotropic activity presented by the cannabinoid compounds). Due to the great interest in the effects caused by the compounds extracted from the Cannabis, several studies have been carried out with the aim to better understand the relationship between the chemical structure and the biological activity of cannabinoid compounds, as well as their interaction with the cannabinoid receptors (CB1 and CB2). Both are seven-transmembrane (TM) receptors that belong to the rhodopsin-like family Class A of G protein coupled receptors (GPCRs). This work represents a study of molecular modeling of the CB1 receptor based upon the published bovine rhodopsin structure, once the most of the therapeutic effects of cannabinoids compounds have been shown to be mediated through the CB1 cannabinoid receptor. This work also provides an investigation of the CB1 receptor-ligand interaction and a study of the CB1 receptor activation. A docking study was also performed in order to understand the main interactions that occur between ∆9 -THC, the principal psychoactive molecule present in cannabis, and its receptor CB1.
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EmmanuelaFLimaR.pdf (1.28 Mbytes)
Publishing Date
2009-08-26
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