Design of microtubule polymerization modulators with anticancer properties, structural analysis of macromolecules and development of a virtual database of natural products

The work developed during a doctorate program and shown here as a PhD thesis reports the accomplishment of a series of computational and experimental studies focused on the development of new anticancer agents, an innovative methodology for the investigation of protein complexes formation and of a new database for natural products based on the Brazilian biodiversity, in an effort to assist and encourage the discovery and development of new pharmaceutical drugs inside country. The first chapter describes studies that resulted in the identification and development of new molecules with anticancer activity through the integration of biochemical experiments and molecular modeling methods in the area of medicinal chemistry. Thus, molecular modeling studies and biochemical assays using a library of compounds provided by collaboration with the Laboratório de Síntese de Produtos Naturais e Fármacos (LSPNF) from the University of Campinas (Unicamp) have identified a number of molecules of the cyclopenta-b-indole class as inhibitors for microtubule polymerisation, with substantial anti-cancer activity. These compounds showed to be able to modulate microtubule polymerisation on in vitro assays against the molecular target and cancer cells with IC50 values in the range of 20 to 30 μM. Moreover, experimental studies have identified the colchicine site of tubulin as in the region of interaction of this class and cell migration assays have proven their antitumour activity. Based on these results, further studies using molecular docking and molecular dynamics allowed to elucidate the molecular interactions involved in the binding process to tubulin protein, and these molecular models were used to guide the design, synthesis and evaluation of a novel series of compounds. From the data obtained by computational studies, modifications were proposed to design, synthesise and evaluate new tubulin polymerisation inhibitors, resulting in identification of a high-activity inhibitor and superior pharmacodynamic profile and IC50 of 5 μM. Alongside, in vitro cytotoxicity assays demonstrated an interesting selectivity of these compounds for cancer cells when compared to healthy cells. The studies presented here with tubulin inhibitors allowed to identify modulators of microtubule polymerisation with excellent anti-cancer profile, that will provide a valuable scaffold for the development of new effective treatments against cancer. The second chapter presents a new method for predicting changes on the conformational and the formation of multimeric protein complexes. This method was developed during the studies carried out over an exchange program in the Center for Theoretical and Biological Physics (CTBT, Rice University, USA), under the supervision of professor Dr. José Nelson Onuchic. During this project, computer modeling studies were carried using modern methods developed in the CTBT itself, such as Direct-Coupling Analysis (DCA) and a simulation method known as Modeling Based Structure (SBM). In the studies presented here, the DCA and SBM methods developed in CTBP were combined, modified and expanded to develop a new methodology able to identify the conformational changes and to elucidate mechanisms folding and oligomerization of proteins. The results obtained through prediction of various multimeric protein complexes with high accuracy show that this system is extremely effective and reliable to identify interface contacts between proteins and to predict the quaternary structure of macromolecular complexes. This new method allows the characterization and elucidation of protein systems that are currently unable to be solely determined by experimental methods. The third chapter of this doctoral thesis describes the construction of a virtual database in a pioneering initiative that aims to gather and make available all the information already obtained through the study of Brazilian biodiversity. This database, entitled NuBBE DataBase, brings together various information such as 2D and 3D molecular structure and biological activity of several molecules already isolated by the Núcleo de Bioensaios Biossíntese e Ecofisiologia de Produtos Naturais(NuBBE), located at the Universidade Estadual Paulista Julio de Mesquita Filho (UNESP). The NuBBEDB will be useful to the scientific community, providing research and pharmaceutical centers information for molecular modeling studies, metabolomics, derreplication and principally for the planning and identification of new bioactive compounds. (AU)