José Teófilo Moreira-Filho scite author profile

Virtual screening (VS) has emerged in drug discovery as a powerful computational approach to screen large libraries of small molecules for new hits with desired properties that can then be tested experimentally. Similar to other computational approaches, VS intention is not to replace in vitro or in vivo assays, but to speed up the discovery process, to reduce the number of candidates to be tested experimentally, and to rationalize their choice. Moreover, VS has become very popular in pharmaceutical companies and academic organizations due to its time-, cost-, resources-, and labor-saving. Among the VS approaches, quantitative structure–activity relationship (QSAR) analysis is the most powerful method due to its high and fast throughput and good hit rate. As the first preliminary step of a QSAR model development, relevant chemogenomics data are collected from databases and the literature. Then, chemical descriptors are calculated on different levels of representation of molecular structure, ranging from 1D to nD, and then correlated with the biological property using machine learning techniques. Once developed and validated, QSAR models are applied to predict the biological property of novel compounds. Although the experimental testing of computational hits is not an inherent part of QSAR methodology, it is highly desired and should be performed as an ultimate validation of developed models. In this mini-review, we summarize and critically analyze the recent trends of QSAR-based VS in drug discovery and demonstrate successful applications in identifying perspective compounds with desired properties. Moreover, we provide some recommendations about the best practices for QSAR-based VS along with the future perspectives of this approach.

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In silico Strategies to Support Fragment-to-Lead Optimization in Drug Discovery

Neto

et al. 2020

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In silico-driven identification of novel molluscicides effective against Biomphalaria glabrata (Say, 1818)

et al. 2020

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BeeToxAI: An artificial intelligence-based web app to assess acute toxicity of chemicals to honey bees

Moreira-Filho

Braga²,

Lemos

et al. 2021

Artificial Intelligence in the Life Sciences

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Antitrypanosomal Activity of Acetogenins Isolated from the Seeds of Porcelia macrocarpa Is Associated with Alterations in Both Plasma Membrane Electric Potential and Mitochondrial Membrane Potential

et al. 2019

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As part of a drug discovery program aimed at the identification of anti-Trypanosoma cruzi metabolites from Brazilian flora, four acetogenins (1−4) were isolated from the seeds of Porcelia macrocarpa and were identified by NMR spectroscopy and HRESIMS. The new compounds 1 and 2 displayed activity against the trypomastigote (IC 50 = 0.4 and 3.6 μM) and amastigote (IC 50 = 23.0 and 27.7 μM) forms. The structurally related known compound 3 showed less potency to the amastigotes, with an IC 50 value of 58 μM, while the known compound 4 was inactive. To evaluate the potential mechanisms for parasite death, parameters were evaluated by fluorometric assays: (i) plasma membrane permeability, (ii) plasma membrane electric potential (ΔΨ p ), (iii) reactive oxygen species production, and (iv) mitochondrial membrane potential (ΔΨ m ). The results obtained indicated that compounds 1 and 2 depolarize plasma membranes, affecting ΔΨ p and ΔΨ m and contributing to the observed cellular damage and disturbing the bioenergetic system. In silico studies of pharmacokinetics and toxicity (ADMET) properties predicted that all compounds were nonmutagenic, noncarcinogenic, nongenotoxic, and weak hERG blockers. Additionally, none of the isolated acetogenins 1−4 were predicted as pan-assay interference compounds.Porcelia macrocarpa (Warming) R. E. Fries (Annonaceae) is a species found in the Atlantic Forest and "Cerrado" regions of Brazil. 1 Previous studies by our group have shown the anti-Trypanosoma cruzi activity of acetylenic acids from the seeds and flowers from P. macrocarpa. 2,3 T. cruzi protozoan parasites are responsible for Chagas disease, a neglected disease with eight million cases each year in North and South America. 4 The available chemotherapy is unsatisfactory and is limited to two nitrogen-containing heterocyclic drugs, benznidazole and nifurtimox, 5 with severe adverse effects and reduced efficacy. 6−8 In this context, the search for new chemotherapeutic alternatives for Chagas disease is crucial, and natural products are a promising approach to identify new lead compounds. In the present work, the antitrypanosomal activities of four acetogenins (1−4) isolated from the seeds of P. macrocarpa were evaluated, including two new compounds (1 and 2). Furthermore, studies concerning the mechanism of cellular death were performed on compounds 1 and 2, in addition to in silico evaluations of their ADMET properties.

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