Américo J. S. Alves scite author profile

The high burden of malaria and HIV/AIDS prevents economic and social progress in developing countries. A continuing need exists for development of novel drugs and treatment regimens for both diseases in order to address the tolerability and long-term safety concerns associated with current treatment options and the emergence of drug resistance. We describe new spiro-β-lactam derivatives with potent (nM) activity against HIV and Plasmodium and no activity against bacteria and yeast. The best performing molecule of the series, BSS-730A, inhibited both HIV-1 and HIV-2 replication with an IC50 of 13 ± 9.59 nM and P. berghei hepatic infection with an IC50 of 0.55 ± 0.14 μM with a clear impact on parasite development. BSS-730A was also active against the erythrocytic stages of P. falciparum, with an estimated IC50 of 0.43 ± 0.04 μM. Time-of-addition studies showed that BSS-730A potentially affects all stages of the HIV replicative cycle, suggesting a complex mechanism of action. BSS-730A was active against multidrug-resistant HIV isolates, with a median 2.4-fold higher IC50 relative to control isolates. BSS-730A was equally active against R5 and X4 HIV isolates and displayed strong synergism with the entry inhibitor AMD3100. BSS-730A is a promising candidate for development as a potential therapeutic and/or prophylactic agent against HIV and Plasmodium.

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Recent Advances in the Synthesis of Spiro‐β‐Lactams and Spiro‐δ‐Lactams

Alves

Soares

et al. 2021

Adv Synth Catal

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Spirocyclic molecules are widely recognized for their complex three-dimensional features and structural rigidity. Among this class of molecules, the spiro-lactams subclass stands out, being extensively explored due to its bioactivity and utility in a variety of scientific fields such as drug design and organic synthesis. Given the recognition of spirocyclic lactams' broad potential, several efforts have been engaged on the pursuit of new synthetic strategies towards these molecules. The present review gathers advances on the synthesis of both spiroβ-lactams (spiroazetidin-2-ones) and spiro-δ-lactams (spiropiperidon-2-ones) reported since 2015. The work is divided into two distinct parts, each one dedicated to one of these types of spiro-lactam, with the approach used for building the spirocyclic system being extensively discussed, according to the meth-

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Strategies and methodologies for the construction of spiro-γ-lactams: an update

Alves

Soares

et al. 2021

Org. Chem. Front.

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Spiro-Lactams as Novel Antimicrobial Agents

Alves

Caratão

et al. 2020

CTMC

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Introduction: Structural modulation of previously identified lead spiro-β-lactams with antimicrobial activity was carried out. Objective: The main objective of this work was to synthesize and evaluate the biological activity of novel spiro-lactams based on previously identified lead compounds with antimicrobial activity. Methods: The target chiral spiro-γ-lactams were synthesized through 1,3-dipolar cycloaddition reaction of a diazo-γ-lactam with electron-deficient dipolarophiles. In vitro activity against HIV and Plasmodium of a wide range of spiro-β-lactams and spiro-γ-lactams was evaluated. Among these compounds, one derivative with good anti-HIV activity and two with promising antiplasmodial activity (IC50 < 3.5 µM) were identified. Results: A novel synthetic route to chiral spiro-γ-lactams has been established. The studied β- and γ- lactams were not cytotoxic, and three compounds with promising antimicrobial activity were identified, whose structural modulation may lead to new and more potent drugs. Conclusion: The designed structural modulation of biologically active spiro-β-lactams involved the replacement of the four-membered β-lactam ring by a five-membered γ-lactam ring. Although conformational and superimposition computational studies revealed no significant differences between β- and γ- lactam pharmacophoric features, the studied structural modulation did not lead to compounds with a similar biological profile. The observed results suggest that the β-lactamic core is a requirement for the activity against both HIV and Plasmodium.

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Synthesis and structure-activity relationships of new chiral spiro-β-lactams highly active against HIV-1 and Plasmodium

Alves

Bártolo

Alves

et al. 2021

European Journal of Medicinal Chemistry

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