Your search keyword '"Cirne-Santos CC"' showing total 20 results

1. The Impact of the COVID-19 Pandemic on Reports Involving Arboviruses

Author

Gomes MWL, de Souza Barros C, Gomes RDSP, Pinto RP, Cirne-Santos CC, and Paixao ICP

Published

2022

2. Inhibition of HIV-1 replication in human primary cells by a dolabellane diterpene isolated from the marine algae dictyota pfaffii.

Author

Cirne-Santos CC, Teixeira VL, Castello-Branco LR, Frugulhetti ICP, and Bou-Habib DC

Published

2006

3. Coumarin-imidazopyridine hybrids and their first-in-class Zn II metal complexes as potent dual entry and replication inhibitors of Zika viral infection.

Author

Jefferson de Arruda H, Almeida Ferreira L, Leonel S Sousa G, Terra Maia Y, Vitório F, Cirne-Santos CC, de Souza Barros C, Ribeiro Batista R, Christina N P Paixão I, Pereira Guedes G, Eugen Kümmerle A, and Porto Neves A

Abstract

In this study, we synthesized and characterized a series of coumarin-imidazopyridine hybrid ligands (HL1-HL4) and their corresponding Zn(II) complexes (C1-C4). The ligands were synthesized via a two-step process in 56-90 % yields. The resulting ligands, were utilized to form Zn(II) complexes, characterized by conductivity measurements, HRMS, IR, 1 H NMR spectroscopy and X-ray diffractions. Biological evaluations revealed that these compounds exhibited potent antiviral activity against Zika virus (ZIKV), with EC 50 values ranging from 0.55 to 4.8 µM and SI of up to 1490. Notably, the complexes (the first-in-class Zn(II) anti-ZIKV complexes) generally displayed enhanced activity compared to their respective ligands, with some compounds outperforming the reference antiviral, ribavirin. The Time of Addition assay suggested that while some compounds interfere with both viral entry (with a virucidal component) and replication phases, other only acted in replication phases. These results together with molecular modeling studies on ZIKV Envelope protein and ZIKV NS2B-NS3 offered insights for their mode of actions and further optimizations., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Arthur Kummerle reports financial support was provided by Carlos Chagas Filho Foundation for Research Support of Rio de Janeiro State. Henrique Jefferson de Arruda and Larissa Almeida Ferreira reports financial support was provided by Coordination of Higher Education Personnel Improvement. Arthur Kummerle reports financial support was provided by National Council for Scientific and Technological Development. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

4. Antiviral Activity of Kappaphycus alvarezii Seaweed against ZIKV.

Author

de S Barros C, Cirne-Santos CC, Esteves PO, Gomes MWL, Rabelo VW, Santos TM, Teixeira VL, and de P Paixão ICN

Subjects

Animals, Chlorocebus aethiops, Vero Cells, Dose-Response Relationship, Drug, Microbial Sensitivity Tests, Structure-Activity Relationship, Ribavirin pharmacology, Plant Extracts pharmacology, Plant Extracts chemistry, Edible Seaweeds, Rhodophyta, Antiviral Agents pharmacology, Antiviral Agents chemistry, Zika Virus drug effects, Seaweed chemistry, Virus Replication drug effects

Abstract

Introduction: Zika virus (ZIKV) is a flavivirus transmitted through the bites of infected Aedes mosquitoes. These viruses can also be transmitted through sexual contact, vertical transmission, and possibly transfusion. Most cases are asymptomatic, but symptoms can include rash, conjunctivitis, fever, and arthralgia, which are characteristic of other arboviruses. Zika infection can lead to complications such as microcephaly, miscarriage, brain abnormalities, and Guillain-Barré syndrome (GBS)., Objective: The aim is to determine the inhibitory potential of the algae Kappaphycus alvarezii (K. alvarezii) on ZIKV replication., Methodology: Cytotoxicity experiments were performed using Vero cells to determine the CC 50 , and ZIKV replication inhibition assays (ATCC ® VR-1839™) were conducted to determine the EC 50 . The mechanism of action was also studied to assess any synergistic effect with Ribavirin., Results: K. alvarezii demonstrated low toxicity with a CC 50 of 423 μg/mL and a potent effect on ZIKV replication with an EC 50 of 0.65 μg/mL and a Selectivity Index (SI) of 651, indicating the extract's safety. Virucidal effect assays were carried out to evaluate the possible mechanism of action, and the compound addition time was studied, showing the potential to delay the treatment of infected cells by up to 6 hours. A potential synergistic effect was observed when K. alvarezii extract was combined with suboptimal concentrations of Ribavirin, resulting in 99% inhibition of viral replication., Conclusion: Our data demonstrate the significant potential of K. alvarezii extract and highlight the need for further studies to investigate its mechanism of action. We propose this extract as a potential anti-Zika compound., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

5. Antiviral Activity of Zinc Finger Antiviral Protein (ZAP) in Different Virus Families.

Author

de Andrade KQ and Cirne-Santos CC

Abstract

The CCCH-type zinc finger antiviral protein (ZAP) in humans, specifically isoforms ZAP-L and ZAP-S, is a crucial component of the cell's intrinsic immune response. ZAP acts as a post-transcriptional RNA restriction factor, exhibiting its activity during infections caused by retroviruses and alphaviruses. Its function involves binding to CpG (cytosine-phosphate-guanine) dinucleotide sequences present in viral RNA, thereby directing it towards degradation. Since vertebrate cells have a suppressed frequency of CpG dinucleotides, ZAP is capable of distinguishing foreign genetic elements. The expression of ZAP leads to the reduction of viral replication and impedes the assembly of new virus particles. However, the specific mechanisms underlying these effects have yet to be fully understood. Several questions regarding ZAP's mechanism of action remain unanswered, including the impact of CpG dinucleotide quantity on ZAP's activity, whether this sequence is solely required for the binding between ZAP and viral RNA, and whether the recruitment of cofactors is dependent on cell type, among others. This review aims to integrate the findings from studies that elucidate ZAP's antiviral role in various viral infections, discuss gaps that need to be filled through further studies, and shed light on new potential targets for therapeutic intervention.

Published

2023

6. Chloroquinolone Carboxamide Derivatives as New Anti-HSV-1 Promising Drugs.

Author

Souza M, de Melo CPP, Faro LV, Fragel-Madeira L, Giongo V, Abreu PA, da Costa Santos Boechat F, de Oliveira Silva D, de Carvalho Tolentino NM, Cirne-Santos CC, de Souza Barros C, Castro HC, de Souza MC, de Souza MCBV, and de Palmer Paixão ICN

Subjects

Herpesvirus 2, Human physiology, Acyclovir pharmacology, Acyclovir therapeutic use, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, Virus Replication, Herpesvirus 1, Human physiology

Abstract

Background: Since the emergence of HSV resistant strains, new antiviral agents have emerged and still are urgently needed, especially those with alternative targets., Objective: In this work, we evaluated new quinolone derivatives as anti-HSV., Methods: For this study, cells were infected and treated with different components to evaluate the profile of HSV replication in vitro. In addition, studies were performed to determine the pharmacokinetic toxicity and profile of the compound., Results: Indeed the EC 50 values of these promising molecules ranged between 8 μM and 32 μM. We have also showed that all compounds inhibited the expression of ICP27 viral proteins, which gives new insights in the search for new target for antiherpetic therapy. Chlorine in positions C6 and phosphonate in position C1 have shown to be important for viral inhibition. The chloroquinolone carboxamide derivatives fulfilled "Lipinsky Rule of Five" for good oral bioavailability and showed higher intestinal absorption and blood brain barrier penetration, as well as lower toxicity profile., Conclusion: Although the inhibition activities of chloroquinolone carboxamide derivatives were lower than acyclovir, they showed different modes of action in comparison to the drugs currently available. These findings encourage us to continue pre-clinical studies for the development of new anti-HSV-1 agents., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2023

7. In vitro antiviral activity against Zika virus from a natural product of the Brazilian red seaweed Bryothamnion triquetrum.

Author

Cirne-Santos CC, de S Barros C, Rabelo VW, Esteves PO, Gomes MWL, Teixeira VL, and de P Paixão ICN

Subjects

Animals, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, Chlorocebus aethiops, Humans, Infant, Newborn, Vero Cells, Virus Replication, Biological Products pharmacology, Biological Products therapeutic use, Rhodophyta, Seaweed, Zika Virus, Zika Virus Infection drug therapy

Abstract

Zika virus (ZIKV) is an arthropod-borne flavivirus that reemerged in 2007 and, since then, has caused several outbreaks and spread to over 80 countries worldwide. Along with this, ZIKV infections have been associated with severe clinical outcomes, including neurological manifestations, especially in newborns, posing a major threat to human health. However, there are no licensed vaccines or specific antiviral agents available yet; thereby, there is an urgent need for the discovery of novel therapeutic strategies to fight this infection. In this context, seaweeds are proven sources of biologically relevant products, including antiviral ones, that remain poorly explored. Herein, we evaluated the antiviral potential of the dichloromethane extract of the red seaweed Bryotamnion triquetrum against ZIKV. MTT assay was carried out to evaluate the extract's toxicity in Vero cells, while standard plaque assays were performed for viral titer quantification in the antiviral assays. The B. triquetrum extract possessed great inhibitory activity on the ZIKV replication in Vero cells, with an EC50 of 1.38 µg/ml and a higher selectivity index than ribavirin (289.85 and 75.20, respectively), a licensed antiviral drug. The investigation of its mechanism of action revealed a moderate virucidal effect while it strongly impaired virus replication at both early and late steps of the virus replication cycle with moderate inhibition at the attachment stage. Finally, the B. triquetrum extract presented a remarkable synergistic effect with ribavirin at suboptimal concentrations, which also highlights the promising antiviral potential of this product as a drug candidate to combat ZIKV infection. Keywords: Rhodophyta; Algae; arbovirus; antiviral; Zika.

Published

2021

8. In vitro Studies on The Inhibition of Replication of Zika and Chikungunya Viruses by Dolastane Isolated from Seaweed Canistrocarpus cervicornis.

Author

Cirne-Santos CC, de Souza Barros C, de Oliveira MC, Rabelo VW, Azevedo RC, Teixeira VL, Ferreira DF, and de Palmer Paixão ICN

Subjects

Animals, Antiviral Agents chemistry, Chikungunya Fever virology, Chikungunya virus physiology, Chlorocebus aethiops, Humans, Plant Extracts chemistry, Vero Cells, Zika Virus physiology, Zika Virus Infection virology, Antiviral Agents pharmacology, Chikungunya virus drug effects, Phaeophyceae chemistry, Plant Extracts pharmacology, Seaweed chemistry, Virus Replication drug effects, Zika Virus drug effects

Abstract

The lack of vaccines and antiviral treatment, along with the increasing number of cases of Zika virus (ZIKV) and Chikungunya virus (CHIKV) infections, emphasize the need for searching for new therapeutic strategies. In this context, the marine brown seaweed Canistrocarpus cervicornis has been proved to hold great antiviral potential. Hence, the aim of this work was to evaluate the anti-ZIKV and anti-CHIKV activity of a marine dolastane isolated from brown seaweed C. cervicornis and its crude extract. Vero cells were used in antiviral assays, submitted to ZIKV and CHIKV, and treated with different concentrations of C. cervicornis extract or dolastane. The crude extract of C. cervicornis showed inhibitory activities for both ZIKV and CHIKV, with EC 50 values of 3.3 μg/mL and 3.1 μg/mL, respectively. However, the isolated dolastane showed a more significant and promising inhibitory effect (EC 50  = 0.95 µM for ZIKV and 1.3 µM for CHIKV) when compared to both the crude extract and ribavirin, which was used as control. Also, the dolastane showed a very potent virucidal activity against CHIKV and was able to inhibit around 90% of the virus infectivity at 10 μM. For the ZIKV, the effects were somewhat lower, although interesting, at approximately 64% in this same concentration. Further, we observed that both the extract and the dolastane were able to inhibit the replication of ZIKV and CHIKV at different times of addition post-infection, remaining efficient even if added after 8 hours post-infection, but declining soon after. A synergistic effect using sub-doses of the extract and isolates was associated with ribavirin, inhibiting above 80% replication even at the lowest concentrations. Therefore, this work has unveiled the anti-ZIKV and CHIKV potential of C. cervicornis crude extract and an isolated dolastane, which, in turn, can be used as a preventive or therapeutic strategy in the future.

Published

2020

9. Quinolone-N-acylhydrazone hybrids as potent Zika and Chikungunya virus inhibitors.

Author

Marra RKF, Kümmerle AE, Guedes GP, Barros CS, Gomes RSP, Cirne-Santos CC, Paixão ICNP, and Neves AP

Subjects

Animals, Chlorocebus aethiops, Humans, Quinolones pharmacology, Chikungunya virus drug effects, Quinolones therapeutic use, Zika Virus drug effects

Abstract

This work reports the synthesis of quinolone-N-acylhydrazone hybrids, namely 6-R-N'-(2-hydxoxybenzylidene)-4-oxo-1,4-dihydroquinoline-3-carbohydrazide (R = H: 5a, F: 5b, Cl: 5c and Br: 5d), which exhibited excellent activity against arbovirus Zika (ZIKV) and Chikungunya (CHIKV). In vitro screening towards ZIKV and CHIKV inhibition revealed that all substances have significant antiviral activity, most of them being more potent than standard Ribavirin (5a-d: EC 50  = 0.75-0.81 μM, Ribavirin: EC 50  = 3.95 μM for ZIKV and 5a-d: 1.16-2.85 μM, Ribavirin: EC 50  = 2.42 μM for CHIKV). The quinolone-N-acylhydrazone hybrids were non-toxic against Vero cells, in which compounds 5c and 5d showed the best selectivities (SI = 1410 and 630 against ZIKV and CHIKV, respectively). Antiviral activity was identified by inhibition of viral RNA production in a dose-dependent manner. In the evaluation of the time of addition of the compounds, we observed that 5b and 5c remain with strong effect even in the addition for 12 h after infection. The above results indicate that quinolone-N-acylhydrazones represent a new and promising class to be further investigated as anti-ZIKV and anti-CHIKV agents., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

10. Inhibition by Marine Algae of Chikungunya Virus Isolated From Patients in a Recent Disease Outbreak in Rio de Janeiro.

Author

Cirne-Santos CC, Barros CS, Nogueira CCR, Azevedo RC, Yamamoto KA, Meira GLS, de Vasconcelos ZFM, Ratcliffe NA, Teixeira VL, Schmidt-Chanasit J, Ferreira DF, and Paixão ICNP

Abstract

Chikungunya virus (CHIKV) infection is one of the most challenging re-emergent diseases caused by a virus, and with no specific antiviral treatment it has now become a major public health concern. In this investigation, 25 blood samples were collected from patients with characteristic CHIKV symptoms and submitted to a virus isolation protocol, which detected 3 CHIKV isolates. These samples were evaluated by sequencing for the characterization of the strains and any homology to viruses circulating in Brazil during a recent outbreak. These viruses were used for the development of antiviral assays. Subsequently, the inhibitory effects of seaweed extracts on CHIKV replication were studied. The marine species of algae tested were Bryothamnion triquetrum, Caulerpa racemosa, Laurencia dendroidea, Osmundaria obtusiloba , Ulva fasciata , and Kappaphycus alvarezii , all of which are found in different countries including Brazil. The results revealed high levels of CHIKV inhibition, including extracts of O. obtusiloba with inhibition values of 1.25 μg/mL and a selectivity index of 420. Viral inhibition was dependent on the time of addition of extract of O. obtusiloba to the infected cells, with the optimal inhibition occurring up to 16 h after infection. Neuron evaluations with O. obtusiloba were performed and demonstrated low toxicity, and in infected neurons we observed high inhibitory activity in a dose-dependent manner. These results indicate that the algal extracts may be promising novel candidates for the development of therapeutic agents against CHIKV infections., (Copyright © 2019 Cirne-Santos, Barros, Nogueira, Azevedo, Yamamoto, Meira, Vasconcelos, Ratcliffe, Teixeira, Schmidt-Chanasit, Ferreira and Paixão.)

Published

2019

11. Detection and characterization of a novel rhabdovirus in Aedes cantans mosquitoes and evidence for a mosquito-associated new genus in the family Rhabdoviridae.

Author

Shahhosseini N, Lühken R, Jöst H, Jansen S, Börstler J, Rieger T, Krüger A, Yadouleton A, de Mendonça Campos R, Cirne-Santos CC, Ferreira DF, Garms R, Becker N, Tannich E, Cadar D, and Schmidt-Chanasit J

Subjects

Amino Acid Sequence, Animals, Evolution, Molecular, Genetic Variation, Genome, Viral, Metagenome, Metagenomics methods, Open Reading Frames, Phylogeny, Phylogeography, Sequence Analysis, DNA, Whole Genome Sequencing, Aedes virology, Mosquito Vectors virology, Rhabdoviridae classification, Rhabdoviridae genetics

Abstract

Thanks to recent advances in random amplification technologies, metagenomic surveillance expanded the number of novel, often unclassified viruses within the family Rhabdoviridae. Using a vector-enabled metagenomic (VEM) tool, we identified a novel rhabdovirus in Aedes cantans mosquitoes collected from Germany provisionally named Ohlsdorf virus (OHSDV). The OHSDV genome encodes the canonical rhabdovirus structural proteins (N, P, M, G and L) with alternative ORF in the P gene. Sequence analysis indicated that OHSDV exhibits a similar genome organization and characteristics compared to other mosquito-associated rhabdoviruses (Riverside virus, Tongilchon virus and North Creek virus). Complete L protein based phylogeny revealed that all four viruses share a common ancestor and form a deeply rooted and divergent monophyletic group within the dimarhabdovirus supergroup and define a new genus, tentatively named Ohlsdorfvirus. Although the Ohlsdorfvirus clade is basal within the dimarhabdovirus supergroup phylogeny that includes genera of arthropod-borne rhabdoviruses, it remains unknown if viruses in the proposed new genus are vector-borne pathogens. The observed spatiotemporal distribution in mosquitoes suggests that members of the proposed genus Ohlsdorfvirus are geographically restricted/separated. These findings increase the current knowledge of the genetic diversity, classification and evolution of this virus family. Further studies are needed to determine the host range, transmission route and the evolutionary relationships of these mosquito-associated viruses with those infecting vertebrates., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

12. Thieno[2,3-b]pyridine derivatives: a new class of antiviral drugs against Mayaro virus.

Author

Amorim R, de Meneses MDF, Borges JC, da Silva Pinheiro LC, Caldas LA, Cirne-Santos CC, de Mello MVP, de Souza AMT, Castro HC, de Palmer Paixão ICN, Campos RM, Bergmann IE, Malirat V, Bernardino AMR, Rebello MA, and Ferreira DF

Subjects

Animals, Chlorocebus aethiops, Humans, Pyridines chemical synthesis, Pyridines chemistry, Pyridines toxicity, Thiophenes chemical synthesis, Thiophenes chemistry, Thiophenes toxicity, Vero Cells, Virus Replication drug effects, Alphavirus drug effects, Antiviral Agents chemistry, Antiviral Agents pharmacology, Pyridines pharmacology, Thiophenes pharmacology

Abstract

Mayaro virus (MAYV) is an arthropod-borne virus and a member of the family Togaviridae, genus Alphavirus. Its infection leads to an acute illness accompanied by long-lasting arthralgia. To date, there are no antiviral drugs or vaccines against infection with MAYV and resources for the prevention or treatment of other alphaviruses are very limited. MAYV has served as a model to study the antiviral potential of several substances on alphavirus replication. In this work we evaluated the antiviral effect of seven new derivatives of thieno[2,3-b]pyridine against MAYV replication in a mammalian cell line. All derivatives were able to reduce viral production effectively at concentrations that were non-toxic for Vero cells. Molecular modeling assays predicted low toxicity risk and good oral bioavailability of the substances in humans. One of the molecules, selected for further study, demonstrated a strong anti-MAYV effect at early stages of replication, as it protected pre-treated cells and also during the late stages, affecting virus morphogenesis. This study is the first to demonstrate the antiviral effect of thienopyridine derivatives on MAYV replication in vitro, suggesting the potential application of these substances as antiviral molecules against alphaviruses. Additional in vivo research will be needed to expand the putative therapeutic applications.

Published

2017

13. Semi-synthesis of oxygenated dolabellane diterpenes with highly in vitro anti-HIV-1 activity.

Author

Pardo-Vargas A, Ramos FA, Cirne-Santos CC, Stephens PR, Paixão ICP, Teixeira VL, and Castellanos L

Subjects

Anti-HIV Agents chemical synthesis, Anti-HIV Agents chemistry, Cell Line, Transformed, Dose-Response Relationship, Drug, Humans, Microbial Sensitivity Tests, Molecular Conformation, Structure-Activity Relationship, Anti-HIV Agents pharmacology, Diterpenes chemistry, HIV drug effects, Oxygen chemistry

Abstract

Research on dolabellane diterpenes of brown algae Dictyota spp. has shown that these diterpenoids have strong anti-HIV-1 activity, but there are not data about antiviral activity of dolabellane diterpenes isolated from octocorals, which are antipodes of those isolated from the brown algae. Dolabellanes 13-keto-1(R),11(S)-dolabella-3(E),7(E),12(18)-triene (1) and β-Araneosene (2) were isolated from the Caribbean octocoral Eunicea laciniata, and both showed low anti-HIV-1 activity and low toxicity. Since it was shown that oxygenated dolabellanes from algae have better anti-HIV-1 activity, in this work some derivatives of the main dolabellane of E. laciniata1 were obtained by epoxidation (3), epoxide opening (4), and allylic oxidation (5). The derivatives showed significant improvement in the anti-HIV-1potency (100-fold), being compounds 3 and 5 the most active ones. Their high antiviral activities, along with their low cytotoxicity, make them promissory antiviral compounds; and it is worth noting that the absolute configuration at the ring junction in the dolabellane skeleton does not seem to be determinant in the antiviral potency of these diterpeneoids., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

14. Dolabelladienols A-C, new diterpenes isolated from Brazilian brown alga Dictyota pfaffii.

Author

Pardo-Vargas A, de Barcelos Oliveira I, Stephens PR, Cirne-Santos CC, de Palmer Paixão IC, Ramos FA, Jiménez C, Rodríguez J, Resende JA, Teixeira VL, and Castellanos L

Subjects

Anti-HIV Agents chemistry, Anti-HIV Agents pharmacology, Diterpenes chemistry, Diterpenes pharmacology, HIV-1 drug effects, Magnetic Resonance Spectroscopy, Anti-HIV Agents isolation & purification, Diterpenes isolation & purification, Phaeophyceae metabolism

Abstract

The marine brown alga Dictyota pfaffii from Atol das Rocas, in Northeast Brazil is a rich source of dolabellane diterpene, which has the potential to be used in future antiviral drugs by inhibiting reverse transcriptase (RT) of HIV-1. Reexamination of the minor diterpene constituents yielded three new dolabellane diterpenes, (1R*,2E,4R*,7S,10S*,11S*,12R*)10,18-diacetoxy-7-hydroxy-2,8(17)-dolabelladiene (1), (1R*,2E,4R*,7R*,10S*,11S*,12R*)10,18-diacetoxy-7-hydroxy-2,8(17)-dolabelladiene (2), (1R*,2E,4R*,8E,10S*,11S,12R*)10,18-diacetoxy-7-hydroxy-2,8-dolabelladiene (3), termed dolabelladienols A-C (1-3) respectively, in addition to the known dolabellane diterpenes (4-6). The elucidation of the compounds 1-3 was assigned by 1D and 2D NMR, MS, optical rotation and molecular modeling, along with the relative configuration of compound 4 and the absolute configuration of 5 by X-ray diffraction. The potent anti-HIV-1 activities displayed by compounds 1 and 2 (IC50 = 2.9 and 4.1 μM), which were more active than even the known dolabelladienetriol 4, and the low cytotoxic activity against MT-2 lymphocyte tumor cells indicated that these compounds are promising anti-HIV-1 agents.

Published

2014

15. Oxoquinoline acyclonucleoside phosphonate analogues as a new class of specific inhibitors of human immunodeficiency virus type 1.

Author

Faro LV, de Almeida JM, Cirne-Santos CC, Giongo VA, Castello-Branco LR, Oliveira Ide B, Barbosa JE, Cunha AC, Ferreira VF, de Souza MC, Paixão IC, and de Souza MC

Subjects

Anti-HIV Agents chemical synthesis, Anti-HIV Agents toxicity, Humans, Phosphorous Acids chemical synthesis, Phosphorous Acids toxicity, Structure-Activity Relationship, Virus Replication drug effects, Anti-HIV Agents chemistry, HIV-1 drug effects, Nucleosides chemistry, Phosphorous Acids chemistry, Quinolones chemistry

Abstract

The emergence of a multidrug-resistant HIV-1 strain and the toxicity of anti-HIV-1 compounds approved for clinical use are the most significant problems facing antiretroviral therapies. Therefore, it is crucial to find new agents to overcome these issues. In this study, we synthesized a series of new oxoquinoline acyclonucleoside phosphonate analogues (ethyl 1-[(diisopropoxyphosphoryl)methyl]-4-oxo-1,4-dihydroquinoline-3-carboxylates 3a-3k), which contained different substituents at the C6 or C7 positions of the oxoquinoline nucleus and an N1-bonded phosphonate group. We subsequently investigated these compounds' in vitro inhibitory effects against HIV-1-infected peripheral blood mononuclear cells (PBMCs). The most active compounds were the fluoro-substituted derivatives 3f and 3g, which presented excellent EC(50) values of 0.4±0.2 μM (3f) and 0.2±0.005 μM (3g) and selectivity index values (SI) of 6240 and 14675, respectively., (Copyright © 2012. Published by Elsevier Ltd.)

Published

2012

16. Synthesis, antiviral activity and molecular modeling of oxoquinoline derivatives.

Author

Santos Fda C, Abreu P, Castro HC, Paixão IC, Cirne-Santos CC, Giongo V, Barbosa JE, Simonetti BR, Garrido V, Bou-Habib DC, Silva Dde O, Batalha PN, Temerozo JR, Souza TM, Nogueira CM, Cunha AC, Rodrigues CR, Ferreira VF, and de Souza MC

Subjects

Animals, Anti-HIV Agents chemistry, Anti-HIV Agents pharmacokinetics, Cell Survival drug effects, Chlorocebus aethiops, HIV Infections drug therapy, HIV-1 growth & development, Humans, Leukocytes, Mononuclear cytology, Leukocytes, Mononuclear drug effects, Leukocytes, Mononuclear virology, Models, Molecular, Molecular Structure, Quinolones chemistry, Quinolones pharmacokinetics, Structure-Activity Relationship, Vero Cells, Anti-HIV Agents chemical synthesis, Anti-HIV Agents pharmacology, HIV-1 drug effects, Quinolones chemical synthesis, Quinolones pharmacology

Abstract

In the present article, we describe the synthesis, anti-HIV1 profile and molecular modeling evaluation of 11 oxoquinoline derivatives. The structure-activity relationship analysis revealed some stereoelectronic properties such as LUMO energy, dipole moment, number of rotatable bonds, and of hydrogen bond donors and acceptors correlated with the potency of compounds. We also describe the importance of substituents R(2) and R(3) for their biological activity. Compound 2j was identified as a lead compound for future investigation due to its: (i) high activity against HIV-1, (ii) low cytotoxicity in PBMC, (iii) low toxic risks based on in silico evaluation, (iv) a good theoretical oral bioavailability according to Lipinski 'rule of five', (v) higher druglikeness and drug-score values than current antivirals AZT and efavirenz.

Published

2009

17. Anti-HSV-1 and anti-HIV-1 activity of gallic acid and pentyl gallate.

Author

Kratz JM, Andrighetti-Fröhner CR, Kolling DJ, Leal PC, Cirne-Santos CC, Yunes RA, Nunes RJ, Trybala E, Bergström T, Frugulhetti IC, Barardi CR, and Simões CM

Subjects

Animals, Anti-HIV Agents pharmacology, Cattle, Chlorocebus aethiops, Humans, Leukocytes, Mononuclear drug effects, Vero Cells, Virus Replication drug effects, Antiviral Agents pharmacology, Gallic Acid analogs & derivatives, Gallic Acid pharmacology, HIV-1 drug effects, Herpesvirus 1, Human drug effects

Abstract

The synthetic n-alkyl esters of gallic acid (GA), also known as gallates, especially propyl, octyl and dodecyl gallates, are widely employed as antioxidants by food and pharmaceutical industries. The inhibitory effects of GA and 15 gallates on Herpes Simplex Virus type 1 (HSV-1) and Human Immunodeficiency Virus (HIV-1) replication were investigated here. After a preliminary screening of these compounds, GA and pentyl gallate (PG) seemed to be the most active compounds against HSV-1 replication and their mode of action was characterized through a set of assays, which attempted to localize the step of the viral multiplication cycle where impairment occurred. The detected anti-HSV-1 activity was mediated by the inhibition of virus attachment to and penetration into cells, and by virucidal properties. Furthermore, an anti-HIV-1 activity was also found, to different degrees. In summary, our results suggest that both compounds could be regarded as promising candidates for the development of topical anti-HSV-1 agents, and further studies concerning the anti-HIV-1 activity of this group of molecules are merited.

Published

2008

18. The compound 6-chloro-1,4-dihydro-4-oxo-1-(beta-D-ribofuranosyl) quinoline-3-carboxylic acid inhibits HIV-1 replication by targeting the enzyme reverse transcriptase.

Author

Souza TM, Cirne-Santos CC, Rodrigues DQ, Abreu CM, Tanuri A, Ferreira VF, Marques IP, de Souza MC, Fontes CF, Frugulhetti IC, and Bou-Habib DC

Subjects

Cell Survival drug effects, DNA Replication drug effects, Dose-Response Relationship, Drug, Drug Therapy, Combination, HIV Infections virology, HIV-1 enzymology, HIV-1 genetics, HIV-1 physiology, Humans, Macrophages virology, Anti-HIV Agents pharmacology, HIV Infections drug therapy, HIV Reverse Transcriptase antagonists & inhibitors, HIV-1 drug effects, Quinolines pharmacology, Reverse Transcriptase Inhibitors pharmacology, Ribonucleosides pharmacology, Virus Replication drug effects

Abstract

We describe in this paper that the chloroxoquinolinic ribonucleoside 6-chloro-1,4-dihydro-4-oxo-1-(beta-D-ribofuranosyl)-quinoline-3-carboxylic acid (compound A) inhibits the HIV-1 replication in human primary cells. We initially observed that compound A inhibited HIV-1 infection in peripheral blood mononuclear cells (PBMCs) in a dose-dependent manner, resulting in an EC(50) of 1.5 +/- 0.5 microM and in a selective index of 1134. Likewise, compound A blocked HIV-1(BA-L) replication in macrophages in a dose-dependent manner, with an EC(50) equal to 4.98 +/- 0.9 microM. The replication of HIV-1 isolates from subtypes C and F was also inhibited by compound A with the same efficiency. Compound A inhibited an early event of the HIV-1 replicative cycle, since it prevented viral DNA synthesis in PBMCs exposed to HIV-1. Kinetic assays demonstrated that compound A inhibits the HIV-1 enzyme reverse transcriptase (RT) in dose-dependent manner, with a K(I) equal to 0.5 +/- 0.04 microM. Using a panel of HIV-1 isolates harboring NNRTI resistance mutations, we found a low degree of cross-resistance between compound A and clinical available NNRTIs. In addition, compound A exhibited additive effects with the RT inhibitors AZT and nevirapine, and synergized with the protease inhibitor atazanavir. Our results encourage continuous studies about the kinetic impact of compound A towards different catalytic forms of RT enzyme, and suggest that our nucleoside represents a promising molecule for future antiretroviral drug design.

Published

2008

19. The dolabellane diterpene Dolabelladienetriol is a typical noncompetitive inhibitor of HIV-1 reverse transcriptase enzyme.

Author

Cirne-Santos CC, Souza TM, Teixeira VL, Fontes CF, Rebello MA, Castello-Branco LR, Abreu CM, Tanuri A, Frugulhetti IC, and Bou-Habib DC

Subjects

Drug Combinations, Drug Resistance, Viral, HIV-1 genetics, HIV-1 metabolism, Humans, Kinetics, Leukocytes, Mononuclear metabolism, Mutation, Proviruses drug effects, Proviruses metabolism, Virus Integration drug effects, Anti-HIV Agents pharmacology, Diterpenes pharmacology, HIV-1 drug effects, Leukocytes, Mononuclear virology, Reverse Transcriptase Inhibitors pharmacology

Abstract

We recently described that a dollabelane diterpene isolated from the marine algae Dictyota pfaffii (Dolabelladienetriol) inhibits the human immunodeficiency virus type 1 (HIV-1) enzyme reverse transcriptase (RT), and HIV-1 replication in primary cells. Based on these findings, we investigated additional antiretroviral properties of Dolabelladienetriol. Here, we describe that Dolabelladienetriol blocked the synthesis and integration of HIV-1 provirus and completely abrogated viral replication in primary cells. Also, studies of kinetic mode of action revealed that the Dolabelladienetriol is a nonnucleoside RT inhibitor (NNRTI), acting as a noncompetitive inhibitor, with a K(i) value equal to 7.2 microM. To assess whether Dolabelladienetriol could potentiate the anti-HIV-1 effects of other HIV-1 inhibitors, HIV-1-infected cells were treated with Dolabelladienetriol at its EC(50) dose plus sub-optimal concentrations of classical antiretrovirals. Dolabelladienetriol provided an additive effect with the nucleoside RT inhibitor AZT, and a synergistic effect with the protease inhibitor atazanavir sulphate. There was no increment of the anti-HIV-1 effect resulting from the combination between Dolabelladienetriol and the NNRTI nevirapine. Using a large panel of HIV-1 isolates harboring NNRTI resistance mutations, we found no cross-resistance between Dolabelladienetriol and clinical available NNRTIs. Thus, Dolabelladienetriol is an NNRTI, with potent activity against HIV-1 isolates carrying common NNRTI-associated resistance mutations. Dolabelladienetriol may be considered as a potential new agent for anti-HIV-1 therapy.

Published

2008

20. Anti-HIV-1 activity of the Iboga alkaloid congener 18-methoxycoronaridine.

Author

Silva EM, Cirne-Santos CC, Frugulhetti IC, Galvão-Castro B, Saraiva EM, Kuehne ME, and Bou-Habib DC

Subjects

Anti-HIV Agents administration & dosage, Anti-HIV Agents therapeutic use, Dose-Response Relationship, Drug, Humans, Ibogaine administration & dosage, Ibogaine therapeutic use, Leukocytes, Mononuclear virology, Plant Extracts administration & dosage, Plant Extracts pharmacology, Plant Extracts therapeutic use, Anti-HIV Agents pharmacology, HIV-1 drug effects, Ibogaine analogs & derivatives, Ibogaine pharmacology, Phytotherapy, Tabernaemontana

Abstract

The Iboga alkaloid congener 18-methoxycoronaridine (18-MC) exhibits in vitro leishmanicidal and in vivo anti-addiction properties. In this paper, we describe that 18-MC inhibits HIV-1 infection in human peripheral blood mononuclear cells (PBMCs) and monocyte-derived macrophages. We found that 18-MC inhibits the replication of primary isolates of HIV-1 in a dose-dependent manner, regardless of the preferential chemokine receptor usage of the isolates, at non-cell-toxic concentrations. The antiretroviral activity of 18-MC resulted in EC (50) values of 22.5 +/- 4.7 microM and 23 +/- 4.5 microM for R5 and X4 isolates, respectively, in PBMCs, and a therapeutic index (TI) of 14.5. Similar findings were observed for inhibition of HIV-1 replication in macrophages: EC (50) equal to 12.8 +/- 5 microM and 9.5 +/- 3 microM for an R5 virus after 14 and 21 days of infection, respectively, with TI equal to 25.6 and 34.5. 18-MC moderately inhibits the HIV-1 enzyme reverse transcriptase (IC (50) = 69.4 microM), which at least partially explains its antiretroviral activity.

Published

2004