Antiviral Profiling of C-18- or C-19-Functionalized Semisynthetic Abietane Diterpenoids

González-Cardenete, Miguel A.; Hamulić, Damir; Miquel-Leal, Francisco Javier; González-Zapata, Natalia; Jimenez-Jarava, Orlando J.; Brand, Yaneth M.; Restrepo-Mendez, Laura C.; Martínez-Gutiérrez, Marlen; Betancur‐Galvis, Liliana; Marín, María

doi:10.1021/acs.jnatprod.2c00464

Cited by 8 publications

(21 citation statements)

References 36 publications

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“…Some abietane diterpenes have shown antiviral activity, including ferruginol and carnosic acid. Carnosic acid inhibits HIV-1 virus and HIV-1 protease and shows the effect of human respiratory syncytial virus 44 . The diindolacetate 9 was the most active from our carnosic acid derivatives, with an EC 50 value of 15 µM toward HAdV-V.…”

Section: Discussionmentioning

confidence: 99%

Antiviral Effect of Natural and Semisynthetic Diterpenoids against Adenovirus Infection in vitro

et al. 2023

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The emergence and re-emergence of viruses has highlighted the need to develop new broad spectrum antivirals to mitigate human infections. Pursuing our search for new bioactive plant-derived molecules, we studied several diterpene derivatives synthesized from jatropholones A and B and carnosic acid isolated from Jatropha isabellei and Rosmarinus officinalis, respectively. Here, we investigated the antiviral effect of the diterpenes against human adenovirus (HAdV-5) that causes several infections for which there is no approved antiviral therapy yet. Ten compounds were evaluated and none of them presented cytotoxicity in A549 cells. Only compounds 2, 5 and 9 inhibited HAdV-5 replication in a concentration-dependent manner, without virucidal activity, whereas the antiviral action took place after virus internalization. The expression of viral proteins E1A and Hexon was strongly inhibited by compounds 2 and 5 and, in a lesser degree, by compound 9. Since compounds 2, 5 and 9 prevent ERK activation, they might exert their antiviral action by interfering host cell functions required for virus replication. Besides, the compounds had an anti-inflammatory profile since they significantly inhibited the levels of IL-6 and IL-8 produced by THP-1 cells infected with HAdV-5 or with an adenoviral vector. In conclusion, diterpenes 2, 5 and 9 not only exerted antiviral activity against adenovirus but also are able to restrain pro-inflammatory cytokines induced by the virus.

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Section: Discussionmentioning

confidence: 99%

Antiviral Effect of Natural and Semisynthetic Diterpenoids against Adenovirus Infection in vitro

et al. 2023

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“…It does inhibit in vitro infection by Zika virus in Vero [ 19 ], PC3, and HeLa cells at concentrations below 10 μM. Likewise, this molecule has antiviral activity in Vero cells infected with CHIKV (Alphavirus genus) [ 138 ]. Further unpublished studies related to the antiviral mechanism of action of this molecule strongly suggest that 18-(phthalimide-2-yl)-ferruginol has an HTA-related mechanism of action by disrupting the DENV-2 polyprotein translation via the alteration of actin remodeling and other related cellular and viral processes involved in the replicative complex formation.…”

Section: Ferruginol Analogs As Potential Host-targeted Antiviralmentioning

confidence: 99%

Host Cell Targets for Unconventional Antivirals against RNA Viruses

Roa-Linares

Escudero-Flórez

Vicente‐Manzanares

et al. 2023

Viruses

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The recent COVID-19 crisis has highlighted the importance of RNA-based viruses. The most prominent members of this group are SARS-CoV-2 (coronavirus), HIV (human immunodeficiency virus), EBOV (Ebola virus), DENV (dengue virus), HCV (hepatitis C virus), ZIKV (Zika virus), CHIKV (chikungunya virus), and influenza A virus. With the exception of retroviruses which produce reverse transcriptase, the majority of RNA viruses encode RNA-dependent RNA polymerases which do not include molecular proofreading tools, underlying the high mutation capacity of these viruses as they multiply in the host cells. Together with their ability to manipulate the immune system of the host in different ways, their high mutation frequency poses a challenge to develop effective and durable vaccination and/or treatments. Consequently, the use of antiviral targeting agents, while an important part of the therapeutic strategy against infection, may lead to the selection of drug-resistant variants. The crucial role of the host cell replicative and processing machinery is essential for the replicative cycle of the viruses and has driven attention to the potential use of drugs directed to the host machinery as therapeutic alternatives to treat viral infections. In this review, we discuss small molecules with antiviral effects that target cellular factors in different steps of the infectious cycle of many RNA viruses. We emphasize the repurposing of FDA-approved drugs with broad-spectrum antiviral activity. Finally, we postulate that the ferruginol analog (18-(phthalimide-2-yl) ferruginol) is a potential host-targeted antiviral.

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“…During our compound screening program designed to search for new antivirals derived from natural products, we discovered a broad-spectrum antiviral analog of the bioactive abietane-type diterpene ferruginol (1, Figure 1) [16,17], which we later named 12hydroxy-N,N-phthaloyldehydroabietylamine or 18-(phthalimid-2-yl)ferruginol (1a, henceforth abbreviated as phthFGL, Figure 1) based on the abietane carbon skeleton numbering (Figure 1) [18][19][20][21]. PhthFGL (1a) has exhibited relevant in vitro antiviral activity against herpes and dengue [18], Brazilian Zika strains [19], Colombian Zika and chikungunya strains [20], and very recently, against the human coronavirus 229E (HCoV-229E) [21]. With the aim of gaining insight into the possible mechanism of action of phthFGL, we previously carried out a basic computational study using a molecular docking approach [20].…”

Section: Introductionmentioning

confidence: 99%

“…PhthFGL (1a) has exhibited relevant in vitro antiviral activity against herpes and dengue [18], Brazilian Zika strains [19], Colombian Zika and chikungunya strains [20], and very recently, against the human coronavirus 229E (HCoV-229E) [21]. With the aim of gaining insight into the possible mechanism of action of phthFGL, we previously carried out a basic computational study using a molecular docking approach [20]. In that work, it was found that phthFGL has a good affinity for key viral targets, including chikungunya nonstructural protein 2 (nsP2), Zika and dengue virus NS5 methyltransferase, and herpesvirus thymidine kinase (TK) with a higher binding energy value than that of acyclovir itself [20].…”

Section: Introductionmentioning

confidence: 99%

“…With the aim of gaining insight into the possible mechanism of action of phthFGL, we previously carried out a basic computational study using a molecular docking approach [20]. In that work, it was found that phthFGL has a good affinity for key viral targets, including chikungunya nonstructural protein 2 (nsP2), Zika and dengue virus NS5 methyltransferase, and herpesvirus thymidine kinase (TK) with a higher binding energy value than that of acyclovir itself [20]. Additionally, like IVM, phthFGL showed features suggesting potential inhibition towards cellular therapeutic targets, as demonstrated by its high free energy value with G-Actin and tubulin [20,22].…”

Section: Introductionmentioning

confidence: 99%

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Synergistic In Vitro Antiviral Effect of Combinations of Ivermectin, Essential Oils, and 18-(Phthalimid-2-yl)ferruginol against Arboviruses and Herpesvirus

Betancur-Galvis,

Jimenez-Jarava,

Rivas

et al. 2023

Pharmaceuticals

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Combining antiviral drugs with different mechanisms of action can help prevent the development of resistance by attacking the infectious agent through multiple pathways. Additionally, by using faster and more economical screening methods, effective synergistic drug candidates can be rapidly identified, facilitating faster paths to clinical testing. In this work, a rapid method was standardized to identify possible synergisms from drug combinations. We analyzed the possible reduction in the antiviral effective concentration of drugs already approved by the FDA, such as ivermectin (IVM), ribavirin (RIBA), and acyclovir (ACV) against Zika virus (ZIKV), Chikungunya virus (CHIKV), and herpes virus type 2 (HHV-2). Essential oils (EOs) were also included in the study since they have been reported for more than a couple of decades to have broad-spectrum antiviral activity. We also continued studying the antiviral properties of one of our patented molecules with broad-spectrum antiviral activity, the ferruginol analog 18-(phthalimid-2-yl)ferruginol (phthFGL), which presented an IC99 of 25.6 μM for the three types of virus. In general, the combination of IVM, phthFGL, and oregano EO showed the greatest synergism potential against CHIKV, ZIKV, and HHV-2. For instance, this combination achieved reductions in the IC99 value of each component up to ~8-, ~27-, and ~12-fold for CHIKV, respectively. The ternary combination of RIBA, phthFGL, and oregano EO was slightly more efficient than the binary combination RIBA/phthFGL but much less efficient than IVM, phthFGL, and oregano EO, which indicates that IVM could contribute more to the differentiation of cell targets (for example via the inhibition of the host heterodimeric importin IMP α/β1 complex) than ribavirin. Statistical analysis showed significant differences among the combination groups tested, especially in the HHV-2 and CHIKV models, with p = 0.0098. Additionally, phthFGL showed a good pharmacokinetic profile that should encourage future optimization studies.

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Antiviral Profiling of C-18- or C-19-Functionalized Semisynthetic Abietane Diterpenoids

Cited by 8 publications

References 36 publications

Antiviral Effect of Natural and Semisynthetic Diterpenoids against Adenovirus Infection in vitro

Antiviral Effect of Natural and Semisynthetic Diterpenoids against Adenovirus Infection in vitro

Host Cell Targets for Unconventional Antivirals against RNA Viruses

Synergistic In Vitro Antiviral Effect of Combinations of Ivermectin, Essential Oils, and 18-(Phthalimid-2-yl)ferruginol against Arboviruses and Herpesvirus

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