Antiviral activity of maca (Lepidium meyenii) against human influenza virus

Del Valle Mendoza, Juana, Pumarola, Tomàs, Alzamora Gonzales, Libertad, Del Valle, Luis J.

20 November 2014

Objective: To investigate antiviral activity of maca to reduce viral load in kidney (MDCK) cells infected with influenza type A and B viruses (Flu-A and MFalud-inB-, Dreasrpbeyc ctiavneilny)e. Methods: Maca were extracted with methanol (1:2, v/v). The cell viability and toxicity of the eaxgtariancstts Fwluer-eA e avnaldu aFtleud- oBn v MirDusCeKs cwealsls a usssianyge dm uetshinogd aM TteTs ta sfosar yd. eAtenrtmiviinrainl ga ctthiev itiyn hoifb citoimonp oouf nthdes cytopathic effect on cell culture and multiplex RT-PCR. Results: The methanol extract of maca showed low cytotoxicity and inhibited influenza-induced cytopathic effect significantly, while viral load was reduced via inhibition of viral growth in MDCK infected cells. Maca contains potent inhibitors of Flu-A and Flu-B with a selectivity index [cytotoxic concentration 50%/IC50] of 157.4 and 110.5, respectively. Conclusions: In vitro assays demonstrated that maca has antiviral activity not only against Flu-A (like most antiviral agents) but also Flu-B viruses, providing remarkable therapeutic benefits. / Financial support of this study was provided by AECID grants (PCI: C/033641/10) and AGAUR (MAT2009-11503, MAT2012-36205, 2009SGR-1208). JDVM support was provided by 1st Concurso Incentivo a la Investigación de la Universidad Peruana de Ciencias Aplicadas, Lima, Peru. / Revisión por pares

Influenza virus flu

Antiviral activity

Lepidium meyenii

Maca

CD8+ T cell antiviral activity: mechanism of induction and the suppression of emerging feline immunodeficiency virus strains

Phadke, Anagha

17 September 2007

In the present studies, the essential role of inducer cells for the induction of soluble anti-viral activity against feline immunodeficiency virus (FIV) was investigated. Induction of suppression of FIV replication was found to not strictly require autologous cells and was probably not FIV specific. Suppression was maximum when the inducer cells and the effector CD8+ T cells were in contact with each other, suggesting a potential role for membrane antigen interactions and/or cytokines in the induction process. Additionally, flow cytometry analysis demonstrated a significant increase in the percentage of CD8+ B7-1+ T cells in the peripheral blood of chronically FIV infected cats as compared with uninfected cats. Examination of the FIV V3-V4 envelope sequences from PBMC, lymph nodes and spleen from six cats chronically infected from three to six years with the molecular clone of FIV-PPR did not demonstrate viral variants specific for the tissues examined, emphasizing the critical role of the initial diversity and virulence of the infecting virus inoculum. Additionally, in vitro CD8+ T cell antiviral activity demonstrated by four of the six cats could have led to the control of virus replication in vivo, resulting in the uniform viral variants observed. Infection of specific pathogen free cats with FIV-TX53, an FIV isolate that belongs to an emerging subtype more closely related to FIV clade B, demonstrated an acute stage infection characterized by lymphoadenopathy and a viral dose dependent decline of CD4+/CD8+ T cell ratios below 1 by 11 weeks post infection. Interestingly, an expansion of CD8 low population of CD8+ T cells was observed in the infected cats. The soluble antiviral activity generated from inducer T cell stimulated CD8+ T cells from FIV-A-PPR infected cats also suppressed in vitro replication of the emerging FIV-TX53 and FIV-TX078 isolates. This is the first report demonstrating that the CD8+ T cell antiviral activity is inter-clade effective among FIV strains. As the success of a FIV vaccine could be hampered by occurrence of highly divergent viral variants in the fields, the exploitation of this innate, soluble anti-FIV activity could contribute to the design of novel, safe and complementary anti-FIV therapeutic strategies.

Feline immunodeficiency virus

CD8+ T cells

Antiviral activity

CD8+ T cell antiviral activity: mechanism of induction and the suppression of emerging feline immunodeficiency virus strains

Phadke, Anagha

17 September 2007

In the present studies, the essential role of inducer cells for the induction of soluble anti-viral activity against feline immunodeficiency virus (FIV) was investigated. Induction of suppression of FIV replication was found to not strictly require autologous cells and was probably not FIV specific. Suppression was maximum when the inducer cells and the effector CD8+ T cells were in contact with each other, suggesting a potential role for membrane antigen interactions and/or cytokines in the induction process. Additionally, flow cytometry analysis demonstrated a significant increase in the percentage of CD8+ B7-1+ T cells in the peripheral blood of chronically FIV infected cats as compared with uninfected cats. Examination of the FIV V3-V4 envelope sequences from PBMC, lymph nodes and spleen from six cats chronically infected from three to six years with the molecular clone of FIV-PPR did not demonstrate viral variants specific for the tissues examined, emphasizing the critical role of the initial diversity and virulence of the infecting virus inoculum. Additionally, in vitro CD8+ T cell antiviral activity demonstrated by four of the six cats could have led to the control of virus replication in vivo, resulting in the uniform viral variants observed. Infection of specific pathogen free cats with FIV-TX53, an FIV isolate that belongs to an emerging subtype more closely related to FIV clade B, demonstrated an acute stage infection characterized by lymphoadenopathy and a viral dose dependent decline of CD4+/CD8+ T cell ratios below 1 by 11 weeks post infection. Interestingly, an expansion of CD8 low population of CD8+ T cells was observed in the infected cats. The soluble antiviral activity generated from inducer T cell stimulated CD8+ T cells from FIV-A-PPR infected cats also suppressed in vitro replication of the emerging FIV-TX53 and FIV-TX078 isolates. This is the first report demonstrating that the CD8+ T cell antiviral activity is inter-clade effective among FIV strains. As the success of a FIV vaccine could be hampered by occurrence of highly divergent viral variants in the fields, the exploitation of this innate, soluble anti-FIV activity could contribute to the design of novel, safe and complementary anti-FIV therapeutic strategies.

Feline immunodeficiency virus

CD8+ T cells

Antiviral activity

Análise química e avaliação da atividade antiviral de Baccharis anomala D.C. / Chemical analysis and antiviral activity evaluation of Baccharis anomala D.C

Venturi, Caroline Rita

January 2009

Ocorrências comuns de infecções virais graves, aparecimento de cepas resistentes e um limitado número de quimioterápicos antivirais disponíveis mostram a necessidade da busca por novas substâncias ativas como antivirais. Muitas substâncias derivadas de plantas são candidatas ao estudo do seu potencial na terapia sistêmica e/ou profilaxia de herpes simplex virus 1 (HSV-1). Dentre as plantas com atividade antiviral, destacam-se as do gênero Baccharis. O objetivo geral do trabalho foi o estudo da composição química e avaliação da atividade antiviral das folhas de Baccharis anomala D.C. através de fracionamento bioguiado. Utilizando precipitação com etanol e fracionamento por permeação molecular foi possível separar os constituintes químicos ativos contra o vírus HSV-1 presentes no extrato aquoso de Baccharis anomala. Os testes de prospecção de constituintes químicos indicaram a presença de taninos, catequinas e saponinas no extrato aquoso da espécie. Através da análise cromatográfica foi possível detectar a presença de compostos fenólicos, utilizando-se coloração com cloreto férrico e reagente natural. Em relação à atividade antiviral, a fração ativa denominada AQ PPT FR 4-5 apresentou pronunciada atividade antiviral, inibindo a replicação viral em 100 % nas concentrações de 1,25, 0,625, 0,312 e 0,156 mg/mL, contra as cepas ATCC-VR733 e Aciclovir-resistente 29-R do HSV-1. Em relação ao mecanismo de ação, observou-se atividade virucida da fração AQ PPT FR 4-5. Estes resultados são muito importantes, pois, de acordo com a literatura, ainda não foram relatados compostos com atividade virucida úteis clinicamente para o tratamento de infecções por HSV-1. Conclui-se, portanto, que Baccharis anomala possui potente atividade antiviral contra o vírus HSV-1 e é promissora para estudos posteriores que visem ao isolamento, identificação e estudo do mecanismo de ação antiviral de compostos ativos da espécie, considerando a emergência de cepas resistentes e a necessidade de compostos com novos mecanismos de ação. / Common occurrences of severe viral infections, emergence of resistant strains and a limited number of available antiviral chemotherapeutics show the need to search for new active substances as antiviral. Many compounds derived from plants are candidates for the study of their potential in systemic therapy and/or prophylaxis of herpes simplex virus type 1 (HSV-1). Among the plants with antiviral activity, those from the genus Baccharis are remarkable. The main objective of the work was the study of the chemical composition and evaluation of the antiviral activity of extracts from Baccharis anomala D.C., using bioactivity guided fractionation. Through precipitation with ethanol and fractionation by molecular permeation it was achieved the separation of the active chemical constituents against HSV-1 virus in the aqueous extract of Baccharis anomala. Phytochemical tests indicated the presence of tannins, catechins and saponins in the aqueous extract. By thin layer chromatography it was detected the presence of phenolic compounds using ferric chloride and natural reagent. Concerning the antiviral activity, the active fraction named AQ PPT FR 4-5 showed pronounced antiviral activity, represented by 100 % inhibition of viral replication at concentrations of 1.25, 0.625, 0.312 and 0.156 mg/mL, against the strains ATCC-VR733 and Acyclovir-resistant 29-R of HSV-1 virus. Regarding the mechanism of action, virucidal activity on the fraction AQ PPT FR 4-5 was detected, which is also very important because, as far as we know, compounds with virucidal activity for clinical use in the treatment of HSV-1 infections were not reported yet. In conclusion, Baccharis anomala displayed pronounced antiviral activity against HSV-1 virus and it is promising for further studies aimed to the isolation, identification and mechanism of action of antiviral active compounds of the species, considering the emergence of resistant strains and the need for compounds with new mechanisms of action.

Baccharis anomala

Atividade antiviral

Herpes simplex

Antiviral activity

Plant

Baccharis anomala

Herpes simplex virus

Análise química e avaliação da atividade antiviral de Baccharis anomala D.C. / Chemical analysis and antiviral activity evaluation of Baccharis anomala D.C

Venturi, Caroline Rita

January 2009

Ocorrências comuns de infecções virais graves, aparecimento de cepas resistentes e um limitado número de quimioterápicos antivirais disponíveis mostram a necessidade da busca por novas substâncias ativas como antivirais. Muitas substâncias derivadas de plantas são candidatas ao estudo do seu potencial na terapia sistêmica e/ou profilaxia de herpes simplex virus 1 (HSV-1). Dentre as plantas com atividade antiviral, destacam-se as do gênero Baccharis. O objetivo geral do trabalho foi o estudo da composição química e avaliação da atividade antiviral das folhas de Baccharis anomala D.C. através de fracionamento bioguiado. Utilizando precipitação com etanol e fracionamento por permeação molecular foi possível separar os constituintes químicos ativos contra o vírus HSV-1 presentes no extrato aquoso de Baccharis anomala. Os testes de prospecção de constituintes químicos indicaram a presença de taninos, catequinas e saponinas no extrato aquoso da espécie. Através da análise cromatográfica foi possível detectar a presença de compostos fenólicos, utilizando-se coloração com cloreto férrico e reagente natural. Em relação à atividade antiviral, a fração ativa denominada AQ PPT FR 4-5 apresentou pronunciada atividade antiviral, inibindo a replicação viral em 100 % nas concentrações de 1,25, 0,625, 0,312 e 0,156 mg/mL, contra as cepas ATCC-VR733 e Aciclovir-resistente 29-R do HSV-1. Em relação ao mecanismo de ação, observou-se atividade virucida da fração AQ PPT FR 4-5. Estes resultados são muito importantes, pois, de acordo com a literatura, ainda não foram relatados compostos com atividade virucida úteis clinicamente para o tratamento de infecções por HSV-1. Conclui-se, portanto, que Baccharis anomala possui potente atividade antiviral contra o vírus HSV-1 e é promissora para estudos posteriores que visem ao isolamento, identificação e estudo do mecanismo de ação antiviral de compostos ativos da espécie, considerando a emergência de cepas resistentes e a necessidade de compostos com novos mecanismos de ação. / Common occurrences of severe viral infections, emergence of resistant strains and a limited number of available antiviral chemotherapeutics show the need to search for new active substances as antiviral. Many compounds derived from plants are candidates for the study of their potential in systemic therapy and/or prophylaxis of herpes simplex virus type 1 (HSV-1). Among the plants with antiviral activity, those from the genus Baccharis are remarkable. The main objective of the work was the study of the chemical composition and evaluation of the antiviral activity of extracts from Baccharis anomala D.C., using bioactivity guided fractionation. Through precipitation with ethanol and fractionation by molecular permeation it was achieved the separation of the active chemical constituents against HSV-1 virus in the aqueous extract of Baccharis anomala. Phytochemical tests indicated the presence of tannins, catechins and saponins in the aqueous extract. By thin layer chromatography it was detected the presence of phenolic compounds using ferric chloride and natural reagent. Concerning the antiviral activity, the active fraction named AQ PPT FR 4-5 showed pronounced antiviral activity, represented by 100 % inhibition of viral replication at concentrations of 1.25, 0.625, 0.312 and 0.156 mg/mL, against the strains ATCC-VR733 and Acyclovir-resistant 29-R of HSV-1 virus. Regarding the mechanism of action, virucidal activity on the fraction AQ PPT FR 4-5 was detected, which is also very important because, as far as we know, compounds with virucidal activity for clinical use in the treatment of HSV-1 infections were not reported yet. In conclusion, Baccharis anomala displayed pronounced antiviral activity against HSV-1 virus and it is promising for further studies aimed to the isolation, identification and mechanism of action of antiviral active compounds of the species, considering the emergence of resistant strains and the need for compounds with new mechanisms of action.

Baccharis anomala

Atividade antiviral

Herpes simplex

Antiviral activity

Plant

Baccharis anomala

Herpes simplex virus

Análise química e avaliação da atividade antiviral de Baccharis anomala D.C. / Chemical analysis and antiviral activity evaluation of Baccharis anomala D.C

Venturi, Caroline Rita

January 2009

Ocorrências comuns de infecções virais graves, aparecimento de cepas resistentes e um limitado número de quimioterápicos antivirais disponíveis mostram a necessidade da busca por novas substâncias ativas como antivirais. Muitas substâncias derivadas de plantas são candidatas ao estudo do seu potencial na terapia sistêmica e/ou profilaxia de herpes simplex virus 1 (HSV-1). Dentre as plantas com atividade antiviral, destacam-se as do gênero Baccharis. O objetivo geral do trabalho foi o estudo da composição química e avaliação da atividade antiviral das folhas de Baccharis anomala D.C. através de fracionamento bioguiado. Utilizando precipitação com etanol e fracionamento por permeação molecular foi possível separar os constituintes químicos ativos contra o vírus HSV-1 presentes no extrato aquoso de Baccharis anomala. Os testes de prospecção de constituintes químicos indicaram a presença de taninos, catequinas e saponinas no extrato aquoso da espécie. Através da análise cromatográfica foi possível detectar a presença de compostos fenólicos, utilizando-se coloração com cloreto férrico e reagente natural. Em relação à atividade antiviral, a fração ativa denominada AQ PPT FR 4-5 apresentou pronunciada atividade antiviral, inibindo a replicação viral em 100 % nas concentrações de 1,25, 0,625, 0,312 e 0,156 mg/mL, contra as cepas ATCC-VR733 e Aciclovir-resistente 29-R do HSV-1. Em relação ao mecanismo de ação, observou-se atividade virucida da fração AQ PPT FR 4-5. Estes resultados são muito importantes, pois, de acordo com a literatura, ainda não foram relatados compostos com atividade virucida úteis clinicamente para o tratamento de infecções por HSV-1. Conclui-se, portanto, que Baccharis anomala possui potente atividade antiviral contra o vírus HSV-1 e é promissora para estudos posteriores que visem ao isolamento, identificação e estudo do mecanismo de ação antiviral de compostos ativos da espécie, considerando a emergência de cepas resistentes e a necessidade de compostos com novos mecanismos de ação. / Common occurrences of severe viral infections, emergence of resistant strains and a limited number of available antiviral chemotherapeutics show the need to search for new active substances as antiviral. Many compounds derived from plants are candidates for the study of their potential in systemic therapy and/or prophylaxis of herpes simplex virus type 1 (HSV-1). Among the plants with antiviral activity, those from the genus Baccharis are remarkable. The main objective of the work was the study of the chemical composition and evaluation of the antiviral activity of extracts from Baccharis anomala D.C., using bioactivity guided fractionation. Through precipitation with ethanol and fractionation by molecular permeation it was achieved the separation of the active chemical constituents against HSV-1 virus in the aqueous extract of Baccharis anomala. Phytochemical tests indicated the presence of tannins, catechins and saponins in the aqueous extract. By thin layer chromatography it was detected the presence of phenolic compounds using ferric chloride and natural reagent. Concerning the antiviral activity, the active fraction named AQ PPT FR 4-5 showed pronounced antiviral activity, represented by 100 % inhibition of viral replication at concentrations of 1.25, 0.625, 0.312 and 0.156 mg/mL, against the strains ATCC-VR733 and Acyclovir-resistant 29-R of HSV-1 virus. Regarding the mechanism of action, virucidal activity on the fraction AQ PPT FR 4-5 was detected, which is also very important because, as far as we know, compounds with virucidal activity for clinical use in the treatment of HSV-1 infections were not reported yet. In conclusion, Baccharis anomala displayed pronounced antiviral activity against HSV-1 virus and it is promising for further studies aimed to the isolation, identification and mechanism of action of antiviral active compounds of the species, considering the emergence of resistant strains and the need for compounds with new mechanisms of action.

Baccharis anomala

Atividade antiviral

Herpes simplex

Antiviral activity

Plant

Baccharis anomala

Herpes simplex virus

Preparation of Divalent and Trivalent Antigens for Immunogical Studies on Degranulation of Mast Cells and Preparation of Ceragenins for Antiviral Studies Against Vaccinia Virus.

Geng, Dianliang

20 December 2007

CHAPTER 1 Aggregation of receptors for IgE (Fc RI) causes mast cells and basophils to release preformed contents of granules, including histamine and a variety of enzymes. This process, called degranulation plays a central role in allergic reactions. Methods to study this process are to create multivalent ligands which can interact with the receptors and, in turn, lead to aggregation of the receptors. We prepared a series of fluorophore-labeled divalent and trivalent antigens to study the degranulation of mast cells. Trivalent antigens proved to be much better stimulators for degranulation of mast cells than divalent antigens. These results indicate that aggregates formed by trivalent antigens are more complicated than those of divalent antigens. CHAPTER 2 Membrane-active antibiotics include antimicrobial peptides (AMPs) and a class of amphiphilic steroids termed ceragenins. Recent studies of membrane-active antibiotics show that cationic, facially amphiphilic molecules could disrupt bacterial membranes. It was found recently that some antibiotics, including AMPs and ceragenins, may share both antibacterial and antiviral activity. We prepared a series of ceragenins to optimize the antiviral activity of ceragenins against vaccinia virus (VV). The results show that ceragenins exhibit potent activity against VV, protect keratinocytes against VV-mediated cell death, and preferentially target the virus. It also shows that antibacterial and antiviral activities do not correlate with each other. Although ceragenins show good antiviral activity against VV, the mechanism for this activity still remains unclear.

Degranulation

Atigens

Mast Cells

Vaccinia Virus

Ceragenins

Antiviral Activity

Biochemistry

Chemistry

Membrane insertion and secretion of the Engrailed-2 (EN2) transcription factor by prostate cancer cells may induce antiviral activity in the stroma

Punia, N., Primon, Monika, Simpson, G.R., Pandha, H.S., Morgan, Richard

26 March 2019

Yes / Engrailed-2 (EN2) is a homeodomain-containing transcription factor that has roles in boundary formation and neural guidance in early development, but which is also expressed in a range of cancers. In addition to transcriptional regulation, it is secreted by cells and taken up by others through a mechanism that is yet to be fully elucidated. In this study, the distribution of EN2 protein in cells was evaluated using immunofluorescence with a set of antibodies raised against overlapping epitopes across the protein, and through the use of an EN2-GFP construct. MX2 expression in primary prostate tumors was evaluated using immunohistochemistry. We showed that EN2 protein is present in the cell membrane and within microvesicles that can be secreted from the cell and taken up by others. When taken up by normal cells from the stroma EN2 induces the expression of MX2 (MxB), a protein that has a key role in the innate immune response to viruses. Our findings indicate that EN2 secretion by tumors may be a means of preventing viral-mediated immune invasion of tissue immediately adjacent to the tumor. / The Ringrose Family Trust supported this study through a studentship awarded to N.P.

Engrailed-2 (EN2)

Secretion

Prostate cancer cells

Antiviral activity

Stroma

Production d'extraits aqueux à partir d'Ulva sp, au moyen de procédés d'hydrolyse enzymatique : caractérisatin, valorisation et perspectives de développement. / Production of water soluble extracts from Ulva sp. using enzymatic hydrolysis processes : characterization, upgrading and potential development

Hardouin, Kévin

30 June 2015

Ces travaux de thèse CIFRE, réalisés au sein du Laboratoire de Biotechnologie et Chimie Marines de l’Université de Bretagne-Sud et du Groupe Olmix, s’inscrivent dans le cadre d’un projet national de valorisation de biomasses d’algues vertes, le projet ULVANS. Ce projet est le fruit d’une collaboration entre cinq industriels bretons et deux laboratoires universitaires. Les objectifs de ces travaux de thèse concernent i) la caractérisation approfondie de la matière première, en particulier des polysaccharides matriciels solubles (ulvanes) et des protéines, ii) la mise au point d’un procédé d’extraction assistée par enzymes des métabolites algaux, iii) la caractérisation biochimique et moléculaire des hydrolysats enzymatiques, avec pour objectif la compréhension de l’effet des enzymes commerciales sur les algues, iv) l’évaluation des activités antioxydantes et antivirales des hydrolysats, v) l’étude de l’influence des paramètres d’hydrolyse en vue de déterminer les conditions optimales pour l’extraction des métabolites d’intérêt et enfin vi) de conclure, à partir des éléments fournis par l’étude, sur la viabilité d’un tel procédé à l’échelle industrielle. En conclusion de ces travaux, l’hydrolyse enzymatique apparait comme un procédé intéressant pour le bioraffinage des algues vertes. Bien que les préparations enzymatiques commerciales utilisées ne soient pas spécifiques des composés algaux, les protéases ont conduit à une augmentation significative des rendements d’extraction, alors que l’effet des carbohydrases reste modéré. L’étude de l’influence des paramètres d’hydrolyses a confirmé les résultats préliminaires et montré que la température, la concentration d’enzyme et la méthode de broyage présentaient peu d’effets sur les activités des protéases testées. Un résultat majeur de cette étude aura été la mise en évidence d’activités anti-herpétiques dans les hydrolysats. La caractérisation des fractions actives a montré que les activités étaient liées à la présence de protéines ou glycoprotéines dans les extraits. Ce résultat présente un intérêt majeur car à l’heure actuelle, a priori, aucune activité de ce type n’a été identifiée chez Ulva sp. / This PhD Thesis works, conducted in the Laboratoire de Biotechnologie et Chimie Marines of the Université de Bretagne-Sud and in the Olmix Group, was included in a national project for the upgrading of green seaweed biomasses, the Ulvans project. This project results in the collaboration of five industrial companies and two academic research laboratories. The objectives of this thesis works had been i) the characterization of the raw material, particularly the soluble matrix polysaccharides (ulvans) and proteins, ii) the development of an enzyme-assisted extraction process of algal metabolites, iii) the biochemical and molecular characterization of the enzymatic hydrolyzates, with the aim of understanding the effect of enzymes on algae thallus, iv) the screening of antioxidant and antiviral activities of hydrolyzates, v) the study of the influence of hydrolysis parameters to determine the optimum conditions for the extraction of metabolites of interest and finally vi) to conclude, according to the results provided by this study, on the viability of the industrial upscaling of the process. In conclusion of this work, enzymatic hydrolysis appeared to be an effective process for biorefinery of green seaweeds. Although commercial enzymatic preparations were not specific of algal compounds, protéases led to a significant increase in the extraction yields, whereas the effect of carbohydrases were moderate. The study of hydrolysis parameters confirmed the preliminary results and showed that the temperature, the concentration of enzyme and the grinding method had no effect on the protease used. A major result of this study has been the highlighting of anti-oxidant and anti-herpetic compounds in hydrolyzates. The antiviral activity of ulvans had several times been demonstrated but the biochemical characterization of actives fractions showed that the activity could be associated to proteins or glycoproteins. This result is very interesting because, a priori, any antiviral activity has also been related to this type of compounds in Ulva sp.

Extraction-assistée par enzymes

Activité antivirale

Ulva armoricana

Carbohydrase

Protéase

Hydrolyse enzymatique

Enzyme-assisted extraction

Antiviral activity

Enzymatic hydrolysis

579.8

Acyklické nukleosidy 3-hydroxypyrazin-2-karboxamidových bází / Acyclic nucleosides of 3-hydroxypyrazine-2-carboxamide bases

Chaloupecká, Ema

January 2019

This thesis deals with the preparation of acyclic nucleosides and nucleoside phosphonates of compounds T-705 (6-fluoro-3-hydroxypyrazine-2-carboxamide) and T-1105 (3-hydroxypyrazine-2-carboxamide). Acyclic nucleoside phosphonates are substances that can terminate viral RNA or DNA replication, and some of them are used in the treatment of viral diseases. T-705 and T-1105 have shown activity against the influenza virus, and T-705 has already been approved for its treatment in Japan. Since both compounds mimic natural nucleobases in the body, their acyclic nucleosides and nucleoside phosphonates also have the potential to be biologically active. Methods for the synthesis of 3-fluoro-2-(phosphonomethoxy)propyl and 3-hydroxy-2-(phosphonomethoxy)propyl derivatives of T-705 and T-1105, their prodrugs containing lipophilic groups for the improvement of the pharmacokinetic properties and also their phosphonate diphosphates, suitable for the biological activity measurements, have been proposed. Some of these derivatives were subsequently prepared. Key words: acyclic nucleosides, acyclic nucleoside phosphonates, T-705, T-1105, favipiravir, antiviral activity, influenza