Eduardo FP. Análise in vitro da fototerapia com lasers em baixa intensidade (660 nm e 780 nm) sobre a ação do vírus herpes tipo I em células epiteliais de macacos (Vero) [Tese de Doutorado]. São Paulo: Faculdade de Odontologia da USP; 2006. RESUMO / In vitro effect of phototherapy with low intensity laser (660 and 780 nm) on HSV-1 and monkey epithelial cells (Vero)

Fernanda de Paula Eduardo

09 May 2006

A fototerapia com lasers em baixa intensidade de lesões de herpes simples tem sido demonstrada clinicamente ora prevenindo a formação de vesículas, ora cicatrizando rapidamente as lesões e até aumentando o espaço de tempo entre o aparecimento dessas manifestações recorrentes. No entanto, os mecanismos básicos de ação dos lasers nessas situações são desconhecidos. Dessa forma, o objetivo do trabalho foi realizar ensaios in vitro utilizando células epiteliais em cultivo e culturas do vírus HSV-1 para estudar a interferência do laser em baixa intensidade na infecção do HSV-1. Material e Métodos: Culturas de vírus HSV-1 e de células epiteliais de macaco (linhagem Vero) infectadas ou não infectadas, crescidas em déficit nutricional (2 % de soro fetal bovino - sfb) foram utilizadas. As irradiações foram realizadas com um laser de GaAlAs (660 e 780 nm, área focal de 3,6 mm2). Uma, duas e três irradiações com intervalos de 6 h foram realizadas. Os grupos experimentais foram: Controle: não-irradiadas; 660 nm/ 3 J/cm2 (28 s); 660 nm/ 5 J/cm2 (38 s); 780 nm/ 3 J/cm2 (19 s) e, 780 nm/ 5 J/cm2 (25 s). Os efeitos citopáticos do HSV-1 e a viabilidade celular de culturas irradiadas e controles foram analisadas em 4 condições: 1) irradiação das células epiteliais não infectadas; 2) células epiteliais irradiadas antes da infecção; 3) irradiação dos vírus antes da infecção; 4) irradiação das células previamente infectadas pelo HSV-1. A viabilidade celular foi obtida pelo teste da redução do MTT e os efeitos citopáticos por observação em microscopia de luz. Resultados: A viabilidade celular de culturas irradiadas crescidas em déficit nutricional, independentemente do número de irradiações, foi sempre significantemente menor que aquela de culturas não-irradiadas e crescidas nas condições ideais de concentração de sfb (10 %). A viabilidade celular de culturas não infectadas foi similar em todos os grupos. O número de irradiações influenciou o crescimento celular positiva e proporcionalmente ao número de irradiações, exceto para o grupo 660 nm/ 3 J/cm2. Nenhuma diferença nos efeitos citopáticos foi observada entre os grupos, independentemente do número de irradiações nas 3 condições do estudo. A viabilidade celular de todos os grupos não mudou nem pela irradiação das células nem do vírus antes da inoculação nas células. A viabilidade de células infectadas antes da irradiação foi significantemente maior que o controle quando 2 irradiações foram realizadas. Conclusão: Nas condições deste estudo a radiação laser em baixa intensidade é capaz de aumentar o crescimento de células Vero crescidas em déficit, no entanto, não o suficiente para atingir o crescimento característico dessas células crescidas nas suas condições ideais. O número de irradiações influencia o crescimento das células de forma positiva e proporcional ao número de irradiações, exceto para o parâmetro 660 nm/ 3 J/cm2. A radiação laser não altera nem a susceptibilidade das células à infecção, nem a virulência do HSV-1. No entanto, ela prolonga a viabilidade das células infectadas pelo HSV-1. Efeitos positivos da fototerapia que tem sido relatados clinicamente parecem ser devido a efeitos no hospedeiro não relacionados com a replicação viral nas células infectadas. / Purpose: The clinical effects attributed to phototherapy relative to Herpes simplex lesions have included prevention of lesion formation, speeding the healing of lesions, and decreasing the frequency of recurrent lesions. The mechanisms underlying these findings have not been established yet. The aim of this in vitro study was to analyze the effect of phototherapy on epithelial cells, on HSV-1, and on infected epithelial cells in culture. Material and Methods: Cultures of HSV-1 and infected or non-infected monkey epithelial cells (Vero cell line) grown in deficient media (2 % fetal bovine serum-fbs) were used. The laser irradiation was delivered using a GaAlAs laser (660 and 780 nm, focal spot of 3.6 mm2). One, two and three irradiations with 6 hourintervals were done. The experimental groups were: Control: non-irradiated; 660 nm/3 J/cm2 (28 sec); 660 nm/5 J/cm2 (38 sec); 780 nm/3 J/cm2 (19 sec), and 780 nm/5 J/cm2 (25 sec). The HSV-1 cytopatic effects and the cell viability of irradiated cultures and controls were analyzed in four different conditions: 1) irradiation of noninfected epithelial cells; 2) epithelial cells irradiated prior infection; 3) virus irradiated prior infection; and 4) irradiation of HSV-1 infected cells. The cell viability was assessed by the reduction of the MTT test and the cytopatic effects by the light microscopy observation. Results: The cell viability of irradiated cultures grown in nutritional deficit, independently of the irradiation numbers, was always significantly smaller than that of non-irradiated cultures grown at the ideal serum concentration condition (10 %). The cell viability of non-infected cells was similar amongst the groups. The number of irradiations influenced the cell growth positively and proportionally to the number of irradiations, except for the 660 nm/3J/cm2 group. Any variation in cytopatic effects was observed amongst the experimental groups, independently of the irradiation numbers at the 3 conditions analyzed. The cell viability of all experimental groups were not altered either by irradiation of the cells or of the virus prior infection. The viability of infected cells prior irradiation was significantly higher than that of non-irradiated cultures when 2 irradiations were done. Conclusion: The experimental conditions for this study demonstrate that the phototherapy is capable of enhancing the growth of Vero cells grown under nutritional deficit conditions, however, not enough to reach the characteristic cell growth of cells grown at the ideal serum concentration condition. The number of irradiations influences the cell growth positive and proportionally, except when the parameter 660 nm and 3 J/cm2 was used. The laser radiation does not change either the susceptibility of the Vero cell to the HSV-1 infection or the HSV-1 virulence; however, prolongs the cell viability of HSV-1 infected cells. Positive benefits of phototherapy that have been reported clinically would appear to be due to host effects unrelated to viral replication in infected cells.

Células Vero

Diagnóstico bucal

Fototerapia

Herpes simples

Radiação laser

Herpes simplex

Laser radiation

Oral diagnosis

Phototherapy Phototherapy

Vero cells

Determining the Effect of HSP90 Inhibitor Geldanamycin on Herpes Simplex Virus Type-1 Production in Infected Vero Cells

Scherer, Brooklynn M.

30 April 2019

No description available.

Biology

Microbiology

Virology

Heat Shock Protein 90

HSP90

HSV1

Herpes Simplex Virus Type 1

Geldanamycin

Time Course Infection

Cell Culture

African Monkey Epithelial Cells

Vero Cells

Viral Inhibition

Illumination of the Golgi apparatus of Pathogenic and Nonpathogenic Naegleria species

Poe, Tyler M, Marciano-Cabral, Francine

01 January 2019

In this study, Naegleria fowleri, a pathogenic amoeba and the causative agent of Primary Amebic Meningoencephalitis (PAM), was utilized to determine the presence or absence of classically conserved Golgi molecules featured in the expression of a Golgi apparatus. Previous studies concluded no Golgi expression via light microscopy and transmission electron microscopy, but a recent report on Naegleria gruberi indicated the presence of dispersed Golgi tubules. Non-pathogenic species of the Naegleria genus such as Naegleria gruberi 30540 and Naegleria lovaniensis 30569 were utilized in Western immunoblot analysis compared to reduced whole-cell lysate proteins of two strains of N. fowleri and Vero CCL-81, Chlorocebus sp. kidney epithelial cells, which were utilized as a positive control for Golgi expression. N. fowleri and N. lovaniensis whole-cell lysates had indications of a 110 kDa reduced protein, associated with the predicted molecular weights of the beta-COPI subunit of the COPI cis-Golgi vesicular transport complex with further Western immunoblot indication of a weak band around 25 kDa corresponding to rabbit polyclonal antibodies specific for ARF1. Serial Dilutions of Wheat Germ Agglutinin Alexa Fluor 488TM were performed on Vero cells, Naegleria fowleri 30894, and N. gruberi 30540 with 1:100 dilution of recommended stock dilution of WGA 488 determined for utilization in sequential immunofluorescence. Sequential immunofluorescence with Wheat Germ Agglutinin Alexa Fluor 488TM and then blocked with 3% BSA:PBS [wt/vol] dilution with subsequent incubation in rabbit anti-beta-COPI primary 1:250, and 1:1000 of Alexa Fluor 594 goat anti-rabbit secondary antibody exposure showed strong indications of organized cis- and trans-punctate Golgi body markers in close association in individual and dividing cells of Naegleria fowleri and conserved Golgi expression in the positive control Vero cells, but further experiments are necessary to verify this finding with N. fowleri.

Naegleria fowleri

immunofluorescence

wheat germ agglutinin

golgi apparatus

Vero cells

Western immunoblots

Animals

Cell Biology

Cells

Diagnosis

Investigative Techniques

Microbial Physiology

Organismal Biological Physiology

Other Microbiology

Other Neuroscience and Neurobiology

Pathogenic Microbiology

Public Health Education and Promotion

Prevention of Respiratory Syncytial Virus Attachment Protein Cleavage in Vero Cells Rescues Infectivity of Progeny Virions for Primary Human Airway Cultures

Corry, Jacqueline D.

January 2015

No description available.

Biology

Biomedical Research

Microbiology

Molecular Biology

Virology

Respiratory syncytial virus

Attachment protein

Paramyxovirus

Vero cells

Cleavage

Cathepsin L

RSV

human airway epithelium

Virus

G protein

post-translational modification

vaccine

endocytic recycling

restriction factor

viral restriction

Criblage d’activités biologiques de plantes endémiques ou indigènes de La Réunion - Recherche de molécules antivirales ciblant le virus du chikungunya / Screening of biological activities of endemic or indigenous plants of La Réunion - Research of antiviral molecules targeting the chikungunya virus

Techer, Sophie

26 April 2013

Ce travail de thèse s'attache à identifier des plantes et/ou molécules à activités cytotoxique, antioxydante, anti-inflammatoire et antivirale ciblant le virus du chikungunya (CHIKV) dans le but de trouver des alternatives thérapeutiques vis-à-vis du stress oxydatif et de l'inflammation, mécanismes impliqués dans les maladies chroniques non transmissibles (diabète, obésité…), et de la maladie du chikungunya, maladie vectorielle réémergente. La première partie de ces travaux présente les résultats obtenus lors d'un criblage d'activités biologiques réalisé sur une sélection de dix-huit plantes endémiques et indigènes de La Réunion. Les activités ciblées ont été les activités cytotoxiques sur une lignée cellulaire humaine (cellules THP-1), les activités antioxydantes évaluées par un test in cellulo d'hémolyse et par quatre tests chimiques (TEAC/DPPH/FRAP/ORAC) ainsi qu'une évaluation de la teneur en composés phénoliques (test FOLIN) et les activités anti-inflammatoires testées sur des macrophages murins (cellules RAW-BlueTM). Les résultats obtenus ont permis de mettre, plus particulièrement, en évidence les activités de différents extraits : cytotoxique pour Carissa spinarum, antioxydantes pour Agarista buxifolia et Dryopteris wallichiana et anti-inflammatoire pour Stillingia lineata et Indigofera ammoxylum. La deuxième partie du travail est consacrée à l'étude phytochimique d'une espèce indigène de La Réunion, Stillingia lineata, choisie en raison des résultats obtenus lors de ce criblage biologique préliminaire et de ceux du programme Phytochik. Un fractionnement bioguidé par un test antiviral, réalisé sur des cellules Vero (cellules rénales de singe vert Cercopithecus aethiops) contaminées par le CHIKV, a conduit à l'isolement de trois macrocycles diterpéniques rares de type tonantzitlolone dont l'un présente une structure non caractérisée jusque-là, et d'un pimarane de structure nouvelle. La 4'-acétoxytonantzitlolone a été identifiée comme molécule candidate contre le CHIKV (CE50 = 7 μM). Des relations structure-activité ont pu être définies ; la présence d'un groupement oxygéné sur la chaîne latérale des tonantzitlolones semble jouer un rôle important sur la réponse antivirale de ces squelettes diterpéniques. / The aims of this PhD work were to identify plants and/or molecules with cytotoxic, antioxidant, anti-inflammatory or antiviral (chikungunya virus , CHIKV) activities in order to find therapeutic alternatives towards oxidative stress and inflammation, mechanisms involved in chronic noncommunicable diseases (diabetes, obesity ...), and chikungunya disease, reemerging vector-borne disease. The first part of this work presents the results obtained from a biological screening carried out on a selection of eighteen endemic and indigenous plants of La Réunion. The targeted activities were cytotoxicity on a human cell line (THP-1), antioxidant activities evaluated using an in cellulo hemolysis assay and four chemical tests (TEAC / DPPH / FRAP / ORAC) together with an evaluation of the content of phenolic compounds (FOLIN test) and anti-inflammatory activity tested in murine macrophages (RAW cells-BlueTM). The results allowed to highlight activities of different extracts in particular : cytotoxic for Carissa spinarum, antioxidant for Dryopteris wallichiana and Agarista buxifolia and anti-inflammatory for Stillingia lineata and Indigofera ammoxylum.The second part of this work is devoted to the phytochemical study of Stillingia lineata, an indigenous species of La Réunion chosen because of the results obtained in this preliminary biological screening and those carried out in Phytochik programme. Bioassay-guided fractionation performed on Vero cells (green monkey kidney cells Cercopithecus aethiops) infected with CHIKV led to the isolation of three rare macrocycle-type diterpenes called tonantzitlolone and a new pimarane. The 4'-acetoxytonantzitlolone was identified as a candidate molecule against CHIKV (EC50 = 7 μM). Structure-activity relationships have been defined, the presence of an oxygenated group on the side chain of tonantzitlolones seems to play an important role in the antiviral response of the diterpene skeleton.

Criblage

Cytotoxique

Cellules THP-1

Antioxydant

Hémolyse

Teac

Dpph

Frap

Orac

Folin

Anti-Inflammatoire

Cellules RAW-BlueTM

Antivira

Cellules Vero

Chikungunya

Stillingia lineata

Fractionnement bioguidé

Macrocycle

Tonantzitlolone

Pimarane

Screening

Cytotoxic

THP-1 cells

Antioxidant

Antioxidant

Teac

Dpph

Frap

Orac

Folin

Anti-Inflammatory

RAW-BlueTM cells

Antiviral

Vero cells

Chikungunya

Stillingia lineata

Bioassay-Guided fractionation

Macrocycle

Tonantzitlolone

Pimarane