ESTUDO DOS NÍVEIS SÉRICOS DE ÁCIDO SIÁLICO EM MODELO TUMORAL E VIRAL

Rosa, Danieli Ferrari da

27 June 2018

Made available in DSpace on 2018-06-27T18:55:57Z (GMT). No. of bitstreams: 3 Danieli Ferrari da Rosa.pdf: 3718059 bytes, checksum: bb8ef19a5af8a3faa7687e991e0d5c3d (MD5) Danieli Ferrari da Rosa.pdf.txt: 158457 bytes, checksum: b6b83ac5211b5e9ee8b9dfba9feba1d9 (MD5) Danieli Ferrari da Rosa.pdf.jpg: 3270 bytes, checksum: 1f0862e05ecb2e7b1da2056322eeeaab (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The sialic acid is the generic name of carboxylated monosaccharides family with nine carbon glycoconjugated at terminal portion. These molecule family are involved in several biological processes such cell recognition processes, platelet adhesion, migration, invasion and metastatic potential, it also work as a receptor for bacteria and viruses. High concentrations of total sialic acid in the blood have been reported in different groups of patients with brain tumors, leukemia, melanoma, carcinoma and other kinds of cancers. The cleavage of sialic acid is a crucial step in virus infection influenzae, since this acid is part of the cellular receptor that the virus uses during the process of cellular internalization. The neuraminidase, an enzyme produced by the virus, cleaves the bond between sialic acid and the viral glycoproteins, allowing the entry of viruses into cells.The aim of this study was the analysis of serum sialic acid levels in murine melanoma and Herpes Simplex virus-1 (HSV-1) infection model. In the tumor model were used C57BL/6 and in the viral model BALB/c mice. Mice were injected with 2x105 B16F10 cells subcutaneously in the thigh and the tumor progression was followed each day till it became visible. The HSV-1 infection was conducted by intraperitoneally injection of with 102 PFU of virus. The sialic acid in serum samples was quantified by thiobarbituric method in spectrophotometer at 549 nm. A standard curve with commercial sialic acid was used as parameter for quantification. The results showed that in tumor model the sialic acid was increased compared with control group and have significant difference (p <0.05) in the first day after administration of cells. For the viral infection the concentration of sialic acid showed a significant difference (p <0,05) in the first day after infection when compared infected with control group. The histological analysis in thigh of mice performed 24 hours after administration of B16F10 cells were found compact groups of round or polygonal melanocytes with clear and large cytoplasm, irregular chromatin, hyperchromatic and vacuolated nuclei, eosinophilic nucleoli and atypical mitosis. / O ácido siálico é o nome genérico dado a família de monossacarídeos carboxilados com nove átomos de carbono que aparece na porção terminal de glicoconjugados. Estas moléculas estão envolvidas em vários processos biológicos, tais como, processos de reconhecimento celular, adesão plaquetária, migração, invasão, potencial metastático, sendo também um receptor para bactérias e vírus. O aumento das concentrações séricas de ácido siálico total tem sido descrito em vários grupos de pacientes que sofrem de tumores cerebrais, leucemia, melanoma, carcinoma e outros tipos de cânceres. A clivagem do ácido siálico é um passo crucial para a infecção do vírus Influenza, uma vez que este ácido é parte do receptor celular usado pelo vírus durante o processo de internalização celular. A neuraminidase, enzima produzida pelo vírus, cliva a ligação entre o ácido siálico e as glicoproteínas virais, permitindo a entrada dos vírus nas células. O objetivo desse estudo foi analisar os níveis séricos de ácido siálico em modelo de melanoma murino e modelo de infecção herpética (HSV-1). No modelo tumoral foram utilizados camundongos C57BL/6 e no modelo viral camundongos BALB/c. Os camundongos receberam 2x105 células B16F10 através da administração subcutânea na coxa e a progressão do tumor foi acompanhada todos os dias até o tumor se tornar visível. A infecção com HSV-1 foi realizada através da administração intraperitoneal de 102 PFU de vírus. O ácido siálico das amostras de soro foram quantificadas pelo método tiobarbitúrico em espectrofotômetro à 549 nm. Uma curva padrão com ácido siálico comercial foi usada como parâmetro para a quantificação. Os resultados mostraram que as concentrações de ácido siálico no modelo tumoral foram aumentadas nos animais com tumor quando comparadas ao grupo controle e houve diferença significativa (p< 0,05) no primeiro dia após a administração das células. Para o modelo de infecção viral houve diferença significativa (p< 0,05) no primeiro dia após a infecção quando comparado o grupo infectado com o controle. Na análise histológica da coxa dos camundongos realizada após 24 horas da administração de células B16F10 foram encontrados grupos compactos de melanócitos arredondados ou poligonais, com citoplasma amplo e claro, cromatina irregular, núcleos hipercromáticos e vacuolizados, nucléolos eosinofílicos e mitoses atípicas.

Ácido siálico

melanoma

Herpes Simplex virus 1 (HSV-1)

glicoconjugados

Sialic acid, melanoma

Herpes Simplex virus 1

glycoconjugates

CNPQ::ENGENHARIAS

Studies of viral and cellular proteins involved in herpes simplex virus type-1 egress

Ahmed, Md Firoz

January 2019

The egress pathway of herpes simplex virus-1 (HSV-1) is a complicated process mediated by co-ordinated activity of several virus glycoproteins. The virions are first assembled and enveloped at trans-Golgi-network (TGN) or endosome membranes and then travel through a guided pathway that is directed towards the cell adherent points for secretion. Once secreted the vast majority of virions remain associated with the extracellular membrane of cells and very few free virions are released into the culture medium (< 1%). The mechanisms that mediate both the targeted secretion of newly assembled virions at cell contact points and post-secretion attachment of virions with the extracellular surface of cells are poorly understood, and were the topics of this research. In this thesis, an HSV-1 passage mutant of increased virion secretion phenotype had been studied. Genome sequencing of the mutant virus identified mutations in three viral envelope proteins. Study of recombinant viruses that were constructed based on those three mutations revealed that a single amino acid change in glycoprotein I (gI) of glycine to arginine at residue 39 is responsible for the increased release of virus. The result suggests the principal effect of this mutation is to modify the secretory pathway used by virions during their release from infected cells. Data also suggests a role of gC in the attachment of virions to the extracellular surface of cells after egress. In the context of HSV-1 envelopment and egress glycoprotein E (gE), which forms a heterodimeric complex with gI (gE/gI), is known to be important. The gE/gI complex has been shown to interact with many tegument proteins and have a redundant role in secondary envelopment. The gE/gI complex has been also proposed to colocalise with various cellular components and sort the nascent virions to cell contact points. However, there is little understanding of the cellular proteins that gE/gI interact with, or the mechanisms that mediate targeted secretion of virions. This research has identified a novel interactome of gE/gI by mass-spectrometric analysis utilising stable isotope labelling with amino acids in cell culture (SILAC) medium. Among the cellular interactome obtained, Nipsnap1 was validated by co-precipitation assays from both infected and transfected cells, and furthermore using cell free systems, suggesting gE and Nipsnap1 directly interact. Nipsnap1 and its homologue Nipsnap2 have been proposed to contribute in vesicle transport and membrane fusion in cells. Using CRISPR-Cas9 technology these proteins were knocked out in a keratinocyte cell line (HaCaT) to investigate their role in HSV-1 egress. However, little or no effect on HSV-1 egress could be observed upon loss of either or both of these proteins suggesting the biological significance of gE-Nipsnap1 interaction may not be directly linked to any egress function of gE/gI. Two further interesting 'hits' from the gE/gI interactome were interferon-induced transmembrane protein type-2 (IFITM2), a virus restriction factor, and Myoferlin that has a putative role in endocytic vesicle recycling. This study could validate gE-Myoferlin interaction and co-localisation in infected or transfected cells however, functional significance of this interaction remains to be determined. Overall, the research of this thesis has provided a better understanding of the role of the gE/gI complex in HSV-1 egress and investigated the role of some interesting cellular proteins in the context of virion egress.