O efeito da prolactina na migração de células de câncer de mama pela remodelação da actina no citoesqueleto / Prolactin effects on breast cancer cell migration through actin cytoskeleton remodeling

Priscilla Ludovico da Silva

14 October 2016

INTRODUÇÃO: A prolactina é um hormônio polipeptídico que possui reconhecida ação sistêmica, principalmente no sistema reprodutor. O papel desse hormônio no desenvolvimento e na extensão do câncer da mama ainda é muito debatido. A progressão do câncer de mama em grande parte depende do movimento celular e da capacidade da célula em remodelar seu citoesqueleto de actina. Nesse processo, proteínas envolvidas na migração celular, como moesina, FAK e c-Src, são influenciadas por vários hormônios, incluindo a prolactina. O presente estudo teve por objetivo avaliar os efeitos da PRL na migração de células T47D, MCF-7 e ZR75-1 de câncer de mama, bem como os mecanismos envolvidos. MÉTODOS: As células foram cultivadas em placas de cultura com meio suplementado e divididas em oito grupos diferentes de tratamento: Grupo I (veículo); Grupo II (PRL na concentração de 25 ng/mL); Grupo III (PRL na concentração de 50 ng/mL), Grupo IV (PRL na concentração de 100 ng / mL), Grupo V (RNAi + veículo); Grupo VI (RNAi + PRL na concentração de 25 ng/mL); Grupo VII (RNAi + PRL na concentração de 50 ng/mL) e Grupo VIII (RNAi + PRL na concentração de 100 ng / mL). Nos Grupos de I a IV, a reorganização da actina do citoesqueleto foi analisada por imunofluorescência após 30 minutos do tratamento. Em todos os grupos estudados foram realizadas análise da migração horizontal com auxílio de microscopia de luz e avaliadas as expressões de Moesina, p-Moesina, FAK, p-FAK, c-Src e p-c-Src por Western Blot após 48 horas do tratamento. RESULTADOS: As células de câncer de mama expostas à prolactina apresentaram um aumento da expressão de Moesina, p-Moesina, FAK, p-FAK, c-Src e p-c-Src. Essas alterações moleculares estão associadas à reorganização da actina do citoesqueleto e ao aumento da mobilidade das células. CONCLUSÕES: Nossos dados sugerem que a prolactina aumenta a migração das células T47D, MFC-7 e ZR75-1 de câncer de mama e remodela a actina do citoesqueleto pela via de sinalização intracelular das proteínas c-Src, FAK e moesina / INTRODUCTION: Prolactin is a polypeptide hormone with a recognized systemic action mainly on reproductive physiology. The role of this hormone on breast cancer development and progression has been debated a lot yet. Breast cancer invasion largely depends on cell movement and on the ability to remodel the actin cytoskeleton. In this process, proteins involved in cell migration, such as moesin, FAK and c-Src, are influenced by a large number of hormones, such as prolactin. The present study was aimed for evaluating the effects of PRL on migration of T47D, MCF-7 and ZR75-1 breast cancer cells as well as the molecular mechanisms in this process. METHODS: The cells were cultured in dishes with supplemented medium and were divided in eight different assays: Group I (control); Group II (25ng/ml of prolactin); Group III (50ng/ml of prolactin); Group IV (100ng/ml of prolactin); Group V (RNAi + control); Group VI (RNAi + 25ng/ml of prolactin); Group VII (RNAi + 50ng/ml of prolactin); Group VIII (RNAi + 100ng/ml of prolactin). In Groups I to IV, the actin cytoskeletal reorganization was analyzed by immunofluorescence 30 minutes after the treatment. In all groups, were performed the horizontal migration analysis with light microscopy and evaluated the expression of moesin, p-moesin, FAK, p-FAK, c-Src and p-c-Src by Western blot after 48 hours of treatment. RESULTS: Breast cancer cells exposed to prolactin display an elevated moesin, p-moesin, FAK, p-FAK, c-Src and p-c-Src expression. These molecular changes are associated with the reorganization of actin cytoskeleton and increased mobility of cells. CONCLUSION: Our data suggest that prolactin enhances the migration of T47D, MFC-7 and ZR75-1 breast cancer cells through the actin cytoskeleton remodeling by intracellular signaling pathway of c-Src, FAK and moesin proteins

Citoesqueleto de actina T47D

MCF-7

Movimento celular

Neoplasias da mama

Prolactina

ZR75-1

Actin cytoskeleton T47D

Breast neoplasms

Cell movement

MCF-7

Prolactin

ZR75-1

Local Wnt11 Signalling and its role in coordinating cell behaviour in zebrafish embryos

Witzel, Sabine

24 October 2006

Wnt11 is a key signalling molecule that regulates cell polarity/migration during vertebrate development and also promotes the invasive behaviour of adult cancer cells. It is therefore essential to understand the mechanisms by which Wnt11 signalling regulates cell behaviour. The process of vertebrate gastrulation provides an excellent developmental system to study Wnt11 function in vivo. It is known that Wnt11 mediates coordinated cell migration during gastrulation via the non-canonical Wnt pathway that shares several components with a the planar cell polarity pathway (PCP) in Drosophila. However, the mechanisms by which these PCP components facilitate Wnt11 function in vertebrates is still unclear. While in Drosophila, the asymmetric localization of PCP components is crucial for the establishment of cell polarity, no asymmetric localization of Wnt11 pathway components have so far been observed in vertebrates. To shed light on the cellular and molecular mechanisms underlying Wnt11 signalling, I developed an assay to visualize Wnt11 activity in vivo using live imaging of Wnt11 pathway components tagged to fluorescent proteins. This allowed me to determine the sub-cellular distribution of these components and to correlate the effect of Wnt11 activity with the behaviour of living embryonic cells. I found that Wnt11 locally accumulates together with its receptor Frizzled7 (Fz7) at sites of cell-cell contacts and locally recruits the intra-cellular signalling mediator Dishevelled (Dsh) to those sites. Monitoring these apparent Wnt11 signalling centres through time-lapse confocal microscopy revealed, that Wnt11 activity locally increases the persistency of cell-cell contacts. In addition, I found that the atypical cadherin Flamingo (Fmi) is required for this process. Fmi accumulates together with Wnt11/Fz7 at sites of cell-cell contact and locally increased cell adhesion, via a mechanism that appears to be independent of known downstream effectors of Wnt11 signalling such as RhoA and Rok2. This study indicates that Wnt11 locally interacts with Fmi and Fz7 to control cell-contact persistency and to facilitate coherent and coordinated cell migration. This provides a novel mechanism of non-canonical Wnt signalling in mediating cell behaviour, which is likely relevant to other developmental systems. (Die Druckexemplare enthalten jeweils eine CD-ROM als Anlagenteil: 50 MB: Movies - Nutzung: Referat Informationsvermittlung der SLUB)

info:eu-repo/classification/ddc/570

ddc:570

Wnt, Zebrafisch, Zellbewegung

Roles of the Mother Centriole Appendage Protein Cenexin in Microtubule Organization during Cell Migration and Cell Division: A Dissertation

Hung, Hui-Fang

03 August 2016

Epithelial cells are necessary building blocks of the organs they line. Their apicalbasolateral polarity, characterized by an asymmetric distribution of cell components along their apical-basal axis, is a requirement for normal organ function. Although the centrosome, also known as the microtubule organizing center, is important in establishing cell polarity the mechanisms through which it achieves this remain unclear. It has been suggested that the centrosome influences cell polarity through microtubule cytoskeleton organization and endosome trafficking. In the first chapter of this thesis, I summarize the current understanding of the mechanisms regulating cell polarity and review evidence for the role of centrosomes in this process. In the second chapter, I examine the roles of the mother centriole appendages in cell polarity during cell migration and cell division. Interestingly, the subdistal appendages, but not the distal appendages, are essential in both processes, a role they achieve through organizing centrosomal microtubules. Depletion of subdistal appendages disrupts microtubule organization at the centrosome and hence, affects microtubule stability. These microtubule defects affect centrosome reorientation and spindle orientation during cell migration and division, respectively. In addition, depletion of subdistal appendages affects the localization and dynamics of apical polarity proteins in relation to microtubule stability and endosome recycling. Taken together, our results suggest the mother centriole subdistal appendages play an essential role in regulating cell polarity. A discussion of the significance of these results is included in chapter three.

Heat-Shock Proteins

Cell Division

Cell Movement

Cell Polarity

Centrioles

Centrosome

Endosomes

Epithelial Cells

Microtubule-Organizing Center

Microtubules

Cenexin

Dissertations, UMMS

Cell Biology

Cellular and Molecular Physiology

Analysis of Integrin α6β4 Function in Breast Carcinoma: A Dissertation

Gerson, Kristin D.

06 April 2012

The development and survival of multicellular organisms depends upon the ability of cells to move. Embryogenesis, immune surveillance, wound healing, and metastatic disease are all processes that necessitate effective cellular locomotion. Central to the process of cell motility is the family of integrins, transmembrane cell surface receptors that mediate stable adhesions between cells and their extracellular environment. Many human diseases are associated with aberrant integrin function. Carcinoma cells in particular can hijack integrins, harnessing their mechanical and signaling potential to propagate cell invasion and metastatic disease, one example being integrin α6β4. This integrin, often referred to simply as β4, is defined as an adhesion receptor for the laminin family of extracellular matrix proteins. The role of integrin β4 in potentiating carcinoma invasion is well established, during which it serves both a mechanical and signaling function. miRNAs are short non-coding RNAs that regulate gene expression posttranscriptionally, and data describing the role of extracellular stimuli in governing their expression patterns are sparse. This observation coupled to the increasingly significant role of miRNAs in tumorigenesis prompted us to examine their function as downstream effectors of β4, an integrin closely linked to aggressive disease in breast carcinoma. The work presented in this dissertation documents the first example that integrin expression correlates with specific miRNA patterns. Moreover, integrin β4 status in vitro and in vivo is associated with decreased expression of distinct miRNA families in breast cancer, namely miR-25/32/92abc/363/363-3p/367 and miR-99ab/100, with purported roles in cell motility. Another miRNA, miR-29a, is significantly downregulated in response to de novo expression of β4 in a breast carcinoma cell line, and β4-mediated repression of the miRNA is required for invasion. Another major conclusion of this study is that β4 integrin expression and ligation can regulate the expression of SPARC in breast carcinoma cells. These data reveal distinct mechanisms by which β4 promotes SPARC expression, involving both a miR-29a-mediated process and a TOR-dependent translational mechanism. Our observations establish a link between miRNA expression patterns and cell motility downstream of β4 in the context of breast cancer, and uncover a novel effector of β4-mediated invasion.

Breast Neoplasms

Integrin alpha6beta4

Cell Movement

MicroRNAs

Neoplasm Invasiveness

Amino Acids, Peptides, and Proteins

Cancer Biology

Neoplasms

Skin and Connective Tissue Diseases

An Integral Role of ARRDC3 in Stem Cell Migration and Breast Cancer Progression: A Dissertation

Draheim, Kyle M.

02 March 2010

Despite the importance of integrins in epithelial cell biology surprisingly little is known about their regulation. It is known that they form hemidesmosomes (HDs), are actively involved in cell contacts during cell migration/invasion, and are key signaling molecules for survival and growth. However, there has been a distinct lack of understanding about what controls the dynamic integrin localization during cell activation and movement. Growth factors, such as EGF, are elevated during wound healing and carcinoma invasion leading to phosphorylation of ITGβ4 and the disassembly of the HD and mobilization of ITGβ4 to actin-rich protrusions. More recently the phosphorylation of a novel site on ITGβ4 (S1424) was found to be distinctly enriched on the trailing edge of migrating cells, suggesting a possible mechanism for the dissociation of ITGβ4 from HDs. Arrestin family member proteins are involved in the regulation of cell surface proteins and vesicular trafficking. In this study, we find that over-expression of arrestin family member ARRDC3 causes internalization and proteosome-dependent degradation of ITGβ4, while decreased levels of ARRDC3 stabilizes ITGβ4 levels. These results lead us to a new mechanism of ITGβ4 internalization, trafficking and degradation. During migration, ARRDC3 co-localizes with ITGβ4 on the lagging edge of cells but has a distinct distribution on the leading edge of cells. Additional immuno co-precipitation experiments demonstrate that ARRDC3 preferentially binds to ITGβ4 when phosphorylated on S1424. Using confocal microscopy, we show that the expression pattern of ARRDC3 on the lagging edge of a migrating cell is identical to the expression pattern of ITGβ4-pS1424. We demonstrate that ARRDC3 expression represses cell proliferation, migration, invasion, growth in soft agar and tumorigenicity. Collectively, our data reveals that ARRDC3 is a negative regulator of β4 integrin and demonstrates how this new pathway impacts biologic processes in stem cell and cancer biology. Additionally, as ARRDC3 is highly expressed in several tissues and conserved across species, our results are likely to be translated to other models.

Integrin beta4

Hemidesmosomes

Arrestins

Cell Movement

Adult Stem Cells

Breast Neoplasms

Amino Acids, Peptides, and Proteins

Cancer Biology

Cells

Neoplasms

Skin and Connective Tissue Diseases

Nuclear translocation in the Drosophila eye disc : an inside look at the role of misshapen and the endocytic-recycling traffic pathway

Houalla, Tarek.

January 2007

No description available.

Eye -- embryology.

Drosophila Proteins -- genetics.

Dynein ATPase -- genetics.

Drosophila melanogaster -- embryology.

Cell Movement -- physiology.

Análise do impacto das proteínas E6/E7 de diferentes variantes moleculares de HPV-16 sobre as vias de transdução de sinal mediadas por MAPK / Analysis of the impact of E6/E7 proteins of different molecular variants of HPV-16 upon MAPK signaling pathways

Hochmann Valls, Jimena Paola

07 July 2016

A infecção persistente por HPV-16 está fortemente associada ao risco de desenvolvimento de neoplasias do colo do útero, vagina, vulva, pênis, canal anal e orofaringe. O estudo detalhado da variabilidade nucleotídica intra-típica de HPV-16 resultou em importantes achados no que concerne à filogenia e evolução viral, e à história natural das infecções. Variantes Asiático-Americanas (AA) e E-350G de HPV-16 foram associadas com maior risco de persistência da infecção viral e desenvolvimento de câncer de colo de útero quando comparadas à variante Européia protótipo (E-P ou E-350T), embora esta ainda apresente alto risco quando comparada aos outros tipos virais. Mais recentemente, diferenças funcionais entre as proteínas E6/E7 das distintas variantes moleculares de HPV- 16 estão sendo descritas, a fim de explicar as diferenças nas associações epidemiológicas observadas. Dados do nosso grupo apontaram para a transcrição aumentada do gene MEK2 especificamente em queratinócitos humanos primários (PHKs) transduzidos com E6/E7 da variante E-350G. Pelo exposto, objetivou-se: (1) Analisar os níveis de ativação de proteínas efetoras das vias de transdução de sinal mediadas por MAPK e PI3K/AKT em queratinócitos imortalizados por E6/E7 de três variantes moleculares de HPV-16 (AA, E-P, E-350G); (2) Analisar os efeitos das proteínas E6/E7 dessas variantes sob as vias de MAPK quanto à indução de fatores de transcrição; (3) Analisar o potencial transformante de PHKs imortalizados pelas diferentes variantes, e em cooperação com a proteína celular c-MYC; (4) Analisar o potencial de migração e invasão em PHKs imortalizados pelas diferentes variantes de HPV-16, e em cooperação com a proteína celular c-MYC. Neste estudo observou-se que a variante AA de HPV-16 induziu a maior ativação das vias de sinalização estudadas (MAPK, e PI3K/AKT). Ademais, PHKs imortalizados por esta variante apresentaram maior capacidade de migração, de invasão através de uma matriz de colágeno, além de maior potencial transformante. Adicionalmente, as células imortalizadas pela variante AA apresentaram maior expressão da proteína mesenquimal vimentina e diminuição dos níveis da proteína epitelial E-caderina, sugerindo ativação parcial de Transição Epitélio Mesênquima (EMT) nestes queratinócitos. Ademais, quando o oncogene c-MYC foi co-transduzido nas diferentes linhagens infectadas por E6/E7 de HPV-16, foi observado que em PHKs imortalizados pela variante AA também houve maior ativação da via de MAPK-ERK, maior migração, e um potencial transformante semelhante, em relação às células co-transduzidas pela variante E-350G e c-MYC. Em conjunto, estes dados sugerem que a variante AA de HPV-16 possui vantagem seletiva sob as outras variantes em promover transformação celular, migração e invasão, e isto poderia explicar, ao menos em parte, a maior prevalência desta variante no câncer cervical. Os resultados gerados neste estudo são de extrema relevância para avaliar o impacto da variabilidade intra-típica de HPV-16 sobre o potencial oncogênico observado em estudos epidemiológicos / Persistent infection with HPV-16 is strongly associated with risk of developing neoplasia in the uterine cervix, vagina, vulva, penis, anal canal and oropharynx. The detailed study of HPV-16 intra-typical nucleotide variability resulted in important findings regarding phylogeny and viral evolution, and the natural history of infections. Asian-American (AA) and E-350G variants of HPV-16 were associated with increased risk of persistent viral infection and development of cervical cancer compared to the European prototype (E-P or E-350T), although this variant still presents higher risk when compared to other viral types. More recently, functional differences between the E6/E7 proteins of distinct molecular variants of HPV-16 are being described, in order to explain the differences in the epidemiological associations observed. Data from our group pointed to increased transcription of the MEK2 gene specifically in primary human keratinocytes (PHKs) transducing E6/E7 of the E-350G variant. Consequently, the aims of this study were: 1) To examine the activation levels of effector proteins of the signal transduction pathways mediated by MAPK and PI3K/AKT in PHKs immortalized by E6/E7 of three different molecular variants of HPV-16 (AA, E-P, E-350G); (2) To analyze the effects of E6/E7 of different molecular variants of HPV-16 upon MAPK pathways concerning the induction of transcription factors; (3) To analyze the transforming potential of PHKs immortalized by different molecular variants of HPV-16, and in cooperation with the cellular protein c- MYC; (4) To analyze the potential of migration and invasion in PHKs immortalized by different molecular variants of HPV-16, and in cooperation with the cellular protein c- MYC. In this study we observed that the AA variant of HPV-16 induced higher activation of both signaling pathways studied (MAPK, and PI3K/AKT). Furthermore, this variant presented increased migration capacity, higher invasion through a collagen matrix, and greater transforming potential. Moreover, cells immortalized by the AA variant showed higher expression of the mesenchymal protein vimentin and a decrease of the epithelial protein E-cadherin, suggesting partial activation of Epithelial Mesenchymal Transition (EMT). In addition, when the c-MYC oncogene was co-transduced in the different cells lines infected with HPV-16 E6/E7, we observed that in PHKs immortalized by the AA variant there was also an enhanced activation of the MAPK-ERK pathway, a higher ability to migrate, and similar transformation potential in comparison with cells co-transduced with the E-350G variant and c-MYC. Taken together, this data suggest that the AA molecular variant of the HPV-16 has a selective advantage over the other variants to promote cell transformation, migration and invasion, and this could partly explain the higher prevalence of this variant in cervical cancer. The results generated in this study are very important to assess the impact of intra-typical variability of HPV-16 on the oncogenic potential observed in epidemiological studies

Cell transformation viral

Cell movement

Fosfatidilinositol 3-quinases

Genetic heterogeneity

Heterogeneidade genética

Human papillomavirus 16

Migração celular

Mitogen-activated protein kinases

Papillomaviridae

Papillomaviridae

Papillomavirus humano 16

Phosphatidylinositol 3-kinases

Transformação celular viral

Dermal cell trafficking : from microscopy to microdialysis /

Sjögren, Florence,

January 2005

Diss. (sammanfattning) Linköping : Linköpings universitet, 2005. / Härtill 6 uppsatser.

Regulation of Lsc activity and role in B cell migration and antigen receptor signaling /

Hu, Jiancheng.

January 2007

Thesis (Ph.D. in Immunology) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 103-118). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;

Análise do impacto das proteínas E6/E7 de diferentes variantes moleculares de HPV-16 sobre as vias de transdução de sinal mediadas por MAPK / Analysis of the impact of E6/E7 proteins of different molecular variants of HPV-16 upon MAPK signaling pathways

Jimena Paola Hochmann Valls

07 July 2016

A infecção persistente por HPV-16 está fortemente associada ao risco de desenvolvimento de neoplasias do colo do útero, vagina, vulva, pênis, canal anal e orofaringe. O estudo detalhado da variabilidade nucleotídica intra-típica de HPV-16 resultou em importantes achados no que concerne à filogenia e evolução viral, e à história natural das infecções. Variantes Asiático-Americanas (AA) e E-350G de HPV-16 foram associadas com maior risco de persistência da infecção viral e desenvolvimento de câncer de colo de útero quando comparadas à variante Européia protótipo (E-P ou E-350T), embora esta ainda apresente alto risco quando comparada aos outros tipos virais. Mais recentemente, diferenças funcionais entre as proteínas E6/E7 das distintas variantes moleculares de HPV- 16 estão sendo descritas, a fim de explicar as diferenças nas associações epidemiológicas observadas. Dados do nosso grupo apontaram para a transcrição aumentada do gene MEK2 especificamente em queratinócitos humanos primários (PHKs) transduzidos com E6/E7 da variante E-350G. Pelo exposto, objetivou-se: (1) Analisar os níveis de ativação de proteínas efetoras das vias de transdução de sinal mediadas por MAPK e PI3K/AKT em queratinócitos imortalizados por E6/E7 de três variantes moleculares de HPV-16 (AA, E-P, E-350G); (2) Analisar os efeitos das proteínas E6/E7 dessas variantes sob as vias de MAPK quanto à indução de fatores de transcrição; (3) Analisar o potencial transformante de PHKs imortalizados pelas diferentes variantes, e em cooperação com a proteína celular c-MYC; (4) Analisar o potencial de migração e invasão em PHKs imortalizados pelas diferentes variantes de HPV-16, e em cooperação com a proteína celular c-MYC. Neste estudo observou-se que a variante AA de HPV-16 induziu a maior ativação das vias de sinalização estudadas (MAPK, e PI3K/AKT). Ademais, PHKs imortalizados por esta variante apresentaram maior capacidade de migração, de invasão através de uma matriz de colágeno, além de maior potencial transformante. Adicionalmente, as células imortalizadas pela variante AA apresentaram maior expressão da proteína mesenquimal vimentina e diminuição dos níveis da proteína epitelial E-caderina, sugerindo ativação parcial de Transição Epitélio Mesênquima (EMT) nestes queratinócitos. Ademais, quando o oncogene c-MYC foi co-transduzido nas diferentes linhagens infectadas por E6/E7 de HPV-16, foi observado que em PHKs imortalizados pela variante AA também houve maior ativação da via de MAPK-ERK, maior migração, e um potencial transformante semelhante, em relação às células co-transduzidas pela variante E-350G e c-MYC. Em conjunto, estes dados sugerem que a variante AA de HPV-16 possui vantagem seletiva sob as outras variantes em promover transformação celular, migração e invasão, e isto poderia explicar, ao menos em parte, a maior prevalência desta variante no câncer cervical. Os resultados gerados neste estudo são de extrema relevância para avaliar o impacto da variabilidade intra-típica de HPV-16 sobre o potencial oncogênico observado em estudos epidemiológicos / Persistent infection with HPV-16 is strongly associated with risk of developing neoplasia in the uterine cervix, vagina, vulva, penis, anal canal and oropharynx. The detailed study of HPV-16 intra-typical nucleotide variability resulted in important findings regarding phylogeny and viral evolution, and the natural history of infections. Asian-American (AA) and E-350G variants of HPV-16 were associated with increased risk of persistent viral infection and development of cervical cancer compared to the European prototype (E-P or E-350T), although this variant still presents higher risk when compared to other viral types. More recently, functional differences between the E6/E7 proteins of distinct molecular variants of HPV-16 are being described, in order to explain the differences in the epidemiological associations observed. Data from our group pointed to increased transcription of the MEK2 gene specifically in primary human keratinocytes (PHKs) transducing E6/E7 of the E-350G variant. Consequently, the aims of this study were: 1) To examine the activation levels of effector proteins of the signal transduction pathways mediated by MAPK and PI3K/AKT in PHKs immortalized by E6/E7 of three different molecular variants of HPV-16 (AA, E-P, E-350G); (2) To analyze the effects of E6/E7 of different molecular variants of HPV-16 upon MAPK pathways concerning the induction of transcription factors; (3) To analyze the transforming potential of PHKs immortalized by different molecular variants of HPV-16, and in cooperation with the cellular protein c- MYC; (4) To analyze the potential of migration and invasion in PHKs immortalized by different molecular variants of HPV-16, and in cooperation with the cellular protein c- MYC. In this study we observed that the AA variant of HPV-16 induced higher activation of both signaling pathways studied (MAPK, and PI3K/AKT). Furthermore, this variant presented increased migration capacity, higher invasion through a collagen matrix, and greater transforming potential. Moreover, cells immortalized by the AA variant showed higher expression of the mesenchymal protein vimentin and a decrease of the epithelial protein E-cadherin, suggesting partial activation of Epithelial Mesenchymal Transition (EMT). In addition, when the c-MYC oncogene was co-transduced in the different cells lines infected with HPV-16 E6/E7, we observed that in PHKs immortalized by the AA variant there was also an enhanced activation of the MAPK-ERK pathway, a higher ability to migrate, and similar transformation potential in comparison with cells co-transduced with the E-350G variant and c-MYC. Taken together, this data suggest that the AA molecular variant of the HPV-16 has a selective advantage over the other variants to promote cell transformation, migration and invasion, and this could partly explain the higher prevalence of this variant in cervical cancer. The results generated in this study are very important to assess the impact of intra-typical variability of HPV-16 on the oncogenic potential observed in epidemiological studies

Fosfatidilinositol 3-quinases

Heterogeneidade genética

Migração celular

Papillomaviridae

Papillomavirus humano 16

Transformação celular viral

Cell transformation viral

Cell movement

Genetic heterogeneity

Human papillomavirus 16

Mitogen-activated protein kinases

Papillomaviridae

Phosphatidylinositol 3-kinases