Células-tronco mensequimais como carreadoras de adenovírus no microambiente tumoral / Mesenchymal stem cell as carrier of adenovirus in the tumor microenvironment

Ruana Calado da Costa

02 May 2017

As muitas formas diferentes de câncer representam uma grande dimensão no âmbito da saúde pública mundial. Embora os esforços da medicina diagnóstica, vários tumores permanecem sem resposta à terapia tradicional. Uma alternativa é o uso de terapia gênica, a qual consiste a transferência de um gene terapêutico para a célula tumoral com a expectativa de inibição da progressão tumoral. Nosso laboratório desenvolveu uma série de vetores adenovirais onde a expressão do transgene é controlada pela p53 e usamos esses vetores para mostrar que a presença de p19Arf (um parceiro funcional de p53) sensibiliza células de melanoma murino, B16-F10 (p53-tipo selvagem), associado à ação do interferão-beta (IFNbeta, uma citocina pleiotrópica) quando testado in vitro. Mesmo que os vetores adenovirais representem o sistema de transferência gênica mais utilizado para a terapia de genes de câncer, seu uso por via sistêmica é limitado principalmente por inativação pelo sistema imune. Diferentes técnicas visam proteger as partículas de vírus do sistema imunológico e direcioná-las para o leito tumoral. Uma dessas técnicas envolve a utilização de células estaminais mesenquimais (MSCs). As propriedades dos MSC incluem a auto renovação, o potencial de diferenciação, bem como a sua capacidade de migrar e infiltrar tumores. Para este fim, nosso objetivo era utilizar MSCs murinos como portadores de adenovírus que expressam IFNbeta e para verificar se a presença de p19Arf nas células tumorais aumentaria a sua sensibilidade para IFNbeta. Para itso, os CTMs foram isolados da medula óssea ou do tecido adiposo de ratinhos C57BL/ 6 machos. Foi verificada a presença de marcadores de CTM (Sca1, CD29) e a ausência de marcadores para linhagens hematopoiéticas (CD31, CD11b, CD45). Sendo as CTM do tecido adiposo foram mais fáceis de cultivar, estes foram utilizados nos seguintes ensaios. In vitro, a aplicação do vector adenoviral que codifica um gene repórter (eGFP) resultou em mais de 70% de eficiênciamde transdução de CTM, sem indução de alterações morfológicas até 72 horas após o tratamento. A aplicação de vector portador de IFNbeta também foi bem tolerada, no entanto transdução com p19Arf sozinho ou em combinação com IFNbeta induziu alterações morfológicas nas CTMs. Em seguida, as células B16-F10 foram transduzidas ou não com o vetor codificando p19Arf e co-cultivadas com MSCs que foram transduzidas ou não com IFNbeta, demonstrando que a presença de p19Arf confere sensibilidade aumentada de células B16-F10 ao tratamento com IFNbeta . Em ensaios preliminares, os tumores B16-F10 foram estabelecidos subcutaneamente em camundongos C57BL / 6 e, posteriormente, as MSC marcadas com eGFP foram aplicadas na circulação após a injeção da veia da cauda. Após 48 horas, estes tumores foram recuperados e a presença de células positivas para eGFP foi confirmada, indicando que os MSCs se infiltraram no microambiente do tumor / The many different forms of cancer represent a tremendous investment for public health all over the world. Although the efforts of both diagnostic and therapeutic medicine have reduced the number of deaths due to cancer, many tumor types remain impervious to traditional therapy. An alternative is the use of gene therapy which entails the transfer of a therapeutic gene to the tumor cells with the expectation of inhibiting tumor progression. Our laboratory has developed a series of adenoviral vectors where transgene expression is controlled by p53 and we have used these vectors to show that the presence of p19Arf (a functional partner of p53) sensitizes murine melanoma cells, B16-F10 (p53-wild type), to the action of interferon-beta (IFNbeta, a pleiotropic cytokine) when tested in vitro. Even though adenoviral vectors are the most utilized gene transfer system for cancer gene therapy, their systemic application is limited principally by immune inactivation. Different techniques aim to protect the virus particles from the immune system and to direct them to the tumor bed. One of these techniques involves the utilization of mesenchymal stem cells (MSCs). The properties of MSCs include self-renewal, the potential for differentiation as well as their ability to migrate to and infiltrate tumors. To this end, our objective was to utilize murine MSCs as carriers of adenovirus that express IFNbeta and to verify if the presence of p19Arf in the tumor cells would enhance their sensitivity to IFNbeta. For this, MSCs were isolated from bone marrow or adipose tissue from male C57BL/6 mice. The presence of MSC markers (Sca1, CD29) was verified as was the absence of markers for hematopoietic lineages (CD31, CD11b, CD45). Since the MSCs from adipose tissue were easier to cultivate, these were utilized in the following assays. In vitro, application of the adenoviral vector encoding a reporter gene (eGFP) at a multiplicity of infection of 1000 resulted in the transduction of more than 70% of the MSCs and without the induction of morphological alterations even by 72 hours post treatment. The application of a vector encoding IFN? was also well tolerated, however transduction with p19Arf alone or in combination with IFNbeta induced morphologic alterations in the MSCs. Next, B16-F10 cells were transduced or not with the vector encoding p19Arf and co-cultivated with MSCs that had been transduced or not with IFNbeta, demonstrating that the presence of p19Arf confers enhanced sensitivity of B16-F10 cells to the treatment with IFN?. In preliminary assays, B16-F10 tumors were established subcutaneously in C57BL/6 mice and later MSCs labeled with eGFP were applied in the circulation upon tail vein injection. After 48 hours, these tumors were recovered and the presence of eGFP-positive cells was confirmed, indicating that the MSCs infiltrated the tumor microenvironment

Adenovírus

Células-tronco

Interferon tipo I

Melanoma

Proteína supressora de tumor p53

Terapia combinada

Terapia gênica

Adenovirus

Combined modality therapy

Genetic therapy

Interferon type I

Melanoma

Stem cells

Tumor suppressor protein p53.

Tumores gástricos primários múltiplos e únicos: análise imunohistoquímica comparativa / Multiple and solitary primary gastric tumors: comparative immunohistochemistry analysis

Uana Maria Miguel Jorge

06 December 2006

Introdução: Adenocarcinomas gástricos múltiplos primários (AGMP) são encontrados em 3,5% a 10% de todos os pacientes com câncer gástrico. A multiplicidade tumoral é amplamente reconhecida como indicador de predisposição genética para o desenvolvimento de neoplasias Além disso, as rotas de carcinogênese não estão claramente definidas nestes tumores (rota mutadora, ou supressora, ou da E-caderina). Objetivo: avaliar a imunoexpressão de hMLH1, hMSH2, e hMSH6 (rota mutadora), p53 (rota supressora) e E-caderina nos AGMP comparando-se com adenocarcinomas únicos (pareados quanto ao sexo, idade, tipo histológico, localização e estádio) e sua relação com dados clínico-patológicos. Casuística: dezenove pacientes com AGMP foram comparados a 21 pacientes com tumores gástricos únicos quanto a características imunohistoquímicas. Métodos: Blocos de tecido fixados em formalina a 10% e incluídos em parafina foram submetidos a cortes histológicos de 4 mm, para as avaliações histológica e imunohistoquímica para hMLH1, hMSH2, hMSH6, p53 e E-caderina. Resultados: A média de idade dos pacientes com AGPM foi de 66 + 9,06 anos, e de 60 + 16,9 anos nos pacientes com tumor único (P=0,56). Vinte e dois tumores estavam localizados na porção distal do estômago; 14, no corpo e cinco na porção proximal. Em 14 pacientes, as lesões eram próximas (< 3 cm), enquanto que, em cinco pacientes, as lesões estavam em outra porção do estômago. O estágio final anatomopatológico pós-operatório foi: 15 no estágio T1 (37,5%) (8 múltiplos e 7 únicos), 7 no estágio T2 (17,5%) (1 múltiplo e 6 únicos), 17 no estágio T3 (42,5%) (9 múltiplos e 8 únicos) e 1 no estágio T4 (27,5%) (1 múltiplo). Segundo a classificação de Laurén, 45 dos tumores foram do tipo intestinal (29 múltiplos e 16 únicos), 16 do tipo gástrico (12 múltiplos e 4 únicos) e um tumor do tipo misto (1 único). O estádio anatomopatológico revelou 30 tumores avançados (16 múltiplos e 14 únicos) e 32 precoces (25 múltiplos e 7 únicos). Na imunohistoquímica, não houve diferença entre a imunoexpressão nos dois grupos de tumores quanto a: hMLH1 (24,3% vs. 19% P=0,64), hMSH6 (4,8% vs. 2,4%, P=0,68), p53 (39% vs. 24%, P=0,35) e E-caderina (27% vs. 19%, P=0,46). hMSH2 foi positivo em todos os casos. Não houve associação entre os imuno-marcadores e os dados clínico-patológicos. Conclusões: 1. As rotas de carcinogênese, mutatora, supressora e E-caderina parecem estar independentemente envolvidas no desenvolvimento dos AGMP; 2. Não houve diferença de imunoexpressão dos marcadores analisados quando compararam-se os AGMP e os tumores únicos. / Introduction: Multiple primary gastric adenocarcinomas (MPGA) have been reported from 3.5% to 10% of all patients with gastric cancer. Tumoral multiplicity is largely known as an indicator of genetic predisposition for the development of neoplasias. Moreover, the route of carcinogenesis has not been clearly clarified in these tumors (mutator pathway or suppressor pathway). Aim: to evaluate the immunoexpression of hMLH1, hMSH2, and hMSH6 (mutator pathway), p53 (suppressor pathway) and E-cadherin in the MPGA, comparing to solitary adenocarcinomas (similar gender, age, histological type, location and staging) and also the relation to the clinicopathological data.: Casuistics: Nineteen patients (Group 1) with MPGA were compared to 21 patients (Group 2) with solitary gastric tumors regarding clinicopathological characteristics and immunohistochemistry. Methods: Blocks of tissue fixed in 10% formalin and embedded in parafin were submitted to 4 mm sections for histological and immunohistochemistry analysis for hMLH1, hMSH2 and hMSH6 (mutator pathway), p53 (suppressor pathway) and E-cadherin. Results: The mean age for the MPGA was 66.8 + 9.06 years, and 59.0 + 16.9 years for the solitary tumor group(P = 0.27). Twenty-two tumors were in the distal stomach, 14 were in the body and five in the proximal portion. In 14 patients the lesions were close to each other (< 3 cm), while in five patients the neoplasias were distant, in another portion of the stomach.The final postoperative pathological stage was: T1 in 15 (eight multiple and seven solitary), T2 in seven (one multiple and six soliatry), T3 in 17 ( nine multiple and eight solitary) and T4 in one ( one multiple). According to the Laurén classification, 45 tumors were intestinal type (29 multiple and 16 solitary), 16 were diffuse (12 multiple and four solitart) and one mixed type ( one solitary). 30 tumors were diagnosed in advanced staging (16 multiple and 14 soliatry) and 32 were early (25 multiple and seven solitary). There was no difference between the hMLH1 immunoexpression in the two groups (24.3% vs. 19%, P=0.64), hMSH6 (4.8% vs. 2.4%, P=0.68), p53 (39% vs. 24%, P=0.35) and E-cadherin (27% v.s 19%, P=0.46). Immunostaining for hMSH2 was positive in all MPGA, indicating absence of alterations of this repair gene marker. There was no association between the immunomarkers and the clinicopathological data. Conclusions: 1. Routes of carcinogenesis, mutator, suppressor, and E-cadherin appear to be involved independently in the development of MPGA; 2. There was no difference in the markers immunoexpression in the two groups.

Adenocarcima

Caderinas

Imunohistoquímica

Instabilidade genômica

Neoplasia gástricas

Neoplasias primárias múltiplas

Proteína 2 homóloga a MutS

Proteína supressora de tumor p53

Adenocarcinoma

Cadherins

Genomic instability

Immunohistochemistry

Multiple primary neoplasms

Muts homolog 2 protein

Stomach neoplasms

Tumor suppressor protein p53

Defining the Roles of p300/CBP (CREB Binding Protein) and S5a in p53 Polyubiquitination, Degradation and DNA Damage Responses: A Dissertation

Shi, Dingding

08 January 2010

p53, known as the “guardian of the genome”, is the most well-characterized tumor suppressor gene. The central role of p53 is to prevent genome instability. p53 is the central node in an incredibly elaborate genome defense network for receiving various input stress signals and controlling diverse cellular responses. The final output of this network is determined not only by the p53 protein itself, but also by other p53 cooperating proteins. p300 and CBP (CREB-Binding Protein) act as multifunctional regulators of p53 via acetylase and ubiquitin ligase activities. Prior work in vitro has shown that the N-terminal 595 aa of p300 encode both generic ubiquitin ligase (E3) and p53-directed E4 functions. Analysis of p300 or CBP-deficient cells revealed that both coactivators were required for endogenous p53 polyubiquitination and the normally rapid turnover of p53 in unstressed cells. Unexpectedly, p300/CBP ubiquitin ligase activities were absent in nuclear extracts and exclusively cytoplasmic. In the nucleus, CBP and p300 exhibited differential regulation of p53 gene target expression, C-terminal acetylation, and biologic response after DNA damage. p300 activated, and CBP repressed, PUMA expression, correlating with activating acetylation of p53 C-terminal lysines by p300, and a repressive acetylation of p53 lysine-320 induced by CBP. Consistent with their gene expression effects, CBP deficiency augmented, and p300 deficiency blocked, apoptosis after doxorubicin treatment. Subcellular compartmentalization of p300/CBP’s ubiquitination and transcription activities reconciles seemingly opposed functions—cytoplasmic p300/CBP E4 activities ubiquitinate and destabilize p53, while nuclear p300/CBP direct p53 acetylation, target gene activation, and biological outcome after genotoxic stress. p53 is a prominent tumor suppressor gene and it is mutated in more than 50% of human tumors. Reactivation of endogenous p53 is one therapeutic avenue to stop cancer cell growth. In this thesis, we have identified S5as a critical regulator of p53 degradation and activity. S5a is a non-ATPase subunit in the 19S regulatory particle of the 26S proteasome. Our preliminary data indicates that S5a is required for p53 instability and is a negative regulator of p53 tranactivation. As a negative regulator of p53, S5a may therefore also represent a new target for cancer drug development against tumors that specifically maintain wild type p53.

Genes

p53

Tumor Suppressor Protein p53

p300-CBP Transcription Factors

CREB-Binding Protein

E1A-Associated p300 Protein

Proteasome Endopeptidase Complex

DNA Damage

Ubiquitination

Amino Acids, Peptides, and Proteins

Cancer Biology

Genetic Phenomena

Neoplasms

Pharmaceutical Preparations

Therapeutics

Interaktom N-terminální domény IL-1α / Interactome of IL-1α N-terminal domain

Dolečková, Denisa

January 2011

Interactome of IL-1α N-terminal domain Cytokines are highly effective mediators produced by various cell types within and outside of the immune system with the aim to influence the orientation, intensity, and duration of the immune response and inflammatory process. Their biological effects mediated through binding the high-affinity membrane receptors and triggering the signal transduction pathway are usually well defined. However, as it is more and more frequently observed, in addition to the exocrine function, some cytokines may show intracrine effects. For this type of cytokines, the term "dual function cytokines" has been adopted. One of these cytokines is Interleukin-1α, in which the recent research has concentrated on determining its intracellular functions. The intracellular function of interleukin-1α has not been clearly defined so far. However, apart from the absence of the conventional hydrophobic sequence, its existence is supported by the fact that the N-terminal peptide included in its precursor is highly conserved and contains nuclear localization signal. The aim of this work is to define the conditions of localization of the interleukin-1α N- terminal domain in different cellular compartments and to study proteins potentially interacting with it using fluorescent microscopy. Key words:...

Mdm2-p53 Signaling in Tissue Homeostasis and the DNA Damage Response: A Dissertation

Gannon, Hugh S.

28 June 2012

The p53 transcription factor responds to various cellular stressors by regulating the expression of numerous target genes involved in cellular processes such as cell cycle arrest, apoptosis, and senescence. As these downstream pathways are harmful to the growth and development of normal cells when prolonged or deregulated, p53 activity needs to be under tight regulatory control. The Mdm2 oncoprotein is the chief negative regulator of p53, and many mouse models have demonstrated that absence of Mdm2 expression leads to constitutive p53 activation in a variety of cell types. While unregulated p53 can be deleterious to cells, functional p53 is essential for tumor suppression, as many human cancers harbor p53 mutations and p53 knockout mice rapidly develop spontaneous tumors. Therefore, the mechanisms that control p53 regulation by Mdm2 are critical to ensure p53 activity in the appropriate cellular context. Many genetically engineered mouse models have been created to analyze p53 and Mdm2 functions and these studies have yielded valuable insights into their physiological roles. This dissertation will describe the generation and characterization of novel mutant Mdm2 mouse models and their use to interrogate the roles of p53-Mdm2 signaling in tissue homeostasis and cell stress responses. Deletion of Mdm2 in epidermal progenitor cells of the skin and hair follicles resulted in progressive hair loss and decreased skin integrity, phenotypes that are characteristic of premature aging. Furthermore, p53 protein levels, p53 target gene expression, and cellular senescence were all upregulated in the skins of these mice, and epidermal stem cell numbers and function were diminished. These results indicate that Mdm2 is necessary to limit p53 activity in adult tissues to ensure normal stem cell function. Additional mouse models used to determine the role of Mdm2 phosphorylation will also be presented. DNA damage triggers an extensive cellular response, including activation of the ATM kinase. ATM activity is necessary for p53 protein stabilization and, therefore, p53 activation, but in vivo evidence suggests that phosphorylation of p53 itself had little effect on p53 stability. ATM was previously shown to phosphorylate MDM2 at serine residue 395 (394 in mice), and we generated knock-in mutant mouse models to study the role of this posttranslational modification in vivo. Absence of this phosphorylation site led to greatly diminished p53 stability and function in response to γ-irradiation and increased spontaneous tumorigenesis in mice. Conversely, a phosphomimic model demonstrated prolonged p53 activation in cells treated with γ-irradiation, which revealed that phosphorylation of this Mdm2 residue controls the duration of the DNA damage response. Therefore, these mouse models have uncovered new roles for the p53-Mdm2 regulatory axis in vivo and will be useful reagents in future studies of posttranslational modifications in oncogene and DNA damage-induced tumorigenesis.

Proto-Oncogene Proteins c-mdm2

Tumor Suppressor Protein p53

Homeostasis

DNA Damage

Cell Transformation

Neoplastic

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Cancer Biology

Cell and Developmental Biology

Cells

Genetic Phenomena

Neoplasms

Tissues

Identification and Characteristics of Factors Regulating Hepatocellular Carcinoma Progression and Metastasis: A Dissertation

Ahronian, Leanne G.

28 March 2014

Hepatocellular carcinoma (HCC) is a common malignancy of the liver that is one of the most frequent causes of cancer-related death in the world. Surgical resection and liver transplantation are the only curative options for HCC, and tumor invasion and metastasis render many patients ineligible for these treatments. Identification of the mechanisms that contribute to invasive and metastatic disease may enlighten therapeutic strategies for those not eligible for surgical treatments. In this dissertation, I describe two sets of experiments to elucidate mechanisms underlying HCC dissemination, involving the activities of Krüppel-like factor 6 and a particular p53 point mutation, R172H. Gene expression profiling of migratory HCC subpopulations demonstrated reduced expression of Krüppel-like factor 6 (KLF6) in invasive HCC cells. Knockdown of KLF6 in HCC cells increased cell transformation and migration. Single-copy deletion of Klf6 in a HCC mouse model results in increased tumor formation, increased metastasis to the lungs, and decreased survival, indicating that KLF6 suppresses both tumor formation and metastasis in HCC. To elucidate the mechanism of KLF6-mediated tumor and metastasis suppression, we performed gene expression profiling and ChIP-sequencing to identify direct transcriptional targets of KLF6 in HCC cells. This analysis revealed novel transcriptional targets of KLF6 in HCC including CDC42EP3 and VAV3, both of which are positive regulators of Rho family GTPases. Concordantly, KLF6 knockdown cells demonstrate increased activity of the Rho family GTPases RAC1 and CDC42, and RAC1 is required for migration induced following KLF6 knockdown. Moreover, VAV3 and CDC42EP3 are also required for enhanced cell migration in HCC cells with KLF6 knockdown. Together, this work describes a novel signaling axis through which KLF6-mediated repression of VAV3 and CDC42EP3 inhibits RAC1Gmediated HCC cell migration in culture, and potentially HCC metastasis in vivo. TP53 gene mutations are commonly found in HCC and are associated with poor prognosis. Prior studies have suggested that p53 mutants can display gain-of- function properties in other tumor types. Therefore, I sought to determine if a particular hotspot p53 mutation, p53R172H, provided enhanced, gain-of-function properties compared to p53 loss in HCC. In vitro, soft agar colony formation and cell migration is reduced upon knockdown of p53R172H, indicating that this mutation is required for transformation-associated phenotypes in these cells. However, p53R172H-expressing mice did not have enhanced tumor formation or metastasis compared to p53-null mice. These data suggest that p53R172H and p53 deletion are functionally equivalent in vivo, and that p53R172H is not a gain-of-function mutant in HCC. Inhibition of the related transcription factors p63 and p73 has been suggested as a potential mechanism by which mutant p53 exerts its gain-of-function effects. Analysis of p63 and p73 target genes demonstrated that they are similarly suppressed in p53-null and p53R172H-expressing HCC cell lines, suggesting a potential explanation for the phenotypes I observed in vivo and in vitro. Together, the studies described in this dissertation increase our understanding of the mechanisms underlying HCC progression and metastasis. Specifically, we find and characterize KLF6 as a novel suppressor of HCC metastasis, and determine the contribution of a common p53 point mutation in HCC. This work contributes to ongoing efforts to improve treatment options for HCC patients.

Hepatocellular Carcinoma

Gene Expression Profiling

p53 Genes

Kruppel-Like Transcription Factors

Liver Neoplasms

Point Mutation

rho GTP-Binding Proteins

Transcription Factors

Tumor Suppressor Protein p53

Dissertations, UMMS

Carcinoma, Hepatocellular

Genes, p53

Cancer Biology

Digestive System Diseases

Molecular Genetics

Neoplasms

A Tale of Two ARFs: Tumor Suppressor and Anti-viral Functions of p14ARF: A Dissertation

Straza, Michael W.

21 May 2010

Animals have evolved complicated and overlapping mechanisms to guard against the development of cancer and infection by pathogenic organisms. ARF, a potent tumor suppressor, positively regulates p53 by antagonizing p53’s negative regulator, MDM2, which in turn results in either apoptosis or cell cycle arrest. ARF also has p53-independent tumor suppressor activity. The CtBP transcriptional co-repressors promote cancer cell survival and migration/invasion. CtBP senses cellular metabolism via a regulatory dehydrogenase domain, and is a target for negative regulation by ARF. ARF targets CtBP to the proteasome for degradation, which results in the up regulation of proapoptotic BH3-only proteins, and p53-independent apoptosis. CtBP inhibition by ARF also up regulates PTEN, reducing cancer cell motility, making CtBP a potential therapeutic target in human cancer. The CtBP dehydrogenase substrate 4-methylthio-2-oxobutyric acid (MTOB) can act as a CtBP inhibitor at high concentrations, and is cytotoxic to cancer cells from a wide variety of tissues. MTOB induced apoptosis was independent of p53, and correlated with the de-repression of the pro-apoptotic CtBP repression target Bik. CtBP over-expression, or Bik silencing, rescued MTOB-induced cell death. MTOB did not induce apoptosis in mouse embryonic fibroblasts (MEFs), but was increasingly cytotoxic to immortalized and transformed MEFs, suggesting that CtBP inhibition may provide a suitable therapeutic index for cancer therapy. In human colon cancer cell peritoneal xenografts, MTOB treatment decreased tumor burden, and induced tumor cell apoptosis. To verify the potential utility of CtBP as a therapeutic target in human cancer the expression of CtBP and its negative regulator ARF was studied in a series of resected human colon adenocarcinomas. CtBP and ARF levels were inversely-correlated, with elevated CtBP levels (compared with adjacent normal tissue) observed in greater than 60% of specimens, with ARF absent in nearly all specimens exhibiting elevated CtBP levels. Targeting CtBP with a small molecule like MTOB may thus represent a useful and widely applicable therapeutic strategy in human malignancies. ARF has long been known to respond to virally encoded oncogenes. Recently, p14ARF was linked to the innate immune response to non-transforming viruses in mice. Therefore a wider role for the ARF pathway in viral infection was considered. Previous studies linking p53 to multiple points of the Human Immunodeficiency Virus-1 (HIV-1) life cycle suggested that ARF may also play a role in the HIV life cycle. In this study the interdependency of ARF and HIV infection was investigated. ARF expression was determined for a variety of cell types upon HIV infection. In every case, ARF levels exhibited dynamic changes upon HIV infection-in most cases ARF levels were reduced in infected cells. The impact of ARF over-expression or silencing by RNAi on HIV infection was also examined. Consistently, p24 levels were increased with ARF overexpression, and decreased when ARF was silenced. Thus ARF and HIV modulate each other, and ARF may paradoxically play a positive role in the HIV life cycle.

Tumor Suppressor Protein p14ARF

Tumor Suppressor Protein p53

Proto-Oncogene Proteins c-mdm2

HIV

C-terminal binding protein

Transaminases

Amino Acids, Peptides, and Proteins

Cancer Biology

Enzymes and Coenzymes

Neoplasms

Therapeutics

Viruses

Active regulator of SIRT1 is required for cancer cell survival but not for SIRT1 activity

Knight, J.R.P., Allison, Simon J., Milner, J.

20 November 2013

Yes / The NAD(+)-dependent deacetylase SIRT1 is involved in diverse cellular processes, and has also been linked with multiple disease states. Among these, SIRT1 expression negatively correlates with cancer survival in both laboratory and clinical studies. Active regulator of SIRT1 (AROS) was the first reported post-transcriptional regulator of SIRT1 activity, enhancing SIRT1-mediated deacetylation and downregulation of the SIRT1 target p53. However, little is known regarding the role of AROS in regulation of SIRT1 during disease. Here, we report the cellular and molecular effects of RNAi-mediated AROS suppression, comparing this with the role of SIRT1 in a panel of human cell lines of both cancerous and non-cancerous origins. Unexpectedly, AROS is found to vary in its modulation of p53 acetylation according to cell context. AROS suppresses p53 acetylation only following the application of cell damaging stress, whereas SIRT1 suppresses p53 under all conditions analysed. This supplements the original characterization of AROS but indicates that SIRT1 activity can persist following suppression of AROS. We also demonstrate that knockdown of AROS induces apoptosis in three cancer cell lines, independent of p53 activation. Importantly, AROS is not required for the viability of three non-cancer cell lines indicating a putative role for AROS in specifically promoting cancer cell survival.

Acetylation

Cell line

Cell survival

Gene expression regulation

Gene knockdown techniques

HCT116 cells

Humans

MCF-7 cells

Neoplasms

Nuclear proteinsy

RNA interference

Sirtuin 1

Transcription factors

Tumor suppressor protein p53

Active regulator of SIRT1

p53 acetylation

Regulation of SIRT1

Zinc oxide nanoparticles affect the expression of p53, Ras p21 and JNKs: an ex vivo/in vitro exposure study in respiratory disease patients

Kumar, A., Najafzadeh, Mojgan, Jacob, B.K., Dhawan, A., Anderson, Diana

January 2015

No / Zinc oxide (ZnO) nanoparticles are the mostly used engineered metal oxide nanoparticles in consumer products. This has increased the likelihood of human exposure to this engineered nanoparticle (ENPs) through different routes. At present, the majority of the studies concerning ZnO ENPs toxicity have been conducted using in vitro and in vivo systems. In this study, for the first time we assessed the effect of ZnO ENPs on the major cellular pathways in the lymphocytes of healthy individuals as well as in susceptible patients suffering from lung cancer, chronic obstructive pulmonary disease (COPD) and asthma. Using the differential expression analysis, we observed a significant (P < 0.05) dose-dependent (10, 20 and 40 microg/ml for 6h) increase in the expression of tumour suppressor protein p53 (40, 60 and 110%); Ras p21 (30, 52 and 80%); c-Jun N-terminal kinases; JNKs) (28, 47 and 78%) in lung cancer patient samples treated with ZnO ENPs compared to healthy controls. A similar trend was also seen in COPD patient samples where a significant (P < 0.05) dose-dependent increase in the expression of tumour suppressor protein p53 (26, 45 and 84%), Ras p21 (21, 40 and 77%), JNKs (17, 32 and 69%) was observed after 6h of ZnO ENPs treatment at the aforesaid concentrations. However, the increase in the expression profile of tested protein was not significant in the asthma patients as compared to controls. Our results reiterate the concern about the safety of ZnO ENPs in consumer products and suggest the need for a complete risk assessment of any new ENPs before its use.

Adult

Aged

Asthma

Cells

Female

Humans

JNK mitogen-activated protein kinases

Lung neoplasms

Lymphocytes

Male

Metal nanoparticles

Middle aged

Proto-oncogene proteins p21(ras)

Pulmonary disease

Respiratory tract diseases

Tumor suppressor protein p53

Zinc oxide

Régulation transcriptionnelle des isoformes de la protéine suppresseur de tumeur p53 tronquée dans leur région amino-terminale : impact des polymorphismes du gène TP53 / Transcriptional regulation of N-truncated isoforms of the p53 tumor suppressor : impact of the TP53 polymorphisms

Marcel, Virginie

30 June 2009

Le gène suppresseur de tumeurs TP53 exprime plusieurs isoformes, dont Δ40p53 (perte du domaine de transactivation) et Δ133p53 (perte du domaine de transactivation et d’une partie du domaine de liaison à l’ADN). Ces isoformes inhibent l’activité suppressive de p53 et seraient sur-exprimées dans les cancers (sein et mélanome). Dans les cancers faiblement associés à une mutation TP53, ces isoformes seraient de bons candidats pour inactiver p53. Il convient de comprendre les mécanismes transcriptionnels qui régulent leurs expressions. Δ133p53 est produite par un promoteur alternatif P3 localisé dans TP53. Nous avons montré que Δ133p53 est un gène cible de p53, qui transactive le promoteur P3 par fixation sur un élément de réponse présent dans l’exon 4. L’expression de Δ133p53 est corrélée à celle d’autres gènes cibles de p53 en réponse à un stress génotoxique. De plus, elle réprime la suppression de la prolifération induite par p53 en inhibant ses capacités de liaison à l’ADN. Δ40p53 est produite par épissage alternatif, dont la rétention de l’intron 2 favorise sa traduction et empêche celle de p53. Nous avons montré que des structures de type G-quadruplexes présentes dans l’intron 3 régulent l’exclusion de l’intron 2. Ces structures comprennent le polymorphisme TP53PIN3 (duplication de 16pb), qui change leur localisation et affecte l’expression des ARNm codant p53 et Δ40p53. De plus, nous avons montré que ce polymorphisme est associé à une accélération de la cancérogenèse dans le syndrome Li-Fraumeni, caractérisé par la présence d’une mutation germinale TP53 (effet modificateur: 19 ans de différence à l’âge moyen du premier diagnostique entre les deux variants). L’expression des isoformes de p53 dépend de mécanismes transcriptionnels différents, indiquant des rôles différents dans la modulation des fonctions suppressives de p53. En plus d’inactiver p53 dans les cancers, ces isoformes pourraient être à l’origine des effets modificateurs des polymorphismes de TP53 sur les mutants p53. / The TP53 tumour suppressor gene expresses several isoforms, of which Δ40p53 (lack of transactivation domain) and Δ133p53 (lack of both transactivation and part of DNA-binding domains). These isoforms inhibit p53 suppressive activity and have been shown to be over-expressed in cancers (breat and melanoma). In cancers associated with low TP53 mutation rate, these isoforms could be great candidates to inactivate p53. It seems important to understand the transcriptional mechanisms that regulate their expression. Δ133p53 is produced by an alternative P3 promoter within TP53. We showed that Δ133p53 is a p53 target gene. p53 transactivates the P3 promoter and interact with a response element within exon 4. Δ133p53 expression is correlated to other p53 target genes in response to genotoxic stress. In addition, Δ133p53 inhibits p53-dependent suppression of proliferation by inhibiting p53 DNA-binding activity. Δ40p53 is produced by alternative splicing: retention of intron 2 favours its translation while it avoid the one of p53. We showed that G-quadruplex structures are formed in intron 3 and regulate retention of intron 2. The TP53PIN3 polymorphism (16 bp duplication) is embedded within these structures and affects their locations leading to variation of mRNA expression of p53 and Δ40p53. In addition, we showed that this polymorphism is associated with acceleration of carcinogenesis in Li-Fraumeni syndrome, characterized by germline TP53 mutation (genetic modifier effect: difference of 19 years in mean age at first diagnosis of cancer between the two variants). The expression of p53 isoforms depends on different transcriptional mechanisms, suggesting different roles in the modulation of p53 suppressive functions. In addition to inactivate p53 in cancers, these isoforms could be the mediators of modifier effects observed for TP53 polymorphisms on mutant p53.

Protéine suppresseur de tumeur p53

Isoformes

Régulation transcriptionnelle

Structures de type G-quadruplexe

Effet modificateur

Épissage alternatif

Syndrome Li-Fraumeni

Promoteur interne

Tumor suppressor protein p53

Isoforms

Transcriptional regulation

Structures such as G-quadruplex

Modifying effect

Alternative splicing

Li-Fraumeni Syndrome

Internal promoter

572.8