Effects of vitamin e on the epithelial-mesenchymal transition in testicular development exposed to valproic acid / Efectos de la vitamina e en la interacción epitelio-mesenquimático en el desarrollo testicular expuesto a ácido valproico

SUMMARY: In testicular differentiation, somatic cells must adopt a specific destiny towards sustentacular, peritubular and interstitial cells, being fundamental for the morphogenesis of seminiferous tubules, mediated by morphogens such as Desert Hedgehog (DHH), insulin-like growth factor-1 (IGF-1) and fibroblastic growth factor 2 (FGF-2). Its alteration could be related to failures in the development mechanisms, such as those caused by valproic acid (VPA), which can be reversed with vitamin E (VE). The objective of the study was to evaluate the epithelial-mesenchymal transition (EMT) in the testicular development of mice exposed to VPA and VE. 12 groups of pregnant female mice were formed that were separated by days post-coital (dpc) at 12.5 dpc, 17.5 dpc and 6 weeks postnatal, each one subdivided into 4 groups of 5 pregnant women each. Subgroups received different treatments from the beginning to the end of gestation orally: 600 mg/kg of VPA, 600 mg/kg of VPA and 200 IU of VE, 200 IU of VE and the control group 0.3 mL of 0.9% physiological solution. Immunohistochemistry was performed for the detection of DHH, IGF-1 and FGF-2. Immunolocalization of DHH was observed in all stages, with more evident significant differences in integrated optical density (IOD) and percentage of immunoreaction area at 6 weeks postnatal, being lower in the VPA group. In IGF-1, lower intensity and distribution of immunostaining was observed in the fetal and pubertal stages in the VPA groups, a similar situation with FGF-2, but only evident at 17.5 dpc, with significant differences. These results demonstrate that VPA can alter EMT between somatic cells in testicular development, with VE being an agent capable of attenuating this process.

RESUMEN: En la diferenciación testicular, es necesario que las células somáticas adopten un destino específico hacia células sustentaculares, peritubulares e intersticiales, siendo fundamental para la morfogénesis de los túbulos seminíferos, mediado por morfógenos como Desert Hedgehog (DHH), Factor de Crecimiento Fibroblástico 2 (FGF-2) y Factor de Crecimiento símil a Insulina (IGF-1). Su alteración se podría relacionar a fallas en los mecanismos de desarrollo, como los que ocasiona el ácido valproico (VPA), los cuales pueden ser revertidos con la vitamina E (VE). El objetivo de estudio fue evaluar la transición epitelio-mesenquimática (EMT) en el desarrollo testicular de ratones expuestos a VPA y VE. Se conformaron 12 grupos de ratones hembra gestantes que se separaron por días post-coital (dpc) a los 12.5 dpc, 17.5 dpc y 6 semanas post-natal, cada uno subdividido en 4 grupos de 5 gestantes cada uno. Cada subgrupo recibió diferentes tratamientos desde el inicio hasta el término de la gestación vía oral: 600 mg/kg de VPA, 600 mg/kg de VPA y 200 UI de VE, 200 UI de VE y el grupo control 0,3 mL de solución fisiológica 0,9%. Se realizó técnica inmunohistoquímica para la detección de DHH, IGF-1 y FGF-2. Se observó la inmunolocalización de DHH en todos los estadios, con diferencias significativas más evidentes en la densidad óptica integrada (IOD) y porcentaje de área de inmunoreacción a las 6 semanas post-natal, siendo menor en el grupo VPA. En IGF-1, se observó en la etapa fetal y puberal menor intensidad y distribución de la marcación en los grupos VPA, situación similar con la inmunomarcación de FGF-2, pero sólo evidenciándose a los 17.5 dpc, con diferencias significativas. Estos resultados demuestran que el VPA puede alterar la EMT entre las células somáticas en el desarrollo testicular, siendo la VE un agente capaz de atenuar este proceso.

Effect of a novel bioceramic root canal sealer on the angiogenesis-enhancing potential of assorted human odontogenic stem cells compared with principal tricalcium silicate-based cements

Abstract Objective: This study evaluated the angiogenesis-enhancing potential of a tricalcium silicate-based mineral trioxide aggregate (ProRoot MTA), Biodentine, and a novel bioceramic root canal sealer (Well-Root ST) in human dental pulp stem cells (hDPSCs), human periodontal ligament stem cells (hPLSCs), and human tooth germ stem cells (hTGSCs). Methodology: Dulbecco's modified Eagle's medium was conditioned for 24 h by exposure to ProRoot MTA, Biodentine, or Well-Root ST specimens (prepared according to the manufacturers' instructions). The cells were cultured in these conditioned media and their viability was assessed with 3-(4,5-dimethyl-thiazol-2-yl)-5-(3-carboxy-methoxy-phenyl)-2-(4-sulfo-phenyl)-2H tetrazolium (MTS) on days 1, 3, 7, 10, and 14. Angiogenic growth factors [platelet-derived growth factor (PDGF), basic fibroblast growth factor (FGF-2), and vascular endothelial growth factor (VEGF)] were assayed by sandwich enzyme-linked immunosorbent assay (ELISA) on days 1, 7, and 14. Human umbilical vein endothelial cell (HUVEC) migration assays were used to evaluate the vascular effects of the tested materials at 6-8 h. Statistical analyses included Kruskal-Wallis, Mann-Whitney U, and Friedman and Wilcoxon signed rank tests. Results: None of tricalcium silicate-based materials were cytotoxic and all induced a similar release of angiogenic growth factors (PDGF, FGF-2, and VEGF) (p>0.05). The best cell viability was observed for hDPSCs (p<0.05) with all tricalcium silicate-based materials at day 14. Tube formation by HUVECs showed a significant increase with all tested materials (p<0.05). Conclusion: The tricalcium silicate-based materials showed potential for angiogenic stimulation of all stem cell types and significantly enhanced tube formation by HUVECs.

Evaluation of prophylactic and therapeutic effects of sildenafil on acute radiation proctitis in rats

Abstract Purpose: To investigate the prophylactic and therapeutical effects of sildenafil in a model of acute radiation proctitis (ARP). Methods: All experimental procedures of this study was examined by histopathological, immunohistochemical and transmission electron microscopic analysis. Results: Our histopathological evaluations indicated significant increases in lesion severity, cryptic apsis, cryptitis, cryptic distortion, reactive atypia and infiltration depth of the control (proctitis) group. While the prophylaxis group and the treatment group had significantly lower scores. High-dose group showed similar results as prophylaxis group. Histopathological findings of the prophylaxis group was more significant than the treatment group. Immunoreactivities of IL-1β, FGF-2, TNF- α and HIF-1α increased in the control group especially in the epithelial and cryptic regions. On the contrary, sildenafil application caused significant decreases of inflammatory markers in all treatment groups, specifically better results in the prophylaxis group. Conclusion: The sildenafil has anti-inflammatory effects on ARP, as well as protective effects against ARP and the protective effect of sildenafil surpasses its therapeutic effect histopathologically.

Comparison of primary human gingival fibroblasts from an older and a young donor on the evaluation of cytotoxicity of denture adhesives

Abstract Denture adhesives (DA) improve the retention and stability of ill-fitting dentures, especially for older adults. These materials should be biocompatible, i.e., they cannot cause undesired biological responses and be non-cytotoxic to oral tissues. However, in vitro testing of DA biocompatibility employing primary cell culture may possibly be affected by other factors, such as the donor age. Objective To compare the cytotoxicity of three different denture adhesives when assessed in primary gingival fibroblasts from a young donor or from an older donor, as well as the release of the basic fibroblast growth factor (bFGF), and the inflammatory response marker interleukin-6 (IL-6). Material and Methods Gingival fibroblasts isolated from a 30- and a 62-year-old donor were assayed for proliferation (1-7 days) and sensitivity to latex (positive control). Fibroblasts were indirectly exposed to Corega Ultra (cream), Corega powder and Fixodent Original for a 24 h period and assayed by XTT and Crystal Violet tests. The release of IL-6 and bFGF by exposed cells was determined by ELISA. Results While cells from the young donor presented higher cell growth after 7 days, the sensitivity to increasing concentrations of latex extracts was very similar between young and older cells. Both XTT and CVDE detected no difference between the DA and the control group. All materials induced higher levels of IL-6 and bFGF compared to control. Cells from the older donor exposed to Corega Ultra released lower levels of cytokine and growth factor. Conclusions All materials were considered non-cytotoxic, but affected cytokine and growth factor release. The biological differences found between fibroblasts from both donors could be due to individual or age-related factors. The authors suggest the use of cells from older donors on studies of dental products aimed at older patients, to better simulate their physiological response.

Extracellular calcium increases fibroblast growth factor 2 gene expression via extracellular signal-regulated kinase 1/2 and protein kinase A signaling in mouse dental papilla cells

Abstract We previously reported that elevated extracellular calcium (Ca2+) levels increase bone morphogenetic protein 2 expression in human dental pulp (hDP) cells. However, it is unknown whether extracellular Ca2+ affects the expression of other growth factors such as fibroblast growth factor 2 (FGF2). Objective: The present study aimed to examine the effect of extracellular Ca2+ on FGF2 gene expression in hDP and immortalized mouse dental papilla (mDP) cells. Materials and Methods: Cells were stimulated with 10 mM CaCl2 in the presence or absence of cell signaling inhibitors. FGF2 gene expression was assessed using real-time polymerase chain reaction. The phosphorylation status of signaling molecules was examined by Western blotting. Results: Extracellular Ca2+ increased FGF2 gene expression in mDP and hDP cells. Gene expression of the calcium-sensing receptor and G protein-coupled receptor family C group 6 member A, both of which are extracellular Ca2+ sensors, was not detected. Ca2+-mediated Fgf2 expression was reduced by pretreatment with the protein kinase A (PKA) inhibitor H-89 or extracellular signal-regulated kinase (ERK) 1/2 inhibitor PD98059 but not by pretreatment with the protein kinase C inhibitor GF-109203X or p38 inhibitor SB203580. Extracellular Ca2+ increased PKA activity and ERK1/2 phosphorylation. Ca2+-induced PKA activity decreased by pretreatment with PD98059. Conclusions: These findings indicate that elevated extracellular Ca2+ levels led to increased Fgf2 expression through ERK1/2 and PKA in mDP cells and that this mechanism may be useful for designing regenerative therapies for dentin.

Mecanismos moleculares do efeito citotóxico de FGF2 em células transformadas por RAS / Molecular mechanisms of the cytotoxic effect of FGF2 in rastransformed cells

O FGF2 (Fibroblast Growth Factor 2) é um clássico fator peptídico de crescimento que ativa vias intracelulares de sinalização molecular promovendo a transição G0 → G1 e o comprometimento com o ciclo celular. Não surpreendentemente, seus papéis pró-tumoral e angiogênico estão bem caracterizados e estabelecidos na literatura. No entanto, um crescente corpo de evidências tem indicado que o FGF2 também pode exercer efeitos anti-tumorais in vitro e in vivo, em modelos murinos e também humanos. Neste contexto, nosso grupo publicou em 2008 que o FGF2 exerce um efeito antiproliferativo seletivo em células murinas malignas dependentes de alta atividade de K-Ras e H-Ras. Os genes ras compõem a família de oncogenes mais frequentemente mutada em tumores malignos humanos, alcançando aproximadamente 30% de todos os casos. O desenvolvimento de terapias contra tumores dependentes de Ras fracassou, apesar dos intensos esforços e investimentos desde a descoberta em 1982 de suas mutações ativadoras em múltiplos cânceres. O objetivo deste trabalho foi desvendar os mecanismos moleculares pelo quais o FGF2 inibe irreversivelmente a proliferação de células malignas dependentes da atividade de Ras, empregando como modelos experimentais a linhagem murina Y1 de células adrenocorticais, e 4 linhagens humanas derivadas de sarcomas de Ewing. Identificamos que o efeito citotóxico do FGF2 não se processa por um mecanismo novo e independente das viasproliferativas classicamente ativadas por fatores peptídicos de crescimento. Ao contrário, seu efeito tóxico é resultado de sinalização mitogênica exagerada decorrente de estimulação sustentada por FGF2. A ativação da via de MAPK, principal sinalização mitogênica intracelular, a níveis elevados e sustentados provoca estresse mitogênico, que se propaga para a fase S na forma de estresse replicativo. Nesta situação, a célula passa a depender exageradamente da sinalização protetora de ATR, de modo que a combinação de estimulação com FGF2 e inibição de ATR foi altamente letal para as células malignas dependentes de Ras empregadas neste trabalho. Também analisamos as bases moleculares de resistência a FGF2 exibida por células Y1 anteriormente selecionadas para resistir ao efeito tóxico do FGF2 (Y1FRs). Descobrimos que a pressão seletiva do FGF2 não teve efeito na expressão de seus receptores, mas provocou a eliminação de um dos dois cromossomos que portam a amplificação gênica de ras nesta linhagem, enquanto o segundo cromossomo foi mantido por ser a única fonte de genes ribossomais ativos. Suas cópias de ras, no entanto, mostraram-se transcricionalmente silenciadas. Além disso, as sublinhagens Y1FRs não expressam o principal RasGEF, GRP4, encontrado nas células parentais Y1, o que pode ter influenciado o surgimento do fenótipo resistente ao FGF2. As linhagens resistentes mostraram grande redução no número de cromossomos e aumento da frequência de fusões entre cromossomos não homólogos em relação às células parentais

FGF2 (Fibroblast Growth Factor 2) is a classic peptide growth factor that activates intracellular molecular signaling pathways promoting the G0 → G1 transition and cell cycle commitment. Not surprisingly, its pro-tumor and angiogenic roles are well characterized and established in the literature. However, a growing body of evidence has indicated that FGF2 may also exert anti-tumor effects in vitro and in vivo in murine and human models. In this context, our group reported in 2008 that FGF2 exerts a selective antiproliferative effect in murine cells dependent on high activity of K-Ras and H-Ras. Ras genes make up the most frequently mutated oncogene family in human malignant tumors, reaching approximately 30% of all cases. The development of therapies against Ras-dependent tumors has failed despite intense efforts and investments since the discovery in 1982 of its activating mutations in multiple cancers. The objective of this work was to uncover the molecular mechanisms by which FGF2 irreversibly inhibits the proliferation of malignant cells dependent on Ras activity, using as experimental models the Y1 murine lineage of adrenocortical malignant cells and 4 human lineages derived from Ewing sarcomas. We showed that the cytotoxic effect of FGF2 did not involve novel cell cycle regulatory pathways; instead, this cytotoxic effect is a result of sustainedhyper mitogenic stimulation by FGF2. Activation of the KRas/MAPK pathway, the major intracellular mitogenic signaling, at high and sustained levels provokes mitogenic stress, which is propagated to S phase as replicative stress. In this situation, the cell dependence on the ATR protective signaling is enhanced, so that the combination of stimulation with FGF2 and inhibition of ATR was highly lethal for the Ras dependent malignant cells employed in this work. We also analyzed the molecular basis of FGF2 resistance exhibited by Y1 cells previously selected for resistance to FGF2. We found that the selective pressure of FGF2 had no effect on the expression of its receptors but promoted the elimination of one of the two marker chromosomes that carry the K-ras amplified copies, while the second chromosome was maintained because it is the only source of active ribosomal genes; however, its K-ras amplified copies were transcriptionally silenced. In addition, the Y1FRs sublines did not express the main RasGEF, GRP4, found in the parental Y1 cells, which might have played a role in the emergence of the FGF2-resistant phenotype. The resistant Y1FRs sublines showed a large reduction in chromosome numbers and increased frequency of fusions between non-homologous chromosomes in relation to parental cells

Efeito dual de FGF2 e PMA em células HEK 293 transformadas por H-rasV12 / Dual effects of FGF2 and PMA on H-rasV12 transformed HEK293 cell line

Sabe-se há décadas que mutações nos genes ras estão presentes em cerca de 20% dos cânceres humanos, mas o desenvolvimento de terapias eficazes para o tratamento de câncer dependente dos oncogenes ras permanece um desafio científico importante. Nesse contexto, o nosso grupo publicou recentemente resultados interessantes mostrando que FGF2 exógeno ou PMA, contrariamente à expectativa geral, inibem a proliferação de células de camundongo malignas dependentes dos oncogenes H- ou K-Ras. Para dar continuidade a estes estudos o projeto desta tese foi planejado para investigar os mecanismos subjacentes a possíveis efeitos citotóxicos de FGF2 e PMA em células humanas transformadas por ras. Para esse fim, a linhagem humana imortalizada HEK 293 foi condicionalmente transformada pela expressão ectópica da construção quimérica de DNA ER:H-rasV12, que codifica a oncoproteína de fusão ER:H-RasV12, cuja atividade é induzível por 4-hidroxi-tamoxifen (4OHT). Essa abordagem nos permitiu verificar os efeitos de FGF2 e PMA em sublinhagens HEK/ER:HrasV12 fenotipicamente "normais" ou transformadas por níveis crescentes da oncoproteína H-RasV12. Os principais resultados mostraram que tanto FGF2 como PMA tem efeito dual promovendo ou inibindo a proliferação das células transformadas em função da concentração intracelular crescente de H-RasV12. Ensaios de crescimento de colônias em suspensão de agarose mostraram que: a) as células parentais HEK293 não desenvolveram colônias mesmo quando tratadas com FGF2 ou PMA, resultados que estão de acordo com seu fenótipo não tumoral; b) mas, as sublinhagens HEK/ER:HrasV12 deram origem a colônias mesmo quando tratadas com concentrações pequenas de 4OHT, que condicionaram níveis intracelulares baixos de ER:HRasV12; nestas condições experimentais, FGF2 foi um forte promotor do crescimento de colônias, condizente com sua reconhecida atividade promotora do crescimento de células tumorais em suspensão; ainda nestas condições, PMA não teve efeito significante sobre o crescimento de colônias; c) coerentemente, concentrações elevadas de 4-OHT levaram aos níveis intracelulares mais altos de ER:HRasV12 e, por conseguinte, a desenvolvimento máximo de colônias de células HEK/ER:HrasV12, no entanto, nestas condições, ambos FGF2 e PMA inibiram completamente o crescimento de colônias. Por outro lado, transformação de HEK293 com um vetor de expressão constitutiva de HrasV12 levou à seleção e isolamento das sublinhagens tumorais HEK/HrasV12, cujo fenótipo se caracterizou por: a) nenhum efeito de FGF2 sobre a sua proliferação e b) forte inibição de sua proliferação por PMA. A ação citotóxica de PMA exclusivamente observada em células HEK 293 transformadas por H-rasV12 se caracterizou por: a) total dependência de PKC, provavelmente mediada pela ativação proteolítica específica de PKC δ; b) envolvimento de níveis elevados e sustentados de ROS com disparo tardio de apoptose

It is known for nearly 20 years that mutated ras oncogenes are found in 20% of human malignancies, however efficacious therapies are not yet available for Ras-driven cancer. Along of these lines, our group recently published provocative results showing, against common belief, that FGF2 and PMA inhibited proliferation of Ras-dependent malignant mouse cells. Aiming to gain insight into this intriguing phenomenon, the present thesis project was planned to investigate the possible cytotoxicity of FGF2 and PMA in human Ras-driven malignant cells. To this end an immortalized non-tumorigenic human cell line (HEK293) was stably transformed with the DNA construction ER:H-rasV12, which encodes the fusion protein ER:H-RasV12, whose activity requires activation by 4-hidroxitamoxifen (4-OHT). This approach allowed us to evaluate FGF2 and PMA effects on HEK/ER:HrasV12 sublines under switching from "normal" to transformed phenotypes upon 4-OHT induction. Our main results have shown that both FGF2 and PMA displayed dual effects promoting or inhibiting proliferation of HEK/ER:HrasV12 cells in function of ER:HRasV12 intracellular levels. Clonogenic assays in agarose suspension have shown: a) parental HEK293 line did not develop colonies under FGF2 and PMA treatment or not, in agreement with its non-tumorigenic nature; b) however, HEK/ER:HrasV12 sublines developed colonies even under low 4-OHT concentrations, which led to low ER:HRasV12 intracellular levels; under these conditions FGF2 strongly promoted colony growth and PMA had no effect; c) furthermore, in HEK/ER:HrasV12 sublines, elevated 4-OHT concentrations led to high ER:HRasV12 intracellular levels and maximal colony growth; but, under these experimental conditions both FGF2 and PMA abolished colony growth. On the other hand, HEK293 transformation with a vector that constitutively express HrasV12 yielded HEK/ER:HrasV12 sublines displaying the following phenotypic traits: a) non FGF2 effects on proliferation and b) severe proliferation inhibition by PMA. PMA toxicity, exclusively observed in HrasV12 -transformed HEK293 cells, was characterized by: a) total dependency on PKC, likely mediated by specific proteolytic activation of PKCδ; b) involvement of high and sustained ROS levels correlated with late apoptosis triggering

Vulnerabilidades específicas de células malignas humanas dependentes de Ras oncogênico: FGF2 e PMA como supressores de tumor / Specific vulnerabilities of human malignant cells dependent on oncogenic Ras: FGF2 and PMA as tumor suppressors

Um passo limitante no desenvolvimento de fármacos para terapias do câncer está na descoberta de vulnerabilidades específicas de células tumorais que sirvam à identificação de alvos moleculares apropriados à intervenção farmacológica. Esta é a motivação central desta tese, cuja abordagem experimental focaliza a ação oncogênica das proteínas Ras. Amplificação ou mutação ativadora nos proto-oncogenes ras estão entre as alterações genéticas mais frequentes em cânceres. Essas lesões genéticas aparecem na origem etiológica de múltiplas formas de fenótipos malignos. Mas, essas lesões oncogênicas também conferem susceptibilidades letais às células malignamente transformadas frente a determinados agentes que não interferem significativamente nas funções vitais de células normais. Nos últimos anos nosso laboratório vem estudando os mecanismos moleculares da ação antiproliferativa do fator de crescimento FGF2 (Fibroblast Growth Factor2) e do éster de forbol PMA (Phorbol-12-Myristate-13-Acetate) em linhagens de células murinas malignas dependentes de ras oncogênico. Nesta tese investigamos quanto de nossas observações anteriores com células murinas são aplicáveis a células humanas. Nesse sentido focalizamos a linhagem HaCaT de queratinócitos humanos imortalizados e seus subclones malignizados por expressão ectópica de H-RasV12; além disso, numa triagem inicial também examinamos treze linhagens celulares humanas derivadas de tumores naturais portadores de mutação ativadora em H-Ras, N-Ras ou K-Ras. Nossos resultados mostram que os queratinócitos da linhagem parental HaCaT expressam receptores de FGFs e respondem mitogenicamente tanto a FGF2 como a PMA; portanto, ambos FGF2 e PMA são benéficos aos queratinócitos HaCaT. Por outro lado, o FGF2 mostrou-se citotóxico para subclones HaCaT que expressam H-RasV12 induzível, mas sublinhagens HaCaT com expressão constitutiva de H-RasV12 mostraram-se resistentes à ação citotóxica de FGF2. Diferentemente de FGF2, PMA bloqueou a proliferação de sublinhagens clonais HaCaT-H-RasV12 em ambos substrato sólido e suspensão de agarose e, também, reduziu a estratificação dos queratinócitos HaCaT-H-RasV12 em culturas organotípicas. PMA foi citotóxico e não citostático, pois induziu morte apoptótica sem causar arresto em nenhuma fase específica do ciclo celular. Em HaCaT parental, PMA induziu aumento transitório dos níveis intracelulares de espécies reativas de oxigênio (ROS), mas nos queratinócitos HaCaT-H-RasV12, PMA causou aumentos mais altos e persistentes de ROS, o que promove forte estresse oxidativo, provavelmente responsável pela toxidez deste ester de forbol. Entre as treze linhagens celulares humanas malignas com H-Ras, N-Ras ou K-Ras mutados, onze foram vulneráveis à ação citotóxica de PMA; mas apenas uma delas, a linhagem de tumor urotelial UM-UC-3, foi sensível ao efeito anti-proliferativo de FGF2. Em conclusão, células malignas humanas com Ras mutado parecem superar rapidamente uma possível toxidez de FGF2, mas não ultrapassam a toxidez causada por PMA

A challenge in drug development for cancer therapy is the discovering of molecular targets suitable for pharmacological interference. This challenge was the main motivation of the present thesis. Amplification or activating mutation in ras proto-oncogenes are among the most frequent genetic lesions in human cancer. Actually, mutated Ras onco-proteins are in the etiological roots of multiple malignant phenotypes; however these onco-proteins also cause specific lethal vulnerabilities even in robust malignant cells. Recently, our laboratory reported that malignant murine cell lines dependent on oncogenic Ras are prone to toxicity initiated by FGF2 (Fibroblast Growth Factor 2) and PMA (Phorbol-12-Myristate-13-Acetate), which are not harmful to normal cells. This cytotoxicity of FGF2 and PMA very likely follows different molecular mechanisms, which, however, are not yet completely understood. The aim of this thesis was to investigate whether these vulnerabilities found in murine malignant cells were also valid for human malignant cell lines dependent on oncogenic Ras. To this end the experimental approach was focused on the HaCaT cell line of immortalized human keratinocytes and its sublines transformed by H-RasV12 ectopic expression. In addition thirteen human cell lines derived from natural tumor carrying mutated H-Ras, N-Ras or K-Ras oncogenes were also screened. The results showed that HaCaT keratinocytes express FGF receptors and respond mitogenically to both FGF2 and PMA. On the other hand, FGF2 was cytotoxic to HaCaT subclones expressing inducible H-RasV12. But, HaCaT sublines constitutively expressing H-RasV12 were resistant to FGF2 toxicity. However, PMA was toxic to all HaCaT-H-RasV12 sublines, inhibiting proliferation in both solid substrate and agarose suspension cultures and, also reducing stratification in organotypic cultures. Furthermore, in HaCaT-H-RasV12 sublines, but not in the parental HaCaT line, PMA caused a persistently high increase in intracellular levels of reactive oxygen species (ROS) and concomitantly induced apoptosis. Moreover, eleven of the thirteen human tumor cell lines with mutated H-Ras, N-Ras or K-Ras, were growth inhibited by PMA, whereas only one of them was inhibited by FGF2, the urothelial tumor cell line UM-UC-3. In conclusion, human malignant cells driven by Ras oncogenes very likely rapidly overcome FGF2 toxicity, whereas they remain stably vulnerable to PMA cytotoxicity

Distant microglial and astroglial activation secondary to experimental spinal cord lesion

This paper analysed whether glial responses following a spinal cord lesion is restricted to a scar formation close to the wound or they might be also related to widespread paracrine trophic events in the entire cord. Spinal cord hemitransection was performed in adult rats at the thoracic level. Seven days and three months later the spinal cords were removed and submitted to immunohistochemistry of glial fibrillary acidic protein (GFAP) and OX42, markers for astrocytes and microglia, as well as of basic fibroblast growth factor (bFGF), an astroglial neurotrophic factor. Computer assisted image analysis was employed in the quantification of the immunoreactivity changes. At the lesion site an increased number of GFAP positive astrocytes and OX42 positive phagocytic cells characterized a dense scar formation by seven days, which was further augmented after three months. Morphometric analysis of the area and microdensitometric analysis of the intensity of the GFAP and OX42 immunoreactivities showed reactive astrocytes and microglia in the entire spinal cord white and gray matters 7 days and 3 months after surgery. Double immunofluorescence demonstrated increased bFGF immunostaining in reactive astrocytes. The results indicated that glial reaction close to an injury site of the spinal cord is related to wounding and repair events. Although gliosis constitutes a barrier to axonal regeneration, glial activation far from the lesion may contribute to neuronal trophism and plasticity in the lesioned spinal cord favoring neuronal maintenance and fiber outgrowth

Analysis of trophic responses in lesioned brain: focus on basic fibroblast growth factor mechanisms

The actions of fibroblast growth factors (FGFs), particularly the basic from (bFGF), have been described in a large number of cells and include mitogenicity, angiogenicity and wound repair. The present review discusses the presence of the bFGF protein and messenger RNA as well as the presence of the FGF receptor messenger RNA in the rodent brain by means of semiquantitative radioactive in situ hybridization in combination with immunohistochemistry. Chemical and mechanical injuries to the brain trigger a reduction in neurotransmitter synthesis and neuronal death which are accompanied by astroglial reaction. The altered synthesis of bFGF following brain lesions or stimulation was analyzed. Lesions of the central nervous system trigger bFGF gene expression by neurons and/or activated astrocytes, depending on the type of lesion and time post-manipulation. The changes in bFGF messenger RNA are frequently accompanied by a subsequente increase of bFGF immunoreactivity in astrocytes in the lesioned pathway. The reactive astrocytes and injured neurons synthesize increased amount of bFGF, which may act as a paracrine/autocrine factor, protecting neurons from death and also stimulating neuronal plasticity and tissue repair.