Interplay between receptor tyrosine kinases and hypoxia signaling in cancer.

Deregulated signaling via receptor tyrosine kinase (RTK) pathways is prevalent in numerous types of human cancers and is commonly correlated with worst prognosis, resistance to various treatment modalities and increased mortality. Likewise, hypoxic tumors are often manifested by aggressive mode of growth and progression following an adaptive genetic reprogramming with consequent transcriptional activation of genes encoding proteins, which support tumor survival under low oxygen-related conditions. Consequently, both the hypoxia-inducible factor (HIF) system, which is the major mediator of hypoxia-related signaling, and numerous RTK systems are considered critical molecular targets in current cancer therapy. It is now evident that there is an intricate molecular crosstalk between RTKs and hypoxia-related signaling in the sense that hypoxia can activate expression of particular RTKs and/or their corresponding ligands, while some RTK systems have been shown to trigger activation of the HIF machinery. Moreover, signaling regulation of some RTK systems under hypoxic conditions has also been documented to take place in a HIF-independent manner. With this review we aim at overviewing the most current observations on that topic and highlight the importance of the potential co-drugging the HIF system along with particular relevant RTKs for better tumor growth control.

Differential Cytoplast Requirement for Embryonic and Somatic Cell Nuclear Transfer in Cattle

Effective activation of a recipient oocyte and its compatibility with the nuclear donor are critical to the successful nuclear reprogramming during nuclear transfer. We designed a series of experiments using various activation methods to determine the optimum activation efficiency of bovine oocytes. We then performed nuclear transfer (NT) of embryonic and somatic cells into cytoplasts presumably at G1/S phase (with prior activation) or at metaphase II (MII, without prior activation). Oocytes at 24 hr of maturation in vitro were activated with various combinations of calcium ionophore A23187 (A187) (5 microM, 5 min), electric pulse (EP), ethanol (7%, 7 min), cycloheximide (CHX) (10 micro g/ml, 6 hr), and then cultured in cytochalasin D (CD) for a total of 18 hr. Through a series of experiments (Exp. 1-4), an improved activation protocol (A187/EP/CHX/CD) was identified and used for comparison of NT efficiency of embryonic versus somatic donor cells (Exp. 5). When embryonic cells from morula and blastocysts (BL) were used as nuclear donors, a significantly higher rate of blastocyst development from cloned embryos was obtained with G1/S phase cytoplasts than with MII-phase cytoplasts (36 vs. 11%, P < 0.05). In contrast, when skin fibroblasts were used as donor cells, the use of an MII cytoplast (vs. G1/S phase) was imperative for blastocyst development (30 vs. 6%, P < 0.05). Differential staining showed that parthenogenetic, embryonic, and somatic cloned BL contained 26, 29, and 33% presumptive inner cell mass (ICM) cells, respectively, which is similar to that of frozen-thawed in vivo embryos at a comparable developmental stage (23%). These data indicate that embryonic and somatic nuclei require different recipient cytoplast environment for remodeling/ reprogramming, and this is likely due to the different cell cycle stage and profiles of molecular differentiation of the transferred donor nuclei.

Expression of Imprinted Genes Is Aberrant in Deceased Newborn Cloned Calves and Relatively Normal in Surviving Adult Clones

Cattle are the species used most frequently for the development of assisted reproductive technologies, such as nuclear transfer. Cattle cloning can be performed by a large number of laboratories around the world, and the efficiency of nuclear transfer in cattle is the highest among all species in which successful cloning has been achieved. However, an understanding of the expression of imprinted genes in this important species is lacking. In the present study, real time reverse transcription polymerase chain reaction (RT-PCR) was utilized to quantify the expression of the bovine Igf2, Igf2r, and H19 genes in eight major organs (brain, bladder, heart, kidney, liver, lung, spleen, and thymus) of somatic cell cloned calves that died shortly after birth, in three tissues (skin, muscle, and liver) of healthy clones that survived to adulthood, and in corresponding tissues of control animals from natural reproduction. We found that, deceased bovine cloned calves exhibited abnormal expression of all three genes studied in various organs. Large variations in the expression levels of imprinted genes were also seen among these clones, which were produced from the same genetic donor. In surviving adult clones, however, the expression of these imprinted genes was largely normal, except for the expression of the Igf2 gene in muscle, which was highly variable. Our data showed disruptions of expression of imprinted genes in bovine clones, which is possibly due to incomplete reprogramming of donor cell nuclei during nuclear transfer, and these abnormalities may be associated with the high neonatal mortality in cloned animals; clones that survived to adulthood, however, are not only physically healthy but also relatively normal at the molecular level of those three imprinted genes.

Cloning Animals by Somatic Cell Nuclear Transfer--Biological Factors

Cloning by nuclear transfer using mammalian somatic cells has enormous potential application. However, somatic cloning has been inefficient in all species in which live clones have been produced. High abortion and fetal mortality rates are commonly observed. These developmental defects have been attributed to incomplete reprogramming of the somatic nuclei by the cloning process. Various strategies have been used to improve the efficiency of nuclear transfer, however, significant breakthroughs are yet to happen. In this review we will discuss studies conducted, in our laboratories and those of others, to gain a better understanding of nuclear reprogramming. Because cattle are a species widely used for nuclear transfer studies, and more laboratories have succeeded in cloning cattle than any other species, this review will be focused on somatic cell cloning of cattle.

A STUDY ON THE FUNCTION OF 14-3-3SIGMA IN REGULATING CANCER ENERGY METABOLISM

Metabolic reprogramming has been shown to be a major cancer hallmark providing tumor cells with significant advantages for survival, proliferation, growth, metastasis and resistance against anti-cancer therapies. Glycolysis, glutaminolysis and mitochondrial biogenesis are among the most essential cancer metabolic alterations because these pathways provide cancer cells with not only energy but also crucial metabolites to support large-scale biosynthesis, rapid proliferation and tumorigenesis. In this study, we find that 14-3-3σ suppresses all these three metabolic processes by promoting the degradation of their main driver, c-Myc. In fact, 14-3-3s significantly enhances c-Myc poly-ubiquitination and subsequent degradation, reduces c-Myc transcriptional activity, and down-regulates c-Myc-induced metabolic target genes expression. Therefore, 14-3-3σ remarkably blocks glycolysis, decreases glutaminolysis and diminishes mitochondrial mass of cancer cells both in vitro and in vivo, thereby severely suppressing cancer bioenergetics and metabolism. As a result, a high level of 14-3-3σ in tumors is strongly associated with increased breast cancer patients’ overall and metastasis-free survival as well as better clinical outcomes. Thus, this study reveals a new role for 14-3-3s as a significant regulator of cancer bioenergetics and a promising target for the development of anti-cancer metabolism therapies.

Implication of the oep16-1 mutation in a flu-independent, singlet oxygen-regulated cell death pathway in Arabidopsis thaliana

Singlet oxygen is a prominent form of reactive oxygen species in higher plants. It is easily formed from molecular oxygen by triplet–triplet interchange with excited porphyrin species. Evidence has been obtained from studies on the flu mutant of Arabidopsis thaliana of a genetically determined cell death pathway that involves differential changes at the transcriptome level. Here we report on a different cell death pathway that can be deduced from the analysis of oep16 mutants of A. thaliana. Pure lines of four independent OEP16-deficient mutants with different cell death properties were isolated. Two of the mutants overproduced free protochlorophyllide (Pchlide) in the dark because of defects in import of NADPH:Pchlide oxidoreductase A (pPORA) and died after illumination. The other two mutants avoided excess Pchlide accumulation. Using pulse labeling and polysome profiling studies we show that translation is a major site of cell death regulation in flu and oep16 plants. flu plants respond to photooxidative stress triggered by singlet oxygen by reprogramming their translation toward synthesis of key enzymes involved in jasmonic acid synthesis and stress proteins. In contrast, those oep16 mutants that were prone to photooxidative damage were unable to respond in this way. Together, our results show that translation is differentially affected in the flu and oep16 mutants in response to singlet oxygen.

Sistema de adquisición de datos basado en FPAA

Las FPAA´s son dispositivos analógicos programables. Estos dispositivos se basan en el uso de condensadores conmutados junto con amplificadores operacionales. Este tipo de tecnología presenta una serie de ventajas, ya que combinan las ventajas de dispositivos digitales, como la reprogramación en función de las variables del entorno que los rodean, con la diferencia de ser dispositivos analógicos, permitiendo la realización de una amplia gama de diseños analógicos en un solo chip. En este proyecto se ha realizado un estudio sobre el funcionamiento de los condensadores conmutados y su uso en el dispositivo AN221E04 del fabricante Anadigm. Una vez descrita la arquitectura del AN221E04 y explicadas las bases del funcionamiento de los condensadores conmutados, utilizando como ejemplo los modelos facilitados por Anadigm, se desarrolla un modelo de amplificador de instrumentación teórico y se describe la metodología para su implementación en un AN221E04 con el software Anadigm Designer 2. Una vez implementado este modelo de amplificador de instrumentación se han efectuado una serie de pruebas con el objetivo de estudiar la capacidad de estos dispositivos. Dichas pruebas ponen de manifiesto que las FPAA´s tienen una serie de ventajas a tener en cuenta a la hora de realizar diseños analógicos. La precisión obtenida por el modelo de amplificador de instrumentación realizado es más que aceptable, llegando a obtener errores de ganancia inferiores al 1% con ganancias de 200V/V sin tener la necesidad de realizar grandes ajustes. En las conclusiones de este estudio se exponen tanto ventajas como inconvenientes de la utilización de FPAA´s en diseños analógicos. La principal ventaja de este uso es el ahorro de costes, ya que una vez desarrollada una plataforma de diseño, la capacidad de reconfiguración permite utilizar dicha plataforma para un amplio abanico de aplicaciones, reduciendo el número de componentes y simplificando las etapas de diseño. Como desventaja, las FPAA´s tienen una serie de limitaciones qué hay que tener en cuenta en ciertos casos pudiendo hacer irrealizable un diseño concreto; como puede ser el valor máximo o mínimo de ganancia. The FPAA's are programmable analog devices. These devices rely on the use of switched capacitors together with operational amplifiers. This type of technology has a number of advantages, because they combine the advantages of digital devices such as the reprogramming function of the variables of the surrounding environment, with the difference being analog devices, allowing the realization of a wide range of designs analog on a single chip. This project has conducted a study on the operation of the switched capacitor and its use in the device AN221E04 from Anadigm. Having described the architecture of AN221E04 and explained the basis for the operation of the switched capacitor, using the example models provided by Anadigm is developing an instrumentation amplifier theory model and describes the methodology for implementation in a AN221E04 with the Anadigm Designer 2 software. Once implemented this instrumentation amplifier model, have made a series of tests in order to study the ability of these devices. These tests show that the FPAA's have a number of advantages to take into account when making analog designs. The accuracy obtained by the instrumentation amplifier model is made more than acceptable, earning gain errors of less than 1% with gains of 200V / V without the need for major adjustments. The conclusions of this study are presented both advantages and disadvantages of using FPAA's in analog designs. The main advantage of this application is the cost savings, because once developed a platform for design, reconfiguration capability allows you to use this platform for a wide range of applications, reducing component count and simplifying design stages. As a disadvantage, the FPAA's have a number of limitations which must be taken into account in certain cases may make impossible a specific design, such as the maximum or minimum gain, or the magnitude of the possible settings.

Andrea Branzi y la “Città senza architettura”: De la No-Stop City a los modelos de urbanización débil

El tema de estudio de esta tesis son las propuestas urbanas que Andrea Branzi ha desarrollado durante los últimos cincuenta años, centrándose especialmente en aquellas más elaboradas y completas: la No-Stop City (1970-71), que elabora como miembro del grupo radical Archizoom, y dos de sus modelos de urbanización débil, Agronica (1995) y el Master Plan para el Strijp Philips de Eindhoven (2000). Se trata de una parte de su obra que ha mantenido constante, a lo largo del tiempo, una propuesta de disolución de la arquitectura de notable consistencia que puede describirse con la fórmula “città senza architettura”, acuñada por él mismo. Una voluntad que ya se apunta en la muy variada producción de Archizoom previa a la No-Stop City, y que cristaliza y se hace explícita en este proyecto que aspiraba a: “liberar al hombre de la arquitectura”. A pesar de la continuidad de esta idea en el tiempo, la ciudad sin arquitectura de Branzi ha evolucionado claramente dando lugar a distintos tipos de disolución. Una disolución que, obviamente, no supone la efectiva desaparición de la disciplina, sino la formulación de una arquitectura “otra” basada en un replanteamiento radical de la naturaleza y el papel de la misma. Esta agenda contra la disciplina se ha desplegado a través de una serie de temas que socavan el objeto arquitectónico canónico (su vaciamiento expresivo, la pérdida de importancia de la envolvente y la forma acabada, el carácter anticompositivo, la independencia entre forma y función, la mutabilidad en el tiempo…), pero va más allá al poner en crisis el rol que la propia arquitectura ha tenido en la configuración material, política y simbólica del hábitat humano. Una pérdida de protagonismo y centralidad en la sociedad contemporánea que, en el discurso del arquitecto, implica necesariamente un papel subordinado. De este proceso de disolución surge un nuevo tipo de ciudad en la que la forma urbana o se ha perdido o se ha convertido en superflua, en la que se ha disuelto la zonificación funcional, cuyos espacios interiores se hallan en un proceso de permanente reprogramación que ignora las tipologías, que trasciende la división entre lo urbano y lo agrícola y que es, ante todo, un espacio de flujos y servicios. La crisis de la ciudad tradicional implica, en definitiva, un cambio en la naturaleza misma de lo urbano que pasa de considerarse un lugar físico y construido, a convertirse en una condición inmaterial y virtualmente omnipresente que se despliega independientemente de su soporte físico. En las investigaciones urbanas de Branzi convergen, además, muchas de las reflexiones que el arquitecto ha desarrollado sobre, y desde, las distintas “escalas” de la actividad profesional: diseño, arquitectura y urbanismo. Estas propuestas no sólo cuestionan las relaciones establecidas entre objetos, edificios, ciudades y territorios sino que ponen en cuestión estas mismas categorías. Unas ciudades sin arquitectura que se basan, en última instancia, en plantear preguntas que son muy sencillas y, por otra parte, eternas: ¿Qué es un edificio? ¿Qué es una ciudad? ABSTRACT The subject of study of this thesis are the urban proposals developed by Andrea Branzi over the last fifty years, with a special focus on the more developed and comprehensive ones: the No- Stop City (1970-1971), produced as a member of the architettura radicale group Archizoom, and two of his “weak urbanization models”: Agronica (1995) and the Master Plan for Philips Strijp in Eindhoven (2000). This area of his work has kept, over time, a remarkably consistent proposal for the dissolution of architecture that can be described with the motto città senza architettura (city without architecture), coined by himself. A determination, already latent in the very diverse production of Archizoom prior to No-Stop City, that crystallizes and becomes explicit in this project which was aimed to "liberate man from the architecture." Despite the continuity of this idea over time, Branzi’s city without architecture has clearly evolved leading to different types of dissolution. A dissolution that, obviously, does not mean the effective demise of the discipline, but rather, the formulation of an architecture autre based on a radical rethinking of its nature and role. This agenda against the discipline has been developed through a number of issues that undermine the canonical architectural object (its expressive emptying, the loss of importance of the envelope and the finished shape, the anticompositional character, the independence between form and function, the mutability over time...), but goes beyond it by putting into crisis the role that architecture itself has had in the material, political and symbolic configuration of the human habitat. A loss of prominence and centrality in contemporary society that, in the architect’s discourse, implies a subordinate role. From this dissolution process, a new type of city arises: a city where urban form has been lost or has become superfluous, in which functional zoning has dissolved, whose interiors are in a permanent process of reprogramming that ignores typologies, that transcends the division between urban and agricultural and becomes, above all, a space of flows and services. Ultimately, the crisis of the traditional city implies a change in the very nature of the urban that moves from being regarded as a physical and built place, to become an immaterial and virtually omnipresent condition that unfolds regardless of its physical medium. Many of the ideas Branzi has developed on, and from, the different "scales" of professional activity (design, architecture and urbanism) converge in his urban research. These proposals not only question the relations between objects, buildings, cities and territories but also these very categories. Cities without architecture that are based, ultimately, on raising simple questions that are, on the other hand, eternal: What is a building? What is a city?

Molecular tools to improve chestnut management: El Bierzo as a case study

The European chestnut (Castanea sativa Mill.) is a multipurpose species that has been widely cultivated around the Mediterranean basin since ancient times. New varieties were brought to the Iberian Peninsula during the Roman Empire, which coexist since then with native populations that survived the last glaciation. The relevance of chestnut cultivation has being steadily growing since the Middle Ages, until the rural decline of the past century put a stop to this trend. Forest fires and diseases were also major factors. Chestnut cultivation is gaining momentum again due to its economic (wood, fruits) and ecologic relevance, and represents currently an important asset in many rural areas of Europe. In this Thesis we apply different molecular tools to help improve current management strategies. For this study we have chosen El Bierzo (Castile and Leon, NW Spain), which has a centenary tradition of chestnut cultivation and management, and also presents several unique features from a genetic perspective (next paragraph). Moreover, its nuts are widely appreciated in Spain and abroad for their organoleptic properties. We have focused our experimental work on two major problems faced by breeders and the industry: the lack of a fine-grained genetic characterization and the need for new strategies to control blight disease. To characterize with sufficient detail the genetic diversity and structure of El Bierzo orchards, we analyzed DNA from 169 trees grafted for nut production covering the entire region. We also analyzed 62 nuts from all traditional varieties. El Bierzo constitutes an outstanding scenario to study chestnut genetics and the influence of human management because: (i) it is located at one extreme of the distribution area; (ii) it is a major glacial refuge for the native species; (iii) it has a long tradition of human management (since Roman times, at least); and (iv) its geographical setting ensures an unusual degree of genetic isolation. Thirteen microsatellite markers provided enough informativeness and discrimination power to genotype at the individual level. Together with an unexpected level of genetic variability, we found evidence of genetic structure, with three major gene pools giving rise to the current population. High levels of genetic differentiation between groups supported this organization. Interestingly, genetic structure does not match with spatial boundaries, suggesting that the exchange of material and cultivation practices have strongly influenced natural gene flow. The microsatellite markers selected for this study were also used to classify a set of 62 samples belonging to all traditional varieties. We identified several cases of synonymies and homonymies, evidencing the need to substitute traditional classification systems with new tools for genetic profiling. Management and conservation strategies should also benefit from these tools. The avenue of high-throughput sequencing technologies, combined with the development of bioinformatics tools, have paved the way to study transcriptomes without the need for a reference genome. We took advantage of RNA sequencing and de novo assembly tools to determine the transcriptional landscape of chestnut in response to blight disease. In addition, we have selected a set of candidate genes with high potential for developing resistant varieties via genetic engineering. Our results evidenced a deep transcriptional reprogramming upon fungal infection. The plant hormones ET and JA appear to orchestrate the defensive response. Interestingly, our results also suggest a role for auxins in modulating such response. Many transcription factors were identified in this work that interact with promoters of genes involved in disease resistance. Among these genes, we have conducted a functional characterization of a two major thaumatin-like proteins (TLP) that belongs to the PR5 family. Two genes encoding chestnut cotyledon TLPs have been previously characterized, termed CsTL1 and CsTL2. We substantiate here their protective role against blight disease for the first time, including in silico, in vitro and in vivo evidence. The synergy between TLPs and other antifungal proteins, particularly endo-p-1,3-glucanases, bolsters their interest for future control strategies based on biotechnological approaches.

UV light selectively coinduces supply pathways from primary metabolism and flavonoid secondary product formation in parsley

The UV light-induced synthesis of UV-protective flavonoids diverts substantial amounts of substrates from primary metabolism into secondary product formation and thus causes major perturbations of the cellular homeostasis. Results from this study show that the mRNAs encoding representative enzymes from various supply pathways are coinduced in UV-irradiated parsley cells (Petroselinum crispum) with two mRNAs of flavonoid glycoside biosynthesis, encoding phenylalanine ammonia-lyase and chalcone synthase. Strong induction was observed for mRNAs encoding glucose 6-phosphate dehydrogenase (carbohydrate metabolism, providing substrates for the shikimate pathway), 3-deoxyarabinoheptulosonate 7-phosphate synthase (shikimate pathway, yielding phenylalanine), and acyl-CoA oxidase (fatty acid degradation, yielding acetyl-CoA), and moderate induction for an mRNA encoding S-adenosyl-homocysteine hydrolase (activated methyl cycle, yielding S-adenosyl-methionine for B-ring methylation). Ten arbitrarily selected mRNAs representing various unrelated metabolic activities remained unaffected. Comparative analysis of acyl-CoA oxidase and chalcone synthase with respect to mRNA expression modes and gene promoter structure and function revealed close similarities. These results indicate a fine-tuned regulatory network integrating those functionally related pathways of primary and secondary metabolism that are specifically required for protective adaptation to UV irradiation. Although the response of parsley cells to UV light is considerably broader than previously assumed, it contrasts greatly with the extensive metabolic reprogramming observed previously in elicitor-treated or fungus-infected cells.

VanX, a bacterial d-alanyl-d-alanine dipeptidase: Resistance, immunity, or survival function?

The zinc-containing d-alanyl-d-alanine (d-Ala-d-Ala) dipeptidase VanX has been detected in both Gram-positive and Gram-negative bacteria, where it appears to have adapted to at least three distinct physiological roles. In pathogenic vancomycin-resistant enterococci, vanX is part of a five-gene cluster that is switched on to reprogram cell-wall biosynthesis to produce peptidoglycan chain precursors terminating in d-alanyl-d-lactate (d-Ala-d-lactate) rather than d-Ala-d-Ala. The modified peptidoglycan exhibits a 1,000-fold decrease in affinity for vancomycin, accounting for the observed phenotypic resistance. In the glycopeptide antibiotic producers Streptomyces toyocaensis and Amylocatopsis orientalis, a vanHAX operon may have coevolved with antibiotic biosynthesis genes to provide immunity by reprogramming cell-wall termini to d-Ala-d-lactate as antibiotic biosynthesis is initiated. In the Gram-negative bacterium Escherichia coli, which is never challenged by the glycopeptide antibiotics because they cannot penetrate the outer membrane permeability barrier, the vanX homologue (ddpX) is cotranscribed with a putative dipeptide transport system (ddpABCDF) in stationary phase by the transcription factor RpoS (σs). The combined action of DdpX and the permease would permit hydrolysis of d-Ala-d-Ala transported back into the cytoplasm from the periplasm as cell-wall crosslinks are refashioned. The d-Ala product could then be oxidized as an energy source for cell survival under starvation conditions.

Unifying theory of hypoxia tolerance: molecular/metabolic defense and rescue mechanisms for surviving oxygen lack.

We develop a unifying theory of hypoxia tolerance based on information from two cell level models (brain cortical cells and isolated hepatocytes) from the highly anoxia tolerant aquatic turtle and from other more hypoxia sensitive systems. We propose that the response of hypoxia tolerant systems to oxygen lack occurs in two phases (defense and rescue). The first lines of defense against hypoxia include a balanced suppression of ATP-demand and ATP-supply pathways; this regulation stabilizes (adenylates) at new steady-state levels even while ATP turnover rates greatly decline. The ATP demands of ion pumping are down-regulated by generalized "channel" arrest in hepatocytes and by "spike" arrest in neurons. Hypoxic ATP demands of protein synthesis are down-regulated probably by translational arrest. In hypoxia sensitive cells this translational arrest seems irreversible, but hypoxia-tolerant systems activate "rescue" mechanisms if the period of oxygen lack is extended by preferentially regulating the expression of several proteins. In these cells, a cascade of processes underpinning hypoxia rescue and defense begins with an oxygen sensor (a heme protein) and a signal-transduction pathway, which leads to significant gene-based metabolic reprogramming-the rescue process-with maintained down-regulation of energy-demand and energy-supply pathways in metabolism throughout the hypoxic period. This recent work begins to clarify how normoxic maintenance ATP turnover rates can be drastically (10-fold) down-regulated to a new hypometabolic steady state, which is prerequisite for surviving prolonged hypoxia or anoxia. The implications of these developments are extensive in biology and medicine.

Controle epigenético do gene imprinted SNRPN durante o desenvolvimento e reprogramação nuclear em equídeos

A tranferência nuclear de células somáticas (TNCS) está sendo utilizada para produzir cavalos de elite. No entanto, durante este procedimento pode ocorrer a perfuração da zona pelúcida, levando, ocasionalmente, à secção da massa celular interna, e conseqüente derivação de gêmeos monozigóticos. Além de serem relatadas alterações no processo de imprinting genômico, que conduzem ao desenvolvimento de doenças. Com a descoberta da possibilidade de reprogramar as células somáticas a um estado de pluripotência (iPSCs), estas células passaram a ser muito utilizadas em pesquisas de neurociência. Contudo, também ocorrem modificações epigenéticas durante esta reprogramação celular. Portanto, nossas hipóteses são que os gêmeos eqüinos gerados pela TNCS podem levar às irregularidades no desenvolvimento do sistema nervoso. O padrão de metilação do SNRPN nas estruturas dos fetos muares clonados, e as células iPSCs são diferentes dos padrões encontrados nos muares analisados. A expressão dos genes SNRPN, Necdin e UBE3A são maiores no cérebro, enquanto a expressão do H19 é maior nas membranas extra-embrionárias. Em nosso estudo, obtivemos duas gestações gemelares equinas derivadas da TNCS, que foram interrompidas com 40 e 60 dias de gestação, e comparados com gestações eqüinas únicas de idade similar. Diferenças no comprimento entre os embriões gêmeos foram observadas aos 40 (2.0 e 2.2 cm 10%) e aos 60 (6,5 e 8,5 cm 24%) dias de gestação. Somente o plexo coróide do quarto ventrículo apresentou-se mais desenvolvido nos fetos com maior comprimento. Ao analisarmos fetos muares clonados em diferentes idades gestacionais e compará-los com muares, nos períodos embrionário, fetal e adulto, não foi observada diferença no padrão de metilação do gene SNRPN. No entanto, na décima passagem das células iPSC o padrão de metilação alterou, em relação aos muares estudados e ao padrão observado nos fibroblastos. Ao analisarmos os fetos clonados nas diferentes idades gestacionais observou-se no cérebro menor expressão dos gene H19 e UBE3A, e maior expressão do gene SNRPN. Contudo, a expressão do gene Necdin variou entre as estruturas estudadas. Em conclusão, apesar dos gêmeos eqüinos provenientes de TNCS diferirem quanto ao tamanho, morfologicamente são iguais. Dentre as estruturas cerebrais o plexo coróide se apresentou mais desenvolvido nos fetos de maior comprimento. Os fetos muares clonados não apresentaram diferença no padrão de metilação do gene SNRPN. No entanto, as iPSCs apresentaram alteração no padrão de metilação deste gene na décima passagem. Embora os genes SNRPN, Necdin e UBE3A sejam expressos no cérebro, o SNRPN apresentou-se prevalente nessa estrutura

Candida albicans stimulates in vivo differentiation of haematopoietic stem and progenitor cells towards macrophages by a TLR2-dependent signalling

Toll-like receptors (TLRs) are expressed by haematopoietic stem and progenitor cells (HSPCs), and may play a role in haematopoiesis in response to pathogens during infection. We have previously demonstrated that (i) inactivated yeasts of Candida albicans induce in vitro differentiation of HSPCs towards the myeloid lineage, and (ii) soluble TLR agonists induce in vivo their differentiation towards macrophages. In this work, using an in vivo model of HSPCs transplantation, we report for the first time that HSPCs sense C. albicans in vivo and subsequently are directed to produce macrophages by a TLR2-dependent signalling. Purified lineage-negative cells (Lin−) from bone marrow of C57BL/6 mice (CD45.2 alloantigen) were transplanted into B6Ly5.1 mice (CD45.1 alloantigen), which were then injected with viable or inactivated C. albicans yeasts. Transplanted cells were detected in the spleen and in the bone marrow of recipient mice, and they differentiate preferentially to macrophages, both in response to infection or in response to inactivated yeasts. The generation of macrophages was dependent on TLR2 but independent of TLR4, as transplanted Lin− cells from TLR2−/− mice did not give rise to macrophages, whereas Lin− cells from TLR4−/− mice generated macrophages similarly to control cells. Interestingly, the absence of TLR2, or in a minor extent TLR4, gives Lin− cells an advantage in transplantation assays, as increases the percentage of transplanted recovered cells. Our results indicatethat TLR-mediated recognition of C. albicans by HSPCs may help replace and/or increase cells that constitute the first line of defence against the fungus, and suggest that TLR-mediated signalling may lead to reprogramming early progenitors to rapidly replenishing the innate immune system and generate the most necessary mature cells to deal with the pathogen.

Les oncogènes NUP98-PHF23 et NUP98-HOXD13 confèrent un potentiel aberrant d’auto-renouvellement aux progéniteurs thymiques

L’initiation de la leucémogénèse dans la leucémie aigue lymphoblastique (LAL)-T résulte de l’activation aberrante de facteurs de transcription de la lignée lymphocytaire T. Nous démontrons que les gènes de fusion NUP98-PHF23 (NP23) et NUP98-HOXD13 (NHD13) reprogramment les thymocytes normaux en cellules souches pré-leucémiques (CS-préL) possédant un potentiel aberrant d’auto-renouvellement. Basé sur des essais de clonalité performés sur des thymocytes transplantés en série, nous avons découvert que cette population est hiérarchisée similairement aux cellules souches hématopoïétiques normales. Ces CS-préL dévoilent un enrichissement du compartiment de précurseurs thymiques immatures KIT+ où les deux oncogènes, NP23 et NHD13, activent des gènes impliqués dans l’autorenouvellement, incluant Hoxa9, Hoxa10, Lyl1 et Hhex. De plus, l’activité d’autorenouvellement est abrogée par les ARN interférents contre Lyl1 et Hhex, indiquant leur implication fonctionnelle en aval de NP23 et NHD13. Puisque ces gènes sont aussi activés en aval de trois autres oncogènes dans la LAL-T, SCL/TAL1, LMO1 et LMO2, nous concluons que les niveaux d’activation de Lyl1 et Hhex fixent le seuil de reprogrammation des thymocytes normaux en CS-préL. Malgré l'efficacité des traitements de chimiothérapie actuels à diminuer la masse tumorale, les CS-préL sont épargnées, pouvant mener à des rechutes. Nos résultats répondent à ce besoin et proposent de nouvelles avenues permettant de cibler les CS-préL du compartiment de thymocytes immatures dans la LAL-T.