Establishing a Robust In Vitro Embryonic Stem Cell Differentiation Assay to Monitor the Hematopoietic Potential of DELES Clones

Shetty, Swati

01 1900

Afin d’effectuer des études fonctionnelles sur le génome de la souris, notre laboratoire a généré une bibliothèque de clones de cellules souches embryonnaires (ESC) présentant des suppressions chromosomiques chevauchantes aléatoires – la bibliothèque DELES. Cette bibliothèque contient des délétions couvrant environ 25% du génome murin. Dans le laboratoire, nous comptons identifier de nouveaux déterminants du destin des cellules hématopoïétiques en utilisant cet outil. Un crible primaire utilisant la benzidine pour démontrer la présence d'hémoglobine dans des corps embryoïdes (EBS) a permis d’identifier plusieurs clones délétés présentant un phénotype hématopoïétique anormal. Comme cet essai ne vérifie que la présence d'hémoglobine, le but de mon projet est d'établir un essai in vitro de différenciation des ESC permettant de mesurer le potentiel hématopoïétique de clones DELES. Mon hypothèse est que l’essai de différenciation hématopoïétique publié par le Dr Keller peut être importé dans notre laboratoire et utilisé pour étudier l'engagement hématopoïétique des clones DELES. À l’aide d’essais de RT-QPCR et de FACS, j’ai pu contrôler la cinétique de différenciation hématopoïétique en suivant l’expression des gènes hématopoïétiques et des marqueurs de surface comme CD41, c-kit, RUNX1, GATA2, CD45, β-globine 1 et TER-119. Cet essai sera utilisé pour valider le potentiel hématopoïétique des clones DELES candidats identifiés dans le crible principal. Mon projet secondaire vise à utiliser la même stratégie rétro-virale a base de Cre-loxP utilisée pour générer la bibliothèque DELES pour générer une bibliothèque de cellules KBM-7 contenant des suppressions chromosomiques chevauchantes. Mon but ici est de tester si la lignée cellulaire leuémique humaine presque haploïde KBM-7 peut être exploitée en utilisant l'approche DELES pour créer cette bibliothèque. La bibliothèque de clones KBM-7 servira à définir les activités moléculaires de drogues anti-leucémiques potentielless que nous avons identifiées dans le laboratoire parce qu’elles inhibent la croissance cellulaire dans plusieurs échantillons de leucémie myéloïde aiguë dérivés de patients. Elle me permettra également d'identifier les voies de signalisation moléculaires qui, lorsque génétiquement perturbées, peuvent conférer une résistance à ces drogues. / To carry out functional studies on the mouse genome, our laboratory has generated a library of Embryonic Stem Cell (ESC) clones harboring random nested chromosomal deletions – DELES library. This library contains deletions covering ~ 25% of the mouse genome. In the lab, we are interested in identifying novel hematopoietic cell fate determinants using this resource. A primary screen using benzidine to demonstrate the presence of hemoglobin in embryoid bodies (EBs) was able to identify several DELES clones exhibiting abnormal hematopoietic phenotype. Since this assay only tested for the presence of hemoglobin, the goal of my project is to establish a robust in vitro ESC differentiation assay to monitor the hematopoietic potential of DELES clones. My hypothesis is that the hematopoietic differentiation assay published by Dr. Keller can be used to observe hematopoietic commitment of the DELES clones. Using QRT-PCR and FACS assays I was able to monitor the kinetics of hematopoietic differentiation by observing the expression of hematopoietic genes and surface markers including CD41, C-KIT, RUNX1, GATA2, CD45, β-GLOBIN 1 and TER-119. This assay will be used to validate the hematopoietic potential of the candidate DELES clones identified in the primary screen. My secondary project aims to use the same retro-viral Cre-loxP strategy used for the DELES library, in order to generate a library of KBM-7 leukemic cells harboring nested chromosomal deletions. My goal here is to test if the human near haploid KBM-7 cell line can be exploited using the DELES approach to create this library. The library of KBM-7 clones will be used to delineate the molecular activities of potential anti-leukemic drugs that we have identified in the lab to inhibit cell growth in several patient-derived acute-myeloid leukemia specimens. It will also allow me to identify molecular signaling pathways that, when genetically disrupted, can confer resistance to these drugs.

cellules souches embryonnaires

différenciation hématopoïétique

cellules KBM-7

suppressions chromosomiques

Embryonic stem cells

hematopoietic differentiation

KBM-7 cells

chromosomal deletions

Reprogramming of B cells into macrophages: mechanistic insights

Di Tullio, Alessandro, 1982-

13 July 2012

Our earlier work has shown that pre-B cells can be converted into macrophages by the transcription factor C/EBPα at very high frequencies and also that a clonal pre-B cell line with an inducible form of C/EBPα can be converted into macrophage-like cells. Using these systems we have performed a systematic analysis of the questions whether during transdifferentiation the cells retrodifferentiate to a precursor cell state and whether cell cycle is required for reprogramming. As for the first question, a transcriptome analysis of transdifferentiating cells showed that most genes are continuously up or downregulated, acquiring a macrophage phenotype within 5 days. In addition, we observed the transient reactivation of a subset of immature myeloid markers, as well as low levels of the progenitor markers Kit and Flt3 and a few lineage inappropriate genes. Importantly, we were unable to observe the re-expression of cell surface marker combinations that characterize hematopoietic stem and progenitor cells (HSPCs), including c-Kit and Flt3. This was the case even when C/EBPα was activated in pre-B cells under culture conditions that favor HSPC growth or when the transcription factor was activated in a time limited fashion. As for the second question, using the C11-inducible pre-B cell line, time-lapse experiments showed that a subpopulation of about 8% of the pre-B cells did not divide before acquiring macrophage properties, with the majority of cells dividing once and a few percent dividing twice. In agreement with these results we found that 8% of the induced cells did not incorporate BrdU during reprogramming. Importantly, the non-dividing cell subset expressed the highest levels of C/EBPα and was the fastest in acquiring a macrophage phenotype. Inhibition of DNA synthesis by aphidicolin led to an impairment of transdifferentiation in >70% of the cells, suggesting a requirement for traversing the cell cycle. However, sorting pre-B cells into G0/G1 and G2/M fractions followed by induction showed no significant differences in the reprogramming kinetics. Finally, we showed that knocking down p53 in the inducible pre-B cells does not alter their conversion into macrophages, suggesting that an acceleration of the cell cycle has no effect. Together, our findings show that the conversion of pre-B cells to macrophages does not involve overt retrodifferentiation and that high concentrations of C/EBPα bypass the cell cycle-dependency of immune cell transdifferentiation / Recientemente, nuestro grupo ha demostrado que las células pre-B se pueden reprogramar a macrófagos mediante la sobreexpresión del factor de transcripción C/EBP, con una eficiencia elevada. Así mismo, mediante la expresión de la forma inducible de C/EBP en una línea de células pre-B (C11), éstas también se puede convertir en células similares a macrófagos. Usando este sistema hemos estudiado si durante el proceso de trans-diferenciacion las células requieren volver a un estadio de célula precursora, y si el ciclo celular es necesario para este proceso. En cuanto a la primera cuestión, el análisis del transcriptoma de células trans-diferenciadas mostró que la expresión de la mayoría de los genes están regulados durante todo el proceso bien aumentando o disminuyendo, y que adquieren el fenotipo de macrófago a los 5 días después de iniciar el proceso. Así mismo, se observó la reactivación transitoria de un grupo de genes que codifican para marcadores de células mieloides inmaduras; también cabe destacar que observamos una disminución en la expresión de los genes expresados en células progenitoras Kit y Flt3, así como de genes de linajes impropios. Es importante destacar que nunca hemos llegado a observar la expresión de combinaciones de marcadores de superficie característicos de las células madre hematopoyéticas y las células progenitoras (HSPCs), incluyendo c-Kit y Flt3, mediante el análisis por citometría de flujo. Estos resultados se reprodujeron incluso cuando C/EBP se sobreexpresó en células pre-B que fueron cultivadas en condiciones que favorecen el crecimiento de las HSPC o cuando el factor de transcripción se activó de forma limitada en el tiempo. En cuanto a la segunda pregunta, usando la línea de células inducibles pre-B C11, el análisis mediante microscopia a diferentes tiempos después de la inducción de la reprogramación mostraron que una subpoblación de aproximadamente el 8% de las células pre-B no se dividen antes de adquirir las propiedades de macrófago, mientras que la mayoría de las células se dividen sólo una vez y un pequeño porcentaje dos veces antes de que se reprogramen totalmente a macrófagos. De acuerdo con estos resultados se encontró que un 8% de las células inducidas no incorporan BrdU durante la reprogramación. Es importante destacar que el subconjunto de células que no se dividen expresan los niveles más altos de C/EBP, con lo que cabe pensar que la adquisición del fenotipo de macrófago es más rápida en estas células. La inhibición de la síntesis de ADN por afidicolina bloqueó la transdiferenciación en mas de un 70% de las células, lo que sugiere que la correcta progresión del ciclo celular es un requisito para la transdiferenciación. Sin embargo, al separar la linea de células pre-B C11 en fracciones G0/G1 y G2/M seguido de la inducción, la cinética de la reprogramación no mostró diferencias significativas. Por último, también demostramos que la reducción en la expresión de p53 en las células pre-B inducibles no altera el proceso de conversión a macrófago, lo que sugiere que la aceleración del ciclo celular no tiene ningún efecto. En conjunto, nuestros resultados muestran que la conversión de células pre-B a macrófagos no requiere retro-diferenciación y que las células con una expresión mayor de C/EBP pueden llegar a prescindir de la dependencia del ciclo celular para la trans-diferenciación de las células inmunitarias.

Reprogramación de linaje

Retro-diferenciación

Dependencia del ciclo celular

C/EBPα

Decisión de destino celular

Diferenciación hematopoyética

Lineage reprogramming

Retrodifferentiation

Cell cycle-dependency

Cell fate decision

Hematopoietic differentiation

576

Post-translational Modifications Of C/EBP Alpha p30 Regulate Its Functions In Leukemogenesis and Differentiation

Nguyễn, Thùy Linh

24 November 2022

Die myeloische Entwicklung wird durch die Familie der Transkriptionsfaktoren CCAAT/Enhancer-Binding-Protein (C/EBP) reguliert. Eine aberrante Expression oder Funktion von C/EBPs stört die normale myeloische Differenzierung und wird bei vielen Arten hämatopoetischer Malignome beobachtet. Mutationen von CEBPA führen zu einem veränderten Expressionsanteil der verkürzten Isoform C/EBPa p30 und werden bei etwa 15% der AML-Patienten (akute myeloische Leukämie) nachgewiesen. Obwohl die verkürzte Isoform C/EBPα p30 als Onkogen identifiziert wurde da sie die Proliferation myeloischer Vorläufer fördert, behält sie dennoch eine Differenzierungsfunktion. Unser Interesse gilt der Frage, wie diese beiden Funktionen von C/EBPα p30 reguliert werden. Die C/EBP-Familie gehört der Gruppe intrinsisch ungeordneter Proteine an, die zudem viele posttranslationale Modifikationen (PTMs) aufweisen. PTMs auf C/EBPα verändern seine biologische Funktionsweise stark. Frühere Forschungsarbeiten haben drei Argininreste am N-Terminus von C/EBPα p30 identifiziert, die aufgrund des Methylierungsstatus differentiell mit anderen Proteinen interagieren. In dieser Arbeit untersuchen wir den Einfluss der C/EBPα p30 Arginin-Methylierung auf seine pro-leukämische Aktivität sowie dessen Fähigkeit zur Neuausrichtung der hämatopoietischen Differenzierungslinie. Mit Hilfe von Aminosäuresubstitutionen fanden wir heraus, dass C/EBPα p30 Mutanten der Methylierungsmimesis oder Ladungsabschaffung die myeloische Differenzierung verstärkt, während Ladungserhalt-Mutanten die Erneuerung und Proliferation hämatopoetischer Stamm-/Vorläuferzellen unterstützt. Transkriptionelles Profiling von Zellen, die mutierte C/EBPα -p30-Varianten exprimieren, deutet auf potenzielle Ziele der methyliertem bzw. unmethyliertem C/EBPα p30 hin. Die Ergebnisse legen nahe, dass der Arginin-Methylierungsstatus das Leukämie- und Differenzierungs-Potenzial von C/EBPα p30 verändert und somit ein neues Ziel der Leukämietherapie darstellen könnten. / Myeloid development is regulated by the family of transcription factors CCAAT/enhancer-binding-protein (C/EBP). Aberrant expression or functioning of C/EBPs disturbs normal myeloid differentiation and is found in many types of hematopoietic malignancies. Mutations of CEBPA lead to imbalanced expression of the truncated isoform C/EBPα p30 and are found in approximately 15% of AML (acute myeloid leukemia) patients. Yet, how C/EBPα participates in leukemic progression remains to be discovered. More specifically, the truncated isoform C/EBPα p30, although being identified as an oncogenic isoform that promotes proliferation of myeloid progenitors, still retains differentiation function. The question of how both functions of C/EBPα p30 are regulated, is of our interest. C/EBP family also represents a group of intrinsically disordered proteins, which contain many post-translational modifications (PTMs). PTMs on C/EBPα greatly alter its functioning. Previous works have identified three arginine residues at the N-terminus of C/EBPα p30 that interact differently with others protein dependent on their methylation status. We hypothesize, that methylation of these arginine residues plays important roles in the biology of C/EBPα p30. In this study, we used a lymphoid-to-myeloid transdifferentiation (LMT) system to investigate the influence of arginine-methylation on C/EBPα-induced lineage switch and its pro-leukemic activity. Using amino acid substitution, we found that C/EBPα p30 mutants that resemble arginine-methylated p30 enhanced myeloid differentiation, while the charge-retention mutant, resembling arginine-unmethylated p30, supported renewability and proliferation of hematopoietic progenitors. Transcriptional profiling of cells expressing C/EBPα p30 variants suggested potential targets of either methylated or unmethylated p30. The results implied that arginine methylations alter C/EBPα p30’s leukemic potential and might comprise novel targets of leukemia therapy.

CEBPA

akute myeloische Leukämie

posttranslationale Modifikationen

Arginin Methylierung

hämatopoetischen Differenzierung

leukämogenese

CEBPA

acute myeloid leukemia

post-translational modifications

arginine methylation

hematopoietic differentiation

leukemogenesis

570 Biologie

ddc:570

Construção e análise funcional de vetores lentivirais de interesse biotecnológico / Construction and functional analysis of lentiviral vectors for biotechnological purposes

Vedoveli, Naiara Cristina Pulzi Saito

16 May 2016

Vetores lentivirais são ferramentas fundamentais para modificação celular. Sua utilização ganhou destaque devido à capacidade desses em integrar ao genoma de células que estão ou não em divisão. Grande parte dos vetores desenvolvidos são derivados do genoma do Vírus da Imunodeficiência Humana (HIV-1), portanto, modificações foram necessárias a fim de evitar a formação de Partículas Competentes em Replicação (RCLs) e garantir uma utilização segura. Com as modificações, foram produzidos os vetores lentivirais de terceira geração utilizados atualmente. Esses vetores podem ser usados para expressão constitutiva de genes, produção de proteínas recombinantes, produção de animais transgênicos e terapia gênica. Com isso, torna-se necessário o desenvolvimento de vetores lentivirais para aplicação em pesquisa básica e ensaios clínicos. Dessa forma, o presente estudo teve por objetivo a construção de vetores de expressão lentivirais aplicáveis à: 1- expressão constitutiva de genes de interesse e 2-vetores com promotores específicos para expressão de proteínas em megacariócitos. Esse trabalho descreve a construção desses vetores, sua importância e discute suas possíveis aplicações. As sequências selecionadas para produção dos vetores foram: os genes Runx1C e VkorC1 e os promotores proPF4 e proITGA2b. Todas as sequências encontram-se clonadas em vetor de clonagem e estoques de bactérias com esses vetores congeladas em glicerol foram confeccionados. Para a confecção dos vetores lentivirais, o gene Runx1C foi subclonado no vetor lentiviral base p1054-CIGWS sob controle do promotor forte CMV, enquanto o promotor proITGA2b foi subclonado no vetor base p1054-FVIII, em substituição ao promotor CMV, de forma a controlar a expressão de FVIII. Os dois vetores produzidos apresentam ainda o gene para proteína verde GFP precedida do sítio de ligação do ribossomo IRES, com expressão controlada pelo mesmo promotor interno do vetor. O trabalho possibilitou, portanto, a produção de dois vetores lentivirais bi-cistrônicos: p1054-Runx1C e pL-proITGA2b-FVIII. A construção p1054-Runx1C ainda não foi sequenciada, mas foi confirmada por restrição enzimática e apresenta potencial para aplicação em estudos de diferenciação hematopoética. Já a construção pL-proITGA2b-FVIII foi sequenciada, porém sem confirmação da região de ligação do proITGA2b ao vetor. Reações de PCR e de restrição enzimática confirmaram a ligação e sequenciamento mostrou 67% de similaridade entre a região sequenciada e o promotor ITGA2b depositado no banco de dados. Análise funcional foi realizada através da transfecção desse vetor em células HEK-293T. As células transfectadas apresentaram expressão positiva para GFP e secreção de FVIII no sobrenadante celular, evidenciando que o promotor proITGA2b clonado no vetor encontra-se ativo. Esse vetor apresenta potencial para aplicação em terapia gênica para hemofilias, pois apresenta expressão do fator de coagulação direcionado a megacariócitos e plaquetas, células que estão diretamente relacionadas ao processo de coagulação, representando grandes veículos para secreção desses fatores. Ainda, os dois vetores lentivirais gerados apresentam segurança e eficiência elevadas, pois são vetores de terceira geração auto-inativantes (SIN) e apresentam elementos regulatórios que melhoram o transporte e integração do DNA ao genoma hospedeiro. / Lentiviral vectors are fundamental tools for cell modification that gained prominence due to their ability to integrate the genome of non-dividing cells. Most of developed lentiviral vectors are derived from the genome of Human Immunodeficiency Virus (HIV-1), so modifications were necessary in order to avoid the formation of Competent Replication Particles (RCLs) and ensure safer operations. The modifications led to development of third generation lentiviral vectors currently used. These vectors can be used for constitutive gene expression, production of recombinant protein, production of transgenic animals and gene therapy. It\'s evident the need to develop lentiviral vectors for application in basic research and clinical trials. Thus this study aimed to construct lentiviral expression vectors applicable to: 1- constitutive expression of genes of interest and 2-vectors with specific promoters for expression of proteins in megakaryocytes and platelets. This paper describes the construction of these vectors, their importance and discuss their possible applications. Sequences were selected for production of the vectors: genes Runx1C and VkorC1 and proPF4 and proITGA2b promoters. All four sequences are cloned into cloning vectors and stocks of bacteria with these vectors frozen in glycerol were prepared. Lentiviral vectors were engineered from subcloning the sequence Runx1C into the basic lentiviral vector p1054- CIGWS under control of the strong CMV promoter, and from subcloning proITGA2b promoter into p1054-FVIII basic vector, replacing the CMV promoter in order to control the expression of FVIII. Both vectors exhibit the green fluorescence protein GFP gene preceded by a ribosome binding site IRES under control of vector\'s internal promoter. Therefore, this work resulted in the production of two bi-cistronic lentiviral vectors: p1054-Runx1C and pLproITGA2b-FVIII. The p1054-Runx1C construction has not yet been sequenced, but it was confirmed by digestion and has potential for use in hematopoietic differentiation studies. Though, pL-proITGA2b-FVIII construct was sequenced, but the technique didn\'t allow to confirm the binding region between proITGA2b and the vector. Although PCR reaction and digestion confirmed the construction. Sequence analysis showed 67% similarity between the sequenced region and ITGA2b promoter deposited in the database. Functional analysis was performed by transfection of this vector in HEK-293T cells. The transfected cells showed positive expression of GFP and FVIII secretion in cell supernatant, indicating that the proITGA2b promoter cloned into the vector is active. This vector has potential usage in gene therapy for hemophilia, since it can be used to express coagulation factors in megakaryocytes and platelets and these cells are directly related to the clotting process, representing great vehicles for secretion of these factors. Even more, the two lentiviral vectors generated have higher safety and efficiency, as they are self-inactivating (SIN) third-generation vectors and have regulatory elements that enhance transport and integration of DNA into the host genome.

clonagem molecular

diferenciação hematopoética

hematopoietic differentiation

HIV-1

HIV-1

ITGA2b

lentiviral vectors

lentivirus

lentivírus

megacariócitos

megakaryocytes

plaquetas

platelets

promotores específicos

Runx1

Runx1

SIN vectors

specific promoters, ITGA2b

tecnologia do DNA recombinante

vetores lentivirais

vetores SIN

Construção e análise funcional de vetores lentivirais de interesse biotecnológico / Construction and functional analysis of lentiviral vectors for biotechnological purposes

Naiara Cristina Pulzi Saito Vedoveli

16 May 2016

Vetores lentivirais são ferramentas fundamentais para modificação celular. Sua utilização ganhou destaque devido à capacidade desses em integrar ao genoma de células que estão ou não em divisão. Grande parte dos vetores desenvolvidos são derivados do genoma do Vírus da Imunodeficiência Humana (HIV-1), portanto, modificações foram necessárias a fim de evitar a formação de Partículas Competentes em Replicação (RCLs) e garantir uma utilização segura. Com as modificações, foram produzidos os vetores lentivirais de terceira geração utilizados atualmente. Esses vetores podem ser usados para expressão constitutiva de genes, produção de proteínas recombinantes, produção de animais transgênicos e terapia gênica. Com isso, torna-se necessário o desenvolvimento de vetores lentivirais para aplicação em pesquisa básica e ensaios clínicos. Dessa forma, o presente estudo teve por objetivo a construção de vetores de expressão lentivirais aplicáveis à: 1- expressão constitutiva de genes de interesse e 2-vetores com promotores específicos para expressão de proteínas em megacariócitos. Esse trabalho descreve a construção desses vetores, sua importância e discute suas possíveis aplicações. As sequências selecionadas para produção dos vetores foram: os genes Runx1C e VkorC1 e os promotores proPF4 e proITGA2b. Todas as sequências encontram-se clonadas em vetor de clonagem e estoques de bactérias com esses vetores congeladas em glicerol foram confeccionados. Para a confecção dos vetores lentivirais, o gene Runx1C foi subclonado no vetor lentiviral base p1054-CIGWS sob controle do promotor forte CMV, enquanto o promotor proITGA2b foi subclonado no vetor base p1054-FVIII, em substituição ao promotor CMV, de forma a controlar a expressão de FVIII. Os dois vetores produzidos apresentam ainda o gene para proteína verde GFP precedida do sítio de ligação do ribossomo IRES, com expressão controlada pelo mesmo promotor interno do vetor. O trabalho possibilitou, portanto, a produção de dois vetores lentivirais bi-cistrônicos: p1054-Runx1C e pL-proITGA2b-FVIII. A construção p1054-Runx1C ainda não foi sequenciada, mas foi confirmada por restrição enzimática e apresenta potencial para aplicação em estudos de diferenciação hematopoética. Já a construção pL-proITGA2b-FVIII foi sequenciada, porém sem confirmação da região de ligação do proITGA2b ao vetor. Reações de PCR e de restrição enzimática confirmaram a ligação e sequenciamento mostrou 67% de similaridade entre a região sequenciada e o promotor ITGA2b depositado no banco de dados. Análise funcional foi realizada através da transfecção desse vetor em células HEK-293T. As células transfectadas apresentaram expressão positiva para GFP e secreção de FVIII no sobrenadante celular, evidenciando que o promotor proITGA2b clonado no vetor encontra-se ativo. Esse vetor apresenta potencial para aplicação em terapia gênica para hemofilias, pois apresenta expressão do fator de coagulação direcionado a megacariócitos e plaquetas, células que estão diretamente relacionadas ao processo de coagulação, representando grandes veículos para secreção desses fatores. Ainda, os dois vetores lentivirais gerados apresentam segurança e eficiência elevadas, pois são vetores de terceira geração auto-inativantes (SIN) e apresentam elementos regulatórios que melhoram o transporte e integração do DNA ao genoma hospedeiro. / Lentiviral vectors are fundamental tools for cell modification that gained prominence due to their ability to integrate the genome of non-dividing cells. Most of developed lentiviral vectors are derived from the genome of Human Immunodeficiency Virus (HIV-1), so modifications were necessary in order to avoid the formation of Competent Replication Particles (RCLs) and ensure safer operations. The modifications led to development of third generation lentiviral vectors currently used. These vectors can be used for constitutive gene expression, production of recombinant protein, production of transgenic animals and gene therapy. It\'s evident the need to develop lentiviral vectors for application in basic research and clinical trials. Thus this study aimed to construct lentiviral expression vectors applicable to: 1- constitutive expression of genes of interest and 2-vectors with specific promoters for expression of proteins in megakaryocytes and platelets. This paper describes the construction of these vectors, their importance and discuss their possible applications. Sequences were selected for production of the vectors: genes Runx1C and VkorC1 and proPF4 and proITGA2b promoters. All four sequences are cloned into cloning vectors and stocks of bacteria with these vectors frozen in glycerol were prepared. Lentiviral vectors were engineered from subcloning the sequence Runx1C into the basic lentiviral vector p1054- CIGWS under control of the strong CMV promoter, and from subcloning proITGA2b promoter into p1054-FVIII basic vector, replacing the CMV promoter in order to control the expression of FVIII. Both vectors exhibit the green fluorescence protein GFP gene preceded by a ribosome binding site IRES under control of vector\'s internal promoter. Therefore, this work resulted in the production of two bi-cistronic lentiviral vectors: p1054-Runx1C and pLproITGA2b-FVIII. The p1054-Runx1C construction has not yet been sequenced, but it was confirmed by digestion and has potential for use in hematopoietic differentiation studies. Though, pL-proITGA2b-FVIII construct was sequenced, but the technique didn\'t allow to confirm the binding region between proITGA2b and the vector. Although PCR reaction and digestion confirmed the construction. Sequence analysis showed 67% similarity between the sequenced region and ITGA2b promoter deposited in the database. Functional analysis was performed by transfection of this vector in HEK-293T cells. The transfected cells showed positive expression of GFP and FVIII secretion in cell supernatant, indicating that the proITGA2b promoter cloned into the vector is active. This vector has potential usage in gene therapy for hemophilia, since it can be used to express coagulation factors in megakaryocytes and platelets and these cells are directly related to the clotting process, representing great vehicles for secretion of these factors. Even more, the two lentiviral vectors generated have higher safety and efficiency, as they are self-inactivating (SIN) third-generation vectors and have regulatory elements that enhance transport and integration of DNA into the host genome.

clonagem molecular

diferenciação hematopoética

HIV-1

ITGA2b

lentivírus

megacariócitos

plaquetas

promotores específicos

Runx1

tecnologia do DNA recombinante

vetores lentivirais

vetores SIN

hematopoietic differentiation

HIV-1

lentiviral vectors

lentivirus

megakaryocytes

platelets

Runx1

SIN vectors

specific promoters, ITGA2b