Judith Staerk scite author profile

Myeloproliferative disorders are clonal haematopoietic stem cell malignancies characterized by independency or hypersensitivity of haematopoietic progenitors to numerous cytokines. The molecular basis of most myeloproliferative disorders is unknown. On the basis of the model of chronic myeloid leukaemia, it is expected that a constitutive tyrosine kinase activity could be at the origin of these diseases. Polycythaemia vera is an acquired myeloproliferative disorder, characterized by the presence of polycythaemia diversely associated with thrombocytosis, leukocytosis and splenomegaly. Polycythaemia vera progenitors are hypersensitive to erythropoietin and other cytokines. Here, we describe a clonal and recurrent mutation in the JH2 pseudo-kinase domain of the Janus kinase 2 (JAK2) gene in most (> 80%) polycythaemia vera patients. The mutation, a valine-to-phenylalanine substitution at amino acid position 617, leads to constitutive tyrosine phosphorylation activity that promotes cytokine hypersensitivity and induces erythrocytosis in a mouse model. As this mutation is also found in other myeloproliferative disorders, this unique mutation will permit a new molecular classification of these disorders and novel therapeutical approaches.

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A drug-inducible transgenic system for direct reprogramming of multiple somatic cell types

Wernig

et al. 2008

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The study of induced pluripotency is complicated by the need for infection with high-titer retroviral vectors, which results in genetically heterogeneous cell populations. We generated genetically homogeneous ‘secondary’ somatic cells that carry the reprogramming factors as defined doxycycline (dox)-inducible transgenes. These cells were produced by infecting fibroblasts with dox-inducible lentiviruses, reprogramming by dox addition, selecting induced pluripotent stem cells and producing chimeric mice. Cells derived from these chimeras reprogram upon dox exposure without the need for viral infection with efficiencies 25- to 50-fold greater than those observed using direct infection and drug selection for pluripotency marker reactivation. We demonstrate that (i) various induction levels of the reprogramming factors can induce pluripotency, (ii) the duration of transgene activity directly correlates with reprogramming efficiency, (iii) cells from many somatic tissues can be reprogrammed and (iv) different cell types require different induction levels. This system facilitates the characterization of reprogramming and provides a tool for genetic or chemical screens to enhance reprogramming.

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Reprogramming of Human Peripheral Blood Cells to Induced Pluripotent Stem Cells

et al. 2010

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Direct reprogramming of human fibroblasts to induced pluripotent stem cells (iPS) has been achieved by ectopic expression of defined transcription factors. Derivation of human fibroblasts however is a time consuming process and requires punch biopsies or isolation of patient foreskin. Here we use a polycistronic vector encoding Oct4, Klf4, Sox2 and c-Myc to generate iPS cells from from frozen peripheral blood of several donors. Genomic DNA analyses indicated that iPS cells were derived from mature T cells as well as myeloid donor cells. Inducing pluripotency in peripheral blood would allow utilization of easy to get samples from the adult and, more importantly, provide convenient access to numerous patient samples stored in blood banks. The latter is of major interest as frozen blood samples, when reprogrammed to iPS cells, would allow the retrospective molecular analyses of rare diseases.

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Judith Staerk

A unique clonal JAK2 mutation leading to constitutive signalling causes polycythaemia vera

A drug-inducible transgenic system for direct reprogramming of multiple somatic cell types

Reprogramming of Human Peripheral Blood Cells to Induced Pluripotent Stem Cells

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