In human, the myeloid leukemia factor 1 (hMLF1) has been shown to be involved in acute leukemia, and mlf related genes are present in many animals. Despite their extensive representation and their good conservation, very little is understood about their function. In Drosophila, dMLF physically interacts with both the transcription regulatory factor DREF and an antagonist of the Hedgehog pathway, Suppressor of Fused, whose over-expression in the fly suppresses the toxicity induced by polyglutamine. No connection between these data has, however, been established. Here, we show that dmlf is widely and dynamically expressed during fly development. We isolated and analyzed the first dmlf mutants: embryos lacking maternal dmlf product have a low viability with no specific defect, and dmlf(-)- adults display weak phenotypes. We monitored dMLF subcellular localization in the fly and cultured cells. We were able to show that, although generally nuclear, dMLF can also be cytoplasmic, depending on the developmental context. Furthermore, two differently spliced variants of dMLF display differential subcellular localization, allowing the identification of regions of dMLF potentially important for its localization. Finally, we demonstrate that dMLF can act developmentally and postdevelopmentally to suppress neurodegeneration and premature aging in a cerebellar ataxia model.
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Apathy After Stroke: Incidence, Symptom Trajectory, and Impact on Quality of Life and Disability.
Neurology
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From the Department of Clinical Neurosciences (C.P., D.M.L.-F., A.A.J., D.J.T., S.B., H.S.M.), University of Cambridge; Stroke Unit (L.W., A.A.), West Suffolk NHS Foundation Trust; Academic Unit for Aging and Stroke Research (A.F.), University of Leeds; and Department of Psychology (R.G.M.), King's College Institute of Psychiatry, Psychology and Neuroscience, London, United Kingdom.
Background And Objectives: Apathy is one of the most common symptoms following stroke and is often associated with worse functional outcome and poor quality of life (QoL). The trajectory of apathy symptoms has been previously described, and different trajectories have been identified. We determined group and individual changes in apathy symptomatology from the acute phase until 1 year after stroke.
View Article and Find Full Text PDFGenetic variation in is associated with white matter hyperintensities (n = 11,226).
Neurology
February 2019
From the Department of Clinical Neurosciences, Stroke Research Group (M.T., D.J.T., I.D.C., D.M.L.F., A.O.O., L.R.-J., H.S.M.), University of Cambridge, UK; Department of Cerebrovascular Diseases (G.B.), Fondazione IRCCS Istituto Neurologico "Carlo Besta," Milan, Italy; Institute for Stroke and Dementia Research (M.D.), Klinikum der Universität München, Ludwig-Maximilians-Universität München, Munich; German Center for Neurodegenerative Diseases (DZNE) and Munich Cluster for Systems Neurology (SyNergy) (M.D.), Germany; Department of Neurosciences, Experimental Neurology and Leuven Research Institute for Neuroscience and Disease (LIND) (R.L.), KU Leuven-University of Leuven; Department of Neurology (R.L.), University Hospitals Leuven; Laboratory of Neurobiology (R.L.), VIB Center for Brain and Disease Research, Leuven, Belgium; Center for Human Genetic Research (J.R.) and Division of Neurocritical Care and Emergency Neurology (J.R.) and J. Philip Kistler Stroke Research Center (J.R., N.S.R.), Department of Neurology, Massachusetts General Hospital, Boston; Nuffield Department of Clinical Neurosciences (Clinical Neurology), Stroke Prevention Research Unit (P.M.R.), University of Oxford; Centre for Clinical Brain Sciences and Institute for Genetics and Molecular Medicine (C.L.M.S.), University of Edinburgh, UK; Stroke Division, Florey Institute of Neuroscience and Mental Health (V.T.), University of Melbourne; and Department of Neurology (V.T.), Austin Health, Heidelberg, Victoria, Australia.
Objective: To identify novel genetic associations with white matter hyperintensities (WMH).
Methods: We performed a genome-wide association meta-analysis of WMH volumes in 11,226 individuals, including 8,429 population-based individuals from UK Biobank and 2,797 stroke patients. Replication of novel loci was performed in an independent dataset of 1,202 individuals.
Drosophila myeloid leukemia factor acts with DREF to activate the JNK signaling pathway.
Oncogenesis
April 2014
1] Department of Applied Biology, Kyoto Institute of Technology, Kyoto, Japan [2] Insect Biomedical Research Center, Kyoto Institute of Technology, Kyoto, Japan.
Drosophila myelodysplasia/myeloid leukemia factor (dMLF), a homolog of human MLF1, oncogene was first identified by yeast two-hybrid screen using the DNA replication-related element-binding factor (DREF) as bait. DREF is a transcription factor that regulates proliferation-related genes in Drosophila. It is known that overexpression of dMLF in the wing imaginal discs through the engrailed-GAL4 driver causes an atrophied wing phenotype associated with the induction of apoptosis.
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FEBS J
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Department of Applied Biology, Kyoto Institute of Technology, Japan.
The human myeloid leukemia factor 1 (hMLF1) gene was first identified as an NPM-hMLF1 fusion gene produced by chromosomal translocation. In Drosophila, dMLF has been identified as a protein homologous to hMLF1 and hMLF2, which interacts with various factors involved in transcriptional regulation. However, the precise cellular function of dMLF remains unclear.
View Article and Find Full Text PDFIdentification of novel nuclear localization signals of Drosophila myeloid leukemia factor.
Cell Struct Funct
March 2008
Department of Applied Biology and Insect Biomedical Research Center, Kyoto Institute of Technology, Matsugasaki, Kyoto, Japan.
Myeloid leukemia factor 1 (MLF1) was first identified as part of a leukemic fusion protein produced by a chromosomal translocation, and MLF family proteins are present in many animals. In mammalian cells, MLF1 has been described as mainly cytoplasmic, but in Drosophila, one of the dMLF isoforms (dMLFA) localized mainly in the nucleus while the other isoform (dMLFB), that appears to be produced by the alternative splicing, displays both nuclear and cytoplasmic localization. To investigate the difference in subcellular localization between MLF family members, we examined the subcellular localization of deletion mutants of dMLFA isoform.
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