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15:11, April 24 Zombie deer disease possibly linked to hunters’ deaths
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22:12, April 22 Unhealthy amount of sugar found in baby food products of a well-known brand
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19:41, April 22 Air pollution puts health of more than 1.6 billion workers globally at risk
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17:25, April 22 Scientists found baked goods and lack of sleep to be more dangerous than alcohol
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15:29, April 22 BrainStimulation: electrical brain stimulation alleviates anxiety and depression in the elderly
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08:27, April 22 Cognitively stimulating jobs in midlife could lower dementia risk in old age, study finds
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22:41, April 20 Scientists develop new method to safely stimulate immune cells to fight cancer
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20:46, April 20 Blood test can determine who is at risk of developing multiple sclerosis - scientists
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18:36, April 20 Next pandemic likely to be triggered by flu - scientists
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12:16, April 19 Scientists grow human mini-lungs in lab
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SRPK1 maintains acute myeloid leukemia through effects on isoform usage of epigenetic regulators including BRD4
We recently identified the splicing kinase gene SRPK1 as a genetic vulnerability of acute myeloid leukemia (AML). Here, we show that genetic or pharmacological inhibition of SRPK1 leads to cell cycle arrest, leukemic cell differentiation and prolonged survival of mice transplanted with MLL-rearranged AML.
RNA-seq analysis demonstrates that SRPK1 inhibition leads to altered isoform levels of many genes including several with established roles in leukemogenesis such as MYB, BRD4 and MED24. We focus on BRD4 as its main isoforms have distinct molecular properties and find that SRPK1 inhibition produces a significant switch from the short to the long isoform at the mRNA and protein levels.
This was associated with BRD4 eviction from genomic loci involved in leukemogenesis including BCL2 and MYC. We go on to show that this switch mediates at least part of the anti-leukemic effects of SRPK1 inhibition. Our findings reveal that SRPK1 represents a plausible new therapeutic target against AML.
Full article: Nature Communications
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