Brittany J. Pioso scite author profile

Abbreviations: Acute myeloid leukemia (AML), dense phase (DP), fluorescence recovery after photobleaching (FRAP), fusion oncoprotein (FO), Gibbs free energy of transfer (ΔG Tr ), Gle2binding-sequence (GLEBS), human CD34-positive hematopoietic stem and progenitor cells (hCD34+ cells), immunofluorescence (IF), intrinsically disordered region (IDR), light phase (LP), lineage-negative hematopoietic stem and progenitor cells (lin-HSPCs), liquid-liquid phase separation (LLPS), mEGFP-tagged NHA9 (G-NHA9), mobile fraction (M f ), monomeric enhanced green fluorescent protein (mEGFP), nuclear pore complex (NPC), NUP98-HOXA9 (NHA9), partition coefficient (K p ), patient-derived xenograft (PDX), Pearson correlation coefficient (PCC), Principal component analysis (PCA), RNA sequencing (RNA-seq), and saturation concentration (C sat ).

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Hysteresis and Allostery in Human UDP-Glucose Dehydrogenase Require a Flexible Protein Core

Beattie

Pioso

Sidlo

et al. 2018

Biochemistry

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Human UDP-glucose dehydrogenase (hUGDH) oxidizes UDP-glucose to UDP-glucuronic acid, an essential substrate in the phase II metabolism of drugs. The activity of hUGDH is regulated by the conformation of a buried allosteric switch (T131-loop/α6 helix). Substrate binding induces the allosteric switch to slowly isomerize from an inactive E* conformation to the active E state, which can be observed as enzyme hysteresis. When the feedback inhibitor UDP-xylose binds, the allosteric switch and surrounding residues in the protein core repack, converting the hexamer into an inactive, horseshoe-shaped complex (EΩ). This allosteric transition is facilitated by large cavities and declivities in the protein core that provide the space required to accommodate the alternate packing arrangements. Here, we have used the A104L substitution to fill a cavity in the E state and sterically prevent repacking of the core into the EΩ state. Steady state analysis shows that hUGDHA104L binds UDP-xylose with lower affinity and that the inhibition is no longer cooperative. This means that the allosteric transition to the high UDP-xylose affinity EΩ state is blocked by the substitution. The crystal structures of hUGDHA104L show that the allosteric switch still adopts the E and E* states, albeit with a more rigid protein core. However, the progress curves of hUGDHA104L do not show hysteresis, which suggests that the E* and E states are now in rapid equilibrium. Our data suggests that hysteresis in native hUGDH originates from the conformational entropy of the E* state protein core.

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Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation

Chandra¹,

Michmerhuizen²,

Shirnekhi³

et al. 2023

Preprint

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<div>AbstractNUP98 fusion oncoproteins (FO) are drivers in pediatric leukemias and many transform hematopoietic cells. Most NUP98 FOs harbor an intrinsically disordered region from NUP98 that is prone to liquid–liquid phase separation (LLPS) in vitro. A predominant class of NUP98 FOs, including NUP98–HOXA9 (NHA9), retains a DNA-binding homeodomain, whereas others harbor other types of DNA- or chromatin-binding domains. NUP98 FOs have long been known to form puncta, but long-standing questions are how nuclear puncta form and how they drive leukemogenesis. Here we studied NHA9 condensates and show that homotypic interactions and different types of heterotypic interactions are required to form nuclear puncta, which are associated with aberrant transcriptional activity and transformation of hematopoietic stem and progenitor cells. We also show that three additional leukemia-associated NUP98 FOs (NUP98–PRRX1, NUP98–KDM5A, and NUP98–LNP1) form nuclear puncta and transform hematopoietic cells. These findings indicate that LLPS is critical for leukemogenesis by NUP98 FOs.Significance:We show that homotypic and heterotypic mechanisms of LLPS control NUP98–HOXA9 puncta formation, modulating transcriptional activity and transforming hematopoietic cells. Importantly, these mechanisms are generalizable to other NUP98 FOs that share similar domain structures. These findings address long-standing questions on how nuclear puncta form and their link to leukemogenesis.This article is highlighted in the In This Issue feature, p. 873</div>

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Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation

Chandra¹,

Michmerhuizen²,

Shirnekhi³

et al. 2023

Preprint

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Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation

Chandra¹,

Michmerhuizen²,

Shirnekhi³

et al. 2023

Preprint

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Brittany J. Pioso

Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation

Hysteresis and Allostery in Human UDP-Glucose Dehydrogenase Require a Flexible Protein Core

Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation

Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation

Supplementary Data from Phase Separation Mediates NUP98 Fusion Oncoprotein Leukemic Transformation

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