Katia E. Niño scite author profile

Katia E. Niño

4Publications

69Citation Statements Received

285Citation Statements Given

How they've been cited

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157

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Affiliations

University of Colorado Anschutz Medical Campus, University of Colorado Denver

Publications

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PU.1 enforces quiescence and limits hematopoietic stem cell expansion during inflammatory stress

Chavez

Rabe

Loeffler

et al. 2021

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Hematopoietic stem cells (HSCs) are capable of entering the cell cycle to replenish the blood system in response to inflammatory cues; however, excessive proliferation in response to chronic inflammation can lead to either HSC attrition or expansion. The mechanism(s) that limit HSC proliferation and expansion triggered by inflammatory signals are poorly defined. Here, we show that long-term HSCs (HSCLT) rapidly repress protein synthesis and cell cycle genes following treatment with the proinflammatory cytokine interleukin (IL)-1. This gene program is associated with activation of the transcription factor PU.1 and direct PU.1 binding at repressed target genes. Notably, PU.1 is required to repress cell cycle and protein synthesis genes, and IL-1 exposure triggers aberrant protein synthesis and cell cycle activity in PU.1-deficient HSCs. These features are associated with expansion of phenotypic PU.1-deficient HSCs. Thus, we identify a PU.1-dependent mechanism triggered by innate immune stimulation that limits HSC proliferation and pool size. These findings provide insight into how HSCs maintain homeostasis during inflammatory stress.

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PU.1 Expression Defines Distinct Functional Activities in the Phenotypic HSC Compartment of a Murine Inflammatory Stress Model

Rabe

Hernández

Mills

et al. 2022

Cells

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The transcription factor PU.1 is a critical regulator of lineage fate in blood-forming hematopoietic stem cells (HSC). In response to pro-inflammatory signals, such as the cytokine IL-1β, PU.1 expression is increased in HSC and is associated with myeloid lineage expansion. To address potential functional heterogeneities arising in the phenotypic HSC compartment due to changes in PU.1 expression, here, we fractionated phenotypic HSC in mice using the SLAM surface marker code in conjunction with PU.1 expression levels, using the PU.1-EYFP reporter mouse strain. While PU.1lo SLAM cells contain extensive long-term repopulating activity and a molecular signature corresponding to HSC activity at steady state, following IL-1β treatment, HSCLT induce PU.1 expression and are replaced in the PU.1lo SLAM fraction by CD41+ HSC-like megakaryocytic progenitors (SL-MkP) with limited long-term engraftment capacity. On the other hand, the PU.1hi SLAM fraction exhibits extensive myeloid lineage priming and clonogenic activity and expands rapidly in response to IL-1β. Furthermore, we show that EPCR expression, but not CD150 expression, can distinguish HSCLT and SL-MkP under inflammatory conditions. Altogether, our data provide insights into the dynamic regulation of PU.1 and identify how PU.1 levels are linked to HSC fate in steady state and inflammatory stress conditions.

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TNF Receptors Choose HSC Fate in SupportingDnmt3a-Mutant Clonal Hematopoiesis

Niño

Pietras

2022

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3150 – The Tca Cycle Metabolite Itaconate Promotes HSPC Self-Renewal During Inflammatory Stress

Niño

Mills

et al. 2022

Experimental Hematology

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Katia E. Niño

PU.1 enforces quiescence and limits hematopoietic stem cell expansion during inflammatory stress

PU.1 Expression Defines Distinct Functional Activities in the Phenotypic HSC Compartment of a Murine Inflammatory Stress Model

TNF Receptors Choose HSC Fate in SupportingDnmt3a-Mutant Clonal Hematopoiesis

3150 – The Tca Cycle Metabolite Itaconate Promotes HSPC Self-Renewal During Inflammatory Stress

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