PI3K alpha and delta promote hematopoietic stem cell activation
Shayda Hemmati, Taneisha Sinclair, Meng Tong, Boris Bartholdy, Rachel O. Okabe, Kristina Ames, Leanne Ostrodka, Tamanna Haque, Imit Kaur, Taylor S. Mills, Anupriya Agarwal, Eric M. Pietras, Jean J. Zhao, Thomas M. Roberts, Kira Gritsman
Shayda Hemmati, Taneisha Sinclair, Meng Tong, Boris Bartholdy, Rachel O. Okabe, Kristina Ames, Leanne Ostrodka, Tamanna Haque, Imit Kaur, Taylor S. Mills, Anupriya Agarwal, Eric M. Pietras, Jean J. Zhao, Thomas M. Roberts, Kira Gritsman
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Research Article Hematology

PI3K alpha and delta promote hematopoietic stem cell activation

Abstract

Many cytokines and chemokines that are important for hematopoiesis activate the PI3K signaling pathway. Because this pathway is frequently mutated and activated in cancer, PI3K inhibitors have been developed for the treatment of several malignancies and are now being tested in the clinic in combination with chemotherapy. However, the role of PI3K in adult hematopoietic stem cells (HSCs), particularly during hematopoietic stress, is still unclear. We previously showed that the individual PI3K catalytic isoforms p110α and p110β have dispensable roles in HSC function, suggesting redundancy between PI3K isoforms in HSCs. We now demonstrate that simultaneous deletion of p110α and p110δ in double-knockout (DKO) HSCs uncovers their redundant requirement in HSC cycling after 5-fluorouracil (5-FU) chemotherapy administration. In contrast, DKO HSCs were still able to exit quiescence in response to other stress stimuli, such as LPS. We found that DKO HSCs and progenitors had impaired sensing of inflammatory signals ex vivo, and that levels of IL-1β and MIG were higher in the bone marrow (BM) after LPS than after 5-FU administration. Furthermore, exogenous in vivo administration of IL-1β could induce cell cycle entry of DKO HSCs. Our findings have clinical implications for the use of PI3K inhibitors in combination with chemotherapy.

Authors

Shayda Hemmati, Taneisha Sinclair, Meng Tong, Boris Bartholdy, Rachel O. Okabe, Kristina Ames, Leanne Ostrodka, Tamanna Haque, Imit Kaur, Taylor S. Mills, Anupriya Agarwal, Eric M. Pietras, Jean J. Zhao, Thomas M. Roberts, Kira Gritsman

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Figure 3

Downregulation of gene sets associated with cell cycle progression and inflammatory signaling in DKO HSCs.

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Downregulation of gene sets associated with cell cycle progression and i...
(A) Experimental design for BM transplantation and sorting of HSCs and LMPPs for microarray analysis. BM cells of each genotype (CD45.2+) were transplanted from one donor into 7 WT recipients (CD45.1+) each, and the harvested BM from each set of 7 transplanted mice was pooled for sorting and RNA synthesis. Transplantation was performed 3 times for each donor genotype, resulting in a total of 3 replicates per genotype. (B) Heatmap of genes differentially expressed between DKO HSCs and WT HSCs. (C) Venn diagrams representing the total number of differentially upregulated or downregulated genes between HSCs of each genotype compared with WT HSCs (>2-fold change with P < 0.05). (D) Representative GSEA plots some of the gene sets with the highest negative enrichment scores (NES) when compared with our DKO versus WT HSC gene set. (E) Gene ontology (GO) analysis of significantly downregulated genes (>2-fold, P < 0.05) in DKO versus WT HSCs.