PLAG1 dampens protein synthesis to promote human hematopoietic stem cell self-renewal

Chahi, Ava Keyvani; Belew, Muluken S.; Xu, Joshua; Chen, He Tian; Rentas, Stefan; Voisin, Véronique; Krivdova, Gabriela; Lechman, Eric R.; Marhon, Sajid A.; Carvalho, Daniel D. De; Dick, John E.; Bader, Gary D.; Hope, Kristin J.

doi:10.1182/blood.2021014698

Cited by 14 publications

(11 citation statements)

References 110 publications

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“…Of these genes, the reduction in the zinc finger gene Plag1 is of significant interest as it has recently been demonstrated that PLAG1 regulates Msi2 expression (which is significantly downregulated at the RNA level in Cks2 −/− cells Figure 4F) 40 and PLAG1 is a proteostatic regulator in HSCs itself, important for maintaining low protein synthesis rates in HSCs. 41 The absence of a change in Foxo1 phosphorylation in Cks1 −/− cells compared with WT controls was surprising, but upon inspection of its key antioxidant transcriptional partner, NFκB, we found an analogous phenotype, with separation of total protein levels and phosphorylation status. Both Cks1 −/− and Cks2 −/− LT-HSCs had increased NFκB protein levels (Suppl.…”

Section: Transcriptomic Analysis Expands the Regulatory Network Of Ck...mentioning

confidence: 73%

“…Analysis of the individual genes comprising the Foxo1_01 GSEA module revealed 7 differentially expressed genes between Cks2 −/− LSK cells and WT controls (Figure 5G–L). Of these genes, the reduction in the zinc finger gene Plag1 is of significant interest as it has recently been demonstrated that PLAG1 regulates Msi2 expression (which is significantly downregulated at the RNA level in Cks2 −/− cells Figure 4F) 40 and PLAG1 is a proteostatic regulator in HSCs itself, important for maintaining low protein synthesis rates in HSCs 41 …”

Section: Resultsmentioning

confidence: 99%

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The CKS1/CKS2 Proteostasis Axis Is Crucial to Maintain Hematopoietic Stem Cell Function

et al. 2023

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Long-term hematopoietic stem cells are rare, highly quiescent stem cells of the hematopoietic system with life-long self-renewal potential and the ability to transplant and reconstitute the entire hematopoietic system of conditioned recipients. Most of our understanding of these rare cells has relied on cell surface identification, epigenetic, and transcriptomic analyses. Our knowledge of protein synthesis, folding, modification, and degradation—broadly termed protein homeostasis or “proteostasis”—in these cells is still in its infancy, with very little known about how the functional state of the proteome is maintained in hematopoietic stem cells. We investigated the requirement of the small phospho-binding adaptor proteins, the cyclin-dependent kinase subunits (CKS1 and CKS2), for maintaining ordered hematopoiesis and long-term hematopoietic stem cell reconstitution. CKS1 and CKS2 are best known for their roles in p27 degradation and cell cycle regulation, and by studying the transcriptome and proteome of Cks1 −/− and Cks2 −/− mice, we demonstrate regulation of key signaling pathways that govern hematopoietic stem cell biology including AKT, FOXO1, and NFκB, together balancing protein homeostasis and restraining reactive oxygen species to ensure healthy hematopoietic stem cell function.

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Section: Transcriptomic Analysis Expands the Regulatory Network Of Ck...mentioning

confidence: 73%

Section: Resultsmentioning

confidence: 99%

The CKS1/CKS2 Proteostasis Axis Is Crucial to Maintain Hematopoietic Stem Cell Function

et al. 2023

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“…Because it had been proven that IR-780 could enhance mouse HSCs repopulation capacity by raising the proportion of G0 HSCs, we tried to extend it to human CD34 + HSCs. Thus, we performed a transplantation assay to characterize the repopulation potential of human CD34 + HSCs (hHSCs) after IR-780 treatment in NOD-Prkdc scid Il2rg null (NSG) mice 38 . As shown in Figure 7, 1 × 10 4 human CD34 + hematopoietic cells with IR-780 treatment or not were transplanted with 6.25 × 10 3 mouse BM cells into recipient NSG mice after 3.15Gy irradiation.…”

Section: Resultsmentioning

confidence: 99%

Near-Infrared Dye Ir-780 Alleviates Hematopoietic System Damage by Promoting Hematopoietic Stem Cells Into Quiescence

Wu,

Ma,

Gong

et al. 2024

Shock

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Worrying about potential radiation exposure is a general concern, but no effective pre-exposure radioprotective countermeasure is generally accepted1. Here, we found a small molecular near-infrared (NIR) dye IR-780, which promoted hematopoietic stem cells (HSCs) into quiescence to resist stress. When mice were treated with IR-780 before stress, increased HSC quiescence and better hematopoietic recovery were observed in IR-780-treated mice in stress conditions. However, when given after radiation, IR-780 did not show obvious benefit. Transplantation assay and colony-forming assay were carried out to determine self-renewal ability and repopulation capacity. Furthermore, IR-780 reduced the generation of reactive oxygen species (ROS) and DNA damage in HSCs after radiation. In homeostasis, the percentage of Lineage-, Sca-1+, and c-Kit+ cells (LSKs) and long-term HSCs (LT-HSCs) were improved, and more HSCs were in G0 state after administration of IR-780. Further investigations showed that IR-780 selectively accumulated in LT-HSCs with high mitochondria membrane potential (MMP) and entered cells by organic anion transporting polypeptides 1b2(Oatp1b2). Finally, IR-780 promoted human CD34+ hematopoietic stem cell reconstruction ability in NOD-PrkdcscidIl2rgnull (NSG) mice after transplantation and improved repopulation capacity in vitro culture. Our research showed that IR-780 selectively entered MMP-high LT-HSCs and promoted them into dormancy, thus reducing hematopoietic injury and improving regeneration capacity. This novel approach might hold promise as a potential radiation countermeasure.

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“…Ex vivo activation in response to mitogenic stimuli has been also shown to affect additional HSC quality-control programs including mitochondrial metabolism, protein synthesis, autophagic recycling and UPR stress response early upon exposure to culture systems and prior to cell cycle progression 32,[81][82][83][84] . As we show that a stimulation time of approximately 16h is sufficient to affect the long-term repopulating potential of aged HSPC in transplantation experiments, one can speculate that the observed loss of aged HSC fitness may result from the combinatorial effects of dysregulated culture adaptation programs and the proliferative stress imposed by the transplant.…”

Section: Discussionmentioning

confidence: 99%

Molecular and phenotypic blueprint of the hematopoietic compartment reveals proliferation stress as a driver of age-associated human stem cell dysfunctions

Lettera,

Scala,

Basso-Ricci

et al. 2023

Preprint

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Hematopoietic stem/progenitor cell (HSPC) aging studies have been associated with myeloid skewing, reduced clonal output, and impaired regenerative capacity, but quantitative immunophenotypic and functional analysis across human aging is lacking. Here, we provide a comprehensive phenotypic, transcriptional, and functional dissection of human hematopoiesis across the lifespan. Although primitive HSPC numbers were stable during aging, overall cellularity was reduced, especially for erythroid and lymphoid lineages. Notably, HSPC from aged individuals had superior repopulating frequency than younger counterparts in xenografts; yet aged HSPC displayed epigenetic dysregulation of cell cycle, inflammatory signatures, and a reduced capacity to counteract activation-induced proliferative stress with concomitant accumulation of DNA damage and senescence-like features upon xenotransplantation. This phenotype was recapitulated by enforcing proliferative stress in vivo on cord blood (CB) HSPC. Overall, our work sheds light on dysregulated responses to activation-induced proliferation underlying HSPC aging and establishes CB xenotransplantation-based models as suitable for studying age-associated hematopoietic defects.

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PLAG1 dampens protein synthesis to promote human hematopoietic stem cell self-renewal

Cited by 14 publications

References 110 publications

The CKS1/CKS2 Proteostasis Axis Is Crucial to Maintain Hematopoietic Stem Cell Function

The CKS1/CKS2 Proteostasis Axis Is Crucial to Maintain Hematopoietic Stem Cell Function

Near-Infrared Dye Ir-780 Alleviates Hematopoietic System Damage by Promoting Hematopoietic Stem Cells Into Quiescence

Molecular and phenotypic blueprint of the hematopoietic compartment reveals proliferation stress as a driver of age-associated human stem cell dysfunctions

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