Literature DB >> 30593445

Serial transplantation reveals a critical role for endoglin in hematopoietic stem cell quiescence.

Luciene Borges1,2, Vanessa K P Oliveira1, June Baik1, Sean C Bendall2, Rita C R Perlingeiro1,3.   

Abstract

Transforming growth factor β (TGF-β) is well known for its important function in hematopoietic stem cell (HSC) quiescence. However, the molecular mechanism underlining this function remains obscure. Endoglin (Eng), a type III receptor for the TGF-β superfamily, has been shown to selectively mark long-term HSCs; however, its necessity in adult HSCs is unknown due to embryonic lethality. Using conditional deletion of Eng combined with serial transplantation, we show that this TGF-β receptor is critical to maintain the HSC pool. Transplantation of Eng-deleted whole bone marrow or purified HSCs into lethally irradiated mice results in a profound engraftment defect in tertiary and quaternary recipients. Cell cycle analysis of primary grafts revealed decreased frequency of HSCs in G0, suggesting that lack of Eng impairs reentry of HSCs to quiescence. Using cytometry by time of flight (CyTOF) to evaluate the activity of signaling pathways in individual HSCs, we find that Eng is required within the Lin-Sca+Kit+-CD48- CD150+ fraction for canonical and noncanonical TGF-β signaling, as indicated by decreased phosphorylation of SMAD2/3 and the p38 MAPK-activated protein kinase 2, respectively. These findings support an essential role for Eng in positively modulating TGF-β signaling to ensure maintenance of HSC quiescence.
© 2019 by The American Society of Hematology.

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Year:  2018        PMID: 30593445      PMCID: PMC6376279          DOI: 10.1182/blood-2018-09-874677

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  45 in total

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Authors:  Satoshi Yamazaki; Hideo Ema; Göran Karlsson; Tomoyuki Yamaguchi; Hiroyuki Miyoshi; Seiji Shioda; Makoto M Taketo; Stefan Karlsson; Atsushi Iwama; Hiromitsu Nakauchi
Journal:  Cell       Date:  2011-11-23       Impact factor: 41.582

2.  Endoglin expression level discriminates long-term hematopoietic from short-term clonogenic progenitor cells in the aorta.

Authors:  Marion Roques; Charles Durand; Rodolphe Gautier; Pierre-Yves Canto; Laurence Petit-Cocault; Laurent Yvernogeau; Dominique Dunon; Michèle Souyri; Thierry Jaffredo
Journal:  Haematologica       Date:  2012-01-22       Impact factor: 9.941

3.  Three-dimensional cartography of hematopoietic clusters in the vasculature of whole mouse embryos.

Authors:  Tomomasa Yokomizo; Elaine Dzierzak
Journal:  Development       Date:  2010-09-28       Impact factor: 6.868

4.  Endoglin is not critical for hematopoietic stem cell engraftment and reconstitution but regulates adult erythroid development.

Authors:  Jennifer L Moody; Sofie Singbrant; Göran Karlsson; Ulrika Blank; Marie Aspling; Johan Flygare; David Bryder; Stefan Karlsson
Journal:  Stem Cells       Date:  2007-08-02       Impact factor: 6.277

5.  Identification of endoglin as a functional marker that defines long-term repopulating hematopoietic stem cells.

Authors:  Chang-Zheng Chen; Min Li; David de Graaf; Stefano Monti; Berthold Göttgens; Maria-Jose Sanchez; Eric S Lander; Todd R Golub; Anthony R Green; Harvey F Lodish
Journal:  Proc Natl Acad Sci U S A       Date:  2002-11-15       Impact factor: 11.205

6.  Expression levels of endoglin distinctively identify hematopoietic and endothelial progeny at different stages of yolk sac hematopoiesis.

Authors:  Luciene Borges; Michelina Iacovino; Naoko Koyano-Nakagawa; June Baik; Daniel J Garry; Michael Kyba; Rita C R Perlingeiro
Journal:  Stem Cells       Date:  2013-09       Impact factor: 6.277

7.  Extracting a cellular hierarchy from high-dimensional cytometry data with SPADE.

Authors:  Peng Qiu; Erin F Simonds; Sean C Bendall; Kenneth D Gibbs; Robert V Bruggner; Michael D Linderman; Karen Sachs; Garry P Nolan; Sylvia K Plevritis
Journal:  Nat Biotechnol       Date:  2011-10-02       Impact factor: 54.908

8.  Isolation and functional properties of murine hematopoietic stem cells that are replicating in vivo.

Authors:  M A Goodell; K Brose; G Paradis; A S Conner; R C Mulligan
Journal:  J Exp Med       Date:  1996-04-01       Impact factor: 14.307

9.  Smad4 is critical for self-renewal of hematopoietic stem cells.

Authors:  Göran Karlsson; Ulrika Blank; Jennifer L Moody; Mats Ehinger; Sofie Singbrant; Chu-Xia Deng; Stefan Karlsson
Journal:  J Exp Med       Date:  2007-03-12       Impact factor: 14.307

10.  TGFβ restores hematopoietic homeostasis after myelosuppressive chemotherapy.

Authors:  Fabienne Brenet; Pouneh Kermani; Roman Spektor; Shahin Rafii; Joseph M Scandura
Journal:  J Exp Med       Date:  2013-02-25       Impact factor: 14.307
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  10 in total

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Authors:  Amit Verma; Rajasekhar Nvs Suragani; Srinivas Aluri; Nishi Shah; Tushar D Bhagat; Mark J Alexander; Rami Komrokji; Ravi Kumar
Journal:  J Clin Invest       Date:  2020-02-03       Impact factor: 14.808

2.  CD63 acts as a functional marker in maintaining hematopoietic stem cell quiescence through supporting TGFβ signaling in mice.

Authors:  Mengjia Hu; Yukai Lu; Song Wang; Zihao Zhang; Yan Qi; Naicheng Chen; Mingqiang Shen; Fang Chen; Mo Chen; Lijing Yang; Shilei Chen; Dongfeng Zeng; Fengchao Wang; Yongping Su; Yang Xu; Junping Wang
Journal:  Cell Death Differ       Date:  2021-08-06       Impact factor: 15.828

3.  Bone marrow stromal cells induce an ALDH+ stem cell-like phenotype and enhance therapy resistance in AML through a TGF-β-p38-ALDH2 pathway.

Authors:  Bin Yuan; Fouad El Dana; Stanley Ly; Yuanqing Yan; Vivian Ruvolo; Elizabeth J Shpall; Marina Konopleva; Michael Andreeff; Venkata Lokesh Battula
Journal:  PLoS One       Date:  2020-11-30       Impact factor: 3.240

4.  Impact of CD105 Flow-Cytometric Expression on Childhood B-Acute Lymphoblastic Leukemia.

Authors:  Rasha A Elkholy; Mohamed H Fouda; Eslam E Elhawary; Reem A Elkholy; Ola A Elshora
Journal:  J Blood Med       Date:  2021-03-16

5.  Multipotent progenitors and hematopoietic stem cells arise independently from hemogenic endothelium in the mouse embryo.

Authors:  Tessa Dignum; Barbara Varnum-Finney; Sanjay R Srivatsan; Stacey Dozono; Olivia Waltner; Adam M Heck; Takashi Ishida; Cynthia Nourigat-McKay; Dana L Jackson; Shahin Rafii; Cole Trapnell; Irwin D Bernstein; Brandon Hadland
Journal:  Cell Rep       Date:  2021-09-14       Impact factor: 9.995

6.  Blockade of the interaction between BMP9 and endoglin on erythroid progenitors promotes erythropoiesis in mice.

Authors:  Ayami Yamaguchi; Ikuo Hirano; Shiho Narusawa; Kiyoshi Shimizu; Hiroyuki Ariyama; Kengo Yamawaki; Kenji Nagao; Masayuki Yamamoto; Ritsuko Shimizu
Journal:  Genes Cells       Date:  2021-08-12       Impact factor: 2.300

7.  CD105 (Endoglin) as negative prognostic factor in AML.

Authors:  Joseph Kauer; Karolin Schwartz; Claudia Tandler; Clemens Hinterleitner; Malte Roerden; Gundram Jung; Helmut R Salih; Jonas S Heitmann; Melanie Märklin
Journal:  Sci Rep       Date:  2019-12-04       Impact factor: 4.379

Review 8.  Current concepts on endothelial stem cells definition, location, and markers.

Authors:  Sarah E J Chambers; Varun Pathak; Edoardo Pedrini; Lou Soret; Nicolas Gendron; Coralie L Guerin; Alan W Stitt; David M Smadja; Reinhold J Medina
Journal:  Stem Cells Transl Med       Date:  2021-11       Impact factor: 7.655

9.  Identification of CD105 (endoglin) as novel risk marker in CLL.

Authors:  Sarah M Greiner; Melanie Märklin; Samuel Holzmayer; Kübra Kaban; Sophie Meyer; Clemens Hinterleitner; Claudia Tandler; Ilona Hagelstein; Gundram Jung; Helmut R Salih; Jonas S Heitmann; Joseph Kauer
Journal:  Ann Hematol       Date:  2022-01-19       Impact factor: 3.673

10.  Hematopoietic Stem Cells in Wound Healing Response.

Authors:  Norifumi Urao; Jinghua Liu; Kentaro Takahashi; Gayathri Ganesh
Journal:  Adv Wound Care (New Rochelle)       Date:  2021-09-09       Impact factor: 4.947
  10 in total

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