Literature DB >> 28348148

Inhibition of WNT signaling in the bone marrow niche prevents the development of MDS in the Apcdel/+ MDS mouse model.

Angela Stoddart1, Jianghong Wang1, Chunmei Hu1, Anthony A Fernald1, Elizabeth M Davis1, Jason X Cheng2,3, Michelle M Le Beau1,3.   

Abstract

There is accumulating evidence that functional alteration(s) of the bone marrow (BM) microenvironment contribute to the development of some myeloid disorders, such as myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML). In addition to a cell-intrinsic role of WNT activation in leukemia stem cells, WNT activation in the BM niche is also thought to contribute to the pathogenesis of MDS and AML. We previously showed that the Apc-haploinsufficient mice (Apcdel/+ ) model MDS induced by an aberrant BM microenvironment. We sought to determine whether Apc, a multifunctional protein and key negative regulator of the canonical β-catenin (Ctnnb1)/WNT-signaling pathway, mediates this disease through modulating WNT signaling, and whether inhibition of WNT signaling prevents the development of MDS in Apcdel/+ mice. Here, we demonstrate that loss of 1 copy of Ctnnb1 is sufficient to prevent the development of MDS in Apcdel/+ mice and that altered canonical WNT signaling in the microenvironment is responsible for the disease. Furthermore, the US Food and Drug Administration (FDA)-approved drug pyrvinium delays and/or inhibits disease in Apcdel/+ mice, even when it is administered after the presentation of anemia. Other groups have observed increased nuclear CTNNB1 in stromal cells from a high frequency of MDS/AML patients, a finding that together with our results highlights a potential new strategy for treating some myeloid disorders.
© 2017 by The American Society of Hematology.

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Year:  2017        PMID: 28348148      PMCID: PMC5454335          DOI: 10.1182/blood-2016-08-736454

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


  57 in total

1.  Haploinsufficient loss of multiple 5q genes may fine-tune Wnt signaling in del(5q) therapy-related myeloid neoplasms.

Authors:  Angela Stoddart; Joy Nakitandwe; Shann-Ching Chen; James R Downing; Michelle M Le Beau
Journal:  Blood       Date:  2015-11-13       Impact factor: 22.113

2.  Small-molecule inhibition of Wnt signaling through activation of casein kinase 1α.

Authors:  Curtis A Thorne; Alison J Hanson; Judsen Schneider; Emilios Tahinci; Darren Orton; Christopher S Cselenyi; Kristin K Jernigan; Kelly C Meyers; Brian I Hang; Alex G Waterson; Kwangho Kim; Bruce Melancon; Victor P Ghidu; Gary A Sulikowski; Bonnie LaFleur; Adrian Salic; Laura A Lee; David M Miller; Ethan Lee
Journal:  Nat Chem Biol       Date:  2010-10-03       Impact factor: 15.040

3.  Canonical Wnt signaling in differentiated osteoblasts controls osteoclast differentiation.

Authors:  Donald A Glass; Peter Bialek; Jong Deok Ahn; Michael Starbuck; Millan S Patel; Hans Clevers; Mark M Taketo; Fanxin Long; Andrew P McMahon; Richard A Lang; Gerard Karsenty
Journal:  Dev Cell       Date:  2005-05       Impact factor: 12.270

Review 4.  Mesenchymal cell contributions to the stem cell niche.

Authors:  Youmna Kfoury; David T Scadden
Journal:  Cell Stem Cell       Date:  2015-03-05       Impact factor: 24.633

5.  Expression of beta-catenin by acute myeloid leukemia cells predicts enhanced clonogenic capacities and poor prognosis.

Authors:  L Ysebaert; G Chicanne; C Demur; F De Toni; N Prade-Houdellier; J-B Ruidavets; V Mansat-De Mas; F Rigal-Huguet; G Laurent; B Payrastre; S Manenti; C Racaud-Sultan
Journal:  Leukemia       Date:  2006-05-11       Impact factor: 11.528

6.  Impaired proliferative potential of bone marrow mesenchymal stromal cells in patients with myelodysplastic syndromes is associated with abnormal WNT signaling pathway.

Authors:  Konstantia Pavlaki; Charalampos G Pontikoglou; Anthi Demetriadou; Aristea K Batsali; Athina Damianaki; Emmanouil Simantirakis; Michail Kontakis; Athanasios Galanopoulos; Ioannis Kotsianidis; Maria-Christina Kastrinaki; Helen A Papadaki
Journal:  Stem Cells Dev       Date:  2014-04-21       Impact factor: 3.272

7.  Clinical effect of point mutations in myelodysplastic syndromes.

Authors:  Rafael Bejar; Kristen Stevenson; Omar Abdel-Wahab; Naomi Galili; Björn Nilsson; Guillermo Garcia-Manero; Hagop Kantarjian; Azra Raza; Ross L Levine; Donna Neuberg; Benjamin L Ebert
Journal:  N Engl J Med       Date:  2011-06-30       Impact factor: 91.245

8.  Canonical wnt signaling regulates hematopoiesis in a dosage-dependent fashion.

Authors:  Tiago C Luis; Brigitta A E Naber; Paul P C Roozen; Martijn H Brugman; Edwin F E de Haas; Mehrnaz Ghazvini; Willem E Fibbe; Jacques J M van Dongen; Riccardo Fodde; Frank J T Staal
Journal:  Cell Stem Cell       Date:  2011-10-04       Impact factor: 24.633

9.  Inactivation of the beta-catenin gene by Wnt1-Cre-mediated deletion results in dramatic brain malformation and failure of craniofacial development.

Authors:  V Brault; R Moore; S Kutsch; M Ishibashi; D H Rowitch; A P McMahon; L Sommer; O Boussadia; R Kemler
Journal:  Development       Date:  2001-04       Impact factor: 6.868

10.  The adenomatous polyposis coli tumor suppressor protein localizes to plasma membrane sites involved in active cell migration.

Authors:  I S Näthke; C L Adams; P Polakis; J H Sellin; W J Nelson
Journal:  J Cell Biol       Date:  1996-07       Impact factor: 10.539
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  24 in total

Review 1.  Canonical Wnt: a safeguard and threat for erythropoiesis.

Authors:  Rosa A Krimpenfort; Micha Nethe
Journal:  Blood Adv       Date:  2021-09-28

Review 2.  A research review of experimental animal models with myelodysplastic syndrome.

Authors:  Gen-Wang Chen; Mei-Na Chen; Lei Liu; Yu-Yu Zheng; Jin-Peng Wang; Si-Si Gong; Rong-Fu Huang; Chun-Mei Fan; Yue-Zu Chen
Journal:  Clin Transl Oncol       Date:  2022-09-06       Impact factor: 3.340

Review 3.  Regulation of Malignant Myeloid Leukemia by Mesenchymal Stem Cells.

Authors:  Zhenya Tan; Chen Kan; Mandy Wong; Minqiong Sun; Yakun Liu; Fan Yang; Siying Wang; Hong Zheng
Journal:  Front Cell Dev Biol       Date:  2022-06-08

4.  Phase 1 study of CWP232291 in patients with relapsed or refractory acute myeloid leukemia and myelodysplastic syndrome.

Authors:  Je-Hwan Lee; Stefan Faderl; John M Pagel; Chul Won Jung; Sung-Soo Yoon; Animesh D Pardanani; Pamela S Becker; Howard Lee; Jeongeun Choi; Kyoungjune Lee; Minkyoung Kim; Jorge E Cortes
Journal:  Blood Adv       Date:  2020-05-12

5.  Role of c-Myc haploinsufficiency in the maintenance of HSCs in mice.

Authors:  Yue Sheng; Rui Ma; Chunjie Yu; Qiong Wu; Steven Zhang; Kimberly Paulsen; Jiwang Zhang; Hongyu Ni; Yong Huang; Yi Zheng; Zhijian Qian
Journal:  Blood       Date:  2021-02-04       Impact factor: 25.476

Review 6.  The Bone's Role in Myeloid Neoplasia.

Authors:  Lukas Kazianka; Philipp B Staber
Journal:  Int J Mol Sci       Date:  2020-07-01       Impact factor: 5.923

7.  The CK1α Activator Pyrvinium Enhances the Catalytic Efficiency (kcat/Km) of CK1α.

Authors:  Chen Shen; Bin Li; Luisana Astudillo; Murray P Deutscher; Melanie H Cobb; Anthony J Capobianco; Ethan Lee; David J Robbins
Journal:  Biochemistry       Date:  2019-12-10       Impact factor: 3.162

8.  Cytotoxic Therapy-Induced Effects on Both Hematopoietic and Marrow Stromal Cells Promotes Therapy-Related Myeloid Neoplasms.

Authors:  Angela Stoddart; Jianghong Wang; Anthony A Fernald; Elizabeth M Davis; Camille R Johnson; Chunmei Hu; Jason X Cheng; Megan E McNerney; Michelle M Le Beau
Journal:  Blood Cancer Discov       Date:  2020-07

Review 9.  Mesenchymal Stem Cells in Aplastic Anemia and Myelodysplastic Syndromes: The "Seed and Soil" Crosstalk.

Authors:  Bruno Fattizzo; Juri A Giannotta; Wilma Barcellini
Journal:  Int J Mol Sci       Date:  2020-07-30       Impact factor: 5.923

10.  The conserved protective cyclic AMP-phosphodiesterase function PDE4B is expressed in the adenoma and adjacent normal colonic epithelium of mammals and silenced in colorectal cancer.

Authors:  Jennifer K Pleiman; Amy A Irving; Zhishi Wang; Erik Toraason; Linda Clipson; William F Dove; Dustin A Deming; Michael A Newton
Journal:  PLoS Genet       Date:  2018-09-06       Impact factor: 5.917
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