Literature DB >> 28386377

Hypoxia inducible factor 1α promotes survival of mesenchymal stem cells under hypoxia.

Bingke Lv1, Feng Li1, Jie Fang1, Limin Xu1, Chengmei Sun1, Jianbang Han1, Tian Hua1, Zhongfei Zhang1, Zhiming Feng1, Xiaodan Jiang1.   

Abstract

Mesenchymal stem cells (MSCs) are ideal materials for cell therapy. Research has indicated that hypoxia benefits MSC survival, but little is known about the underlying mechanism. This study aims to uncover potential mechanisms involving hypoxia inducible factor 1α (HIF1A) to explain the promoted MSC survival under hypoxia. MSCs were obtained from Sprague-Dawley rats and cultured under normoxia or hypoxia condition. The overexpression vector or small interfering RNA of Hif1a gene was transfected to MSCs, after which cell viability, apoptosis and expression of HIF1A were analyzed by MTT assay, flow cytometry, qRT-PCR and Western blot. Factors in p53 pathway were detected to reveal the related mechanisms. Results showed that hypoxia elevated MSCs viability and up-regulated HIF1A (P < 0.05) as previously reported. HIF1A overexpression promoted viability (P < 0.01) and suppressed apoptosis (P < 0.001) under normoxia. Correspondingly, HIF1A knockdown inhibited viability (P < 0.05) and promoted apoptosis (P < 0.01) of MSCs under hypoxia. Expression analysis suggested that p53, phosphate-p53 and p21 were repressed by HIF1A overexpression and promoted by HIF1A knockdown, and B-cell CLL/lymphoma 2 (BCL2) expression had the opposite pattern (P < 0.05). These results suggest that HIF1A may improve viability and suppress apoptosis of MSCs, implying the protective effect of HIF1A on MSC survival under hypoxia. The underlying mechanisms may involve the HIF1A-suppressed p53 pathway. This study helps to explain the mechanism of MSC survival under hypoxia, and facilitates the application of MSCs in cell therapy.

Entities:  

Keywords:  Hypoxia inducible factor 1α; apoptosis; hypoxia; mesenchymal stem cell; p53

Year:  2017        PMID: 28386377      PMCID: PMC5376042     

Source DB:  PubMed          Journal:  Am J Transl Res        ISSN: 1943-8141            Impact factor:   4.060


  35 in total

1.  BAF53 interacts with p53 and functions in p53-mediated p21-gene transcription.

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Authors:  Yung-Lung Chen; Cheuk-Kwan Sun; Tzu-Hsien Tsai; Li-Teh Chang; Steve Leu; Yen-Yi Zhen; Jiunn-Jye Sheu; Sarah Chua; Kuo-Ho Yeh; Hung-I Lu; Hsueh-Wen Chang; Fan-Yen Lee; Hon-Kan Yip
Journal:  Am J Transl Res       Date:  2015-05-15       Impact factor: 4.060

3.  Induction of hypoxia-inducible factor-1α by BDNF protects retinoblastoma cells against chemotherapy-induced apoptosis.

Authors:  Yu Gao; Ming Jing; Rongrong Ge; Lili Lang
Journal:  Mol Cell Biochem       Date:  2016-02-11       Impact factor: 3.396

4.  Roles of hypoxia-inducible factor-1alpha (HIF-1alpha) versus HIF-2alpha in the survival of hepatocellular tumor spheroids.

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Journal:  Hepatology       Date:  2010-06       Impact factor: 17.425

5.  Bcl-2 overexpression in human melanoma cells increases angiogenesis through VEGF mRNA stabilization and HIF-1-mediated transcriptional activity.

Authors:  Angela Iervolino; Daniela Trisciuoglio; Domenico Ribatti; Antonio Candiloro; Annamaria Biroccio; Gabriella Zupi; Donatella Del Bufalo
Journal:  FASEB J       Date:  2002-07-01       Impact factor: 5.191

6.  Autologous preconditioned mesenchymal stem cell sheets improve left ventricular function in a rabbit old myocardial infarction model.

Authors:  Yuya Tanaka; Bungo Shirasawa; Yuriko Takeuchi; Daichi Kawamura; Tamami Nakamura; Makoto Samura; Arata Nishimoto; Koji Ueno; Noriyasu Morikage; Tohru Hosoyama; Kimikazu Hamano
Journal:  Am J Transl Res       Date:  2016-05-15       Impact factor: 4.060

7.  Hypoxia inducible factor-1alpha inactivation unveils a link between tumor cell metabolism and hypoxia-induced cell death.

Authors:  Elena Favaro; Giorgia Nardo; Luca Persano; Massimo Masiero; Lidia Moserle; Rita Zamarchi; Elisabetta Rossi; Giovanni Esposito; Mario Plebani; Ulrike Sattler; Thomas Mann; Wolfgang Mueller-Klieser; Vincenzo Ciminale; Alberto Amadori; Stefano Indraccolo
Journal:  Am J Pathol       Date:  2008-09-04       Impact factor: 4.307

8.  In vitro growth of human umbilical blood mesenchymal stem cells and their differentiation into chondrocytes and osteoblasts.

Authors:  S M Kosmacheva; M V Volk; T A Yeustratenka; I N Severin; M P Potapnev
Journal:  Bull Exp Biol Med       Date:  2008-01       Impact factor: 0.804

9.  Loss of p53 induces tumorigenesis in p21-deficient mesenchymal stem cells.

Authors:  Rene Rodriguez; Ruth Rubio; Manuel Masip; Purificación Catalina; Ana Nieto; Teresa de la Cueva; Mar Arriero; Nuria San Martin; Ernesto de la Cueva; Dimitrios Balomenos; Pablo Menendez; Javier García-Castro
Journal:  Neoplasia       Date:  2009-04       Impact factor: 5.715

10.  Adult mesenchymal stem cells and cell surface characterization - a systematic review of the literature.

Authors:  Mafi P; Hindocha S; Mafi R; Griffin M; Khan W S
Journal:  Open Orthop J       Date:  2011-07-28
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  20 in total

1.  ADAR1 promotes robust hypoxia signaling via distinct regulation of multiple HIF-1α-inhibiting factors.

Authors:  Chung-Pei Ma; Hsuan Liu; Ian Yi-Feng Chang; Wan-Cheng Wang; Yi-Tung Chen; Shao-Min Wu; Hui-Wen Chen; Yu-Ping Kuo; Chieh-Tien Shih; Chuan-Yun Li; Bertrand Chin-Ming Tan
Journal:  EMBO Rep       Date:  2019-04-04       Impact factor: 8.807

2.  Hypoxic culture enhances the expansion of rat bone marrow-derived mesenchymal stem cells via the regulatory pathways of cell division and apoptosis.

Authors:  Jun Zhang; Lei Xiong; Wenxian Tang; Lin Tang; Baohe Wang
Journal:  In Vitro Cell Dev Biol Anim       Date:  2018-08-22       Impact factor: 2.416

Review 3.  Immunomodulatory plasticity of mesenchymal stem cells: a potential key to successful solid organ transplantation.

Authors:  Urvashi Kaundal; Upma Bagai; Aruna Rakha
Journal:  J Transl Med       Date:  2018-02-15       Impact factor: 5.531

4.  Temporal enhancer profiling of parallel lineages identifies AHR and GLIS1 as regulators of mesenchymal multipotency.

Authors:  Deborah Gérard; Florian Schmidt; Aurélien Ginolhac; Martine Schmitz; Rashi Halder; Peter Ebert; Marcel H Schulz; Thomas Sauter; Lasse Sinkkonen
Journal:  Nucleic Acids Res       Date:  2019-02-20       Impact factor: 16.971

Review 5.  Mesenchymal Stem Cell/Multipotent Stromal Cell Augmentation of Wound Healing: Lessons from the Physiology of Matrix and Hypoxia Support.

Authors:  Kyle Sylakowski; Andrew Bradshaw; Alan Wells
Journal:  Am J Pathol       Date:  2020-04-12       Impact factor: 4.307

6.  Hypoxic Preconditioning of Mesenchymal Stem Cells with Subsequent Spheroid Formation Accelerates Repair of Segmental Bone Defects.

Authors:  Steve S Ho; Ben P Hung; Nasser Heyrani; Mark A Lee; J Kent Leach
Journal:  Stem Cells       Date:  2018-07-03       Impact factor: 6.277

7.  Characterization of stable hypoxia-preconditioned dental pulp stem cells compared with mobilized dental pulp stem cells for application for pulp regenerative therapy.

Authors:  Mohammed Zayed; Koichiro Iohara; Hideto Watanabe; Mami Ishikawa; Michiyo Tominaga; Misako Nakashima
Journal:  Stem Cell Res Ther       Date:  2021-05-29       Impact factor: 6.832

8.  Serum Hypoxia-Inducible Factor 1alpha Levels Correlate with Outcomes After Intracerebral Hemorrhage.

Authors:  Yong Cai; Yao-Kun Zhuang; Xiao-Yu Wu; Xiao-Qiao Dong; Quan Du; Wen-Hua Yu; Ke-Yi Wang; Wei Hu; Yong-Ke Zheng
Journal:  Ther Clin Risk Manag       Date:  2021-07-13       Impact factor: 2.423

9.  Inhibition of mircoRNA-34a Enhances Survival of Human Bone Marrow Mesenchymal Stromal/Stem Cells Under Oxidative Stress.

Authors:  Yang Liu; Xiaohu Zhang; Jie Chen; Tingyu Li
Journal:  Med Sci Monit       Date:  2018-01-13

10.  Mathematical Modeling Reveals the Role of Hypoxia in the Promotion of Human Mesenchymal Stem Cell Long-Term Expansion.

Authors:  Shuhua Gao; Cheng Xiang; Kairong Qin; Changkai Sun
Journal:  Stem Cells Int       Date:  2018-05-14       Impact factor: 5.443
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