Frank Fuxiang Mao

Publications (12)59.26 Total impact

• Article: Embryonic stem cells induce pluripotency in somatic cell fusion through biphasic reprogramming.

  Kara M Foshay, Timothy J Looney, Sheila Chari, Frank Fuxiang Mao, Jae Hyun Lee, Li Zhang, Croydon J Fernandes, Samuel W Baker, Kayla L Clift, Jedidiah Gaetz, Chun-Guang Di, Andy Peng Xiang, Bruce T Lahn
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  ABSTRACT: It is a long-held paradigm that cell fusion reprograms gene expression but the extent of reprogramming and whether it is affected by the cell types employed remain unknown. We recently showed that the silencing of somatic genes is attributable to either trans-acting cellular environment or cis-acting chromatin context. Here, we examine how trans- versus cis-silenced genes in a somatic cell type behave in fusions to another somatic cell type or to embryonic stem cells (ESCs). We demonstrate that while reprogramming of trans-silenced somatic genes occurs in both cases, reprogramming of cis-silenced somatic genes occurs only in somatic-ESC fusions. Importantly, ESCs reprogram the somatic genome in two distinct phases: trans-reprogramming occurs rapidly, independent of DNA replication, whereas cis-reprogramming occurs with slow kinetics requiring DNA replication. We also show that pluripotency genes Oct4 and Nanog are cis-silenced in somatic cells. We conclude that cis-reprogramming capacity is a fundamental feature distinguishing ESCs from somatic cells.
  Molecular cell 03/2012; 46(2):159-70. · 14.61 Impact Factor
• Article: Evidence for a critical role of gene occlusion in cell fate restriction.

  Jedidiah Gaetz, Kayla L Clift, Croydon J Fernandes, Frank Fuxiang Mao, Jae Hyun Lee, Li Zhang, Samuel W Baker, Timothy J Looney, Kara M Foshay, Wei-Hua Yu, Andy Peng Xiang, Bruce T Lahn
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  ABSTRACT: The progressive restriction of cell fate during lineage differentiation is a poorly understood phenomenon despite its ubiquity in multicellular organisms. We recently used a cell fusion assay to define a mode of epigenetic silencing that we termed "occlusion", wherein affected genes are silenced by cis-acting chromatin mechanisms irrespective of whether trans-acting transcriptional activators are present. We hypothesized that occlusion of lineage-inappropriate genes could contribute to cell fate restriction. Here, we test this hypothesis by introducing bacterial artificial chromosomes (BACs), which are devoid of chromatin modifications necessary for occlusion, into mouse fibroblasts. We found that BAC transgenes corresponding to occluded endogenous genes are expressed in most cases, whereas BAC transgenes corresponding to silent but non-occluded endogenous genes are not expressed. This indicates that the cellular milieu in trans supports the expression of most occluded genes in fibroblasts, and that the silent state of these genes is solely the consequence of occlusion in cis. For the BAC corresponding to the occluded myogenic master regulator Myf5, expression of the Myf5 transgene on the BAC triggered fibroblasts to acquire a muscle-like phenotype. These results provide compelling evidence for a critical role of gene occlusion in cell fate restriction.
  Cell Research 11/2011; 22(5):848-58. · 8.19 Impact Factor
• Source

  Available from: Li Zhang

  Article: Nestin is required for the proper self-renewal of neural stem cells.

  Donghyun Park, Andy Peng Xiang, Frank Fuxiang Mao, Li Zhang, Chun-Guang Di, Xiao-Mei Liu, Yuan Shao, Bao-Feng Ma, Jae-Hyun Lee, Kwon-Soo Ha, Noah Walton, Bruce T Lahn
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  ABSTRACT: The intermediate filament protein, nestin, is a widely employed marker of multipotent neural stem cells (NSCs). Recent in vitro studies have implicated nestin in a number of cellular processes, but there is no data yet on its in vivo function. Here, we report the construction and functional characterization of Nestin knockout mice. We found that these mice show embryonic lethality, with neuroepithelium of the developing neural tube exhibiting significantly fewer NSCs and much higher levels of apoptosis. Consistent with this in vivo observation, NSC cultures derived from knockout embryos show dramatically reduced self-renewal ability that is associated with elevated apoptosis but no overt defects in cell proliferation or differentiation. Unexpectedly, nestin deficiency has no detectable effect on the integrity of the cytoskeleton. Furthermore, the knockout of Vimentin, which abolishes nestin's ability to polymerize into intermediate filaments in NSCs, does not lead to any apoptotic phenotype. These data demonstrate that nestin is important for the proper survival and self-renewal of NSCs, and that this function is surprisingly uncoupled from nestin's structural involvement in the cytoskeleton.
  Stem Cells 10/2010; 28(12):2162-71. · 7.78 Impact Factor
• Source

  Available from: PubMed Central

  Article: Multiple mesodermal lineage differentiation of Apodemus sylvaticus embryonic stem cells in vitro.

  Tao Wang, Frank Fuxiang Mao, Wenyu Lai, Weiqiang Li, Weihua Yu, Zifei Wang, Lirong Zhang, Jinli Zhang, Jin Niu, Xiuming Zhang, Bruce T Lahn, Andy Peng Xiang
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  ABSTRACT: Embryonic stem (ES) cells have attracted significant attention from researchers around the world because of their ability to undergo indefinite self-renewal and produce derivatives from the three cell lineages, which has enormous value in research and clinical applications. Until now, many ES cell lines of different mammals have been established and studied. In addition, recently, AS-ES1 cells derived from Apodemus sylvaticus were established and identified by our laboratory as a new mammalian ES cell line. Hence further research, in the application of AS-ES1 cells, is warranted. Herein we report the generation of multiple mesodermal AS-ES1 lineages via embryoid body (EB) formation by the hanging drop method and the addition of particular reagents and factors for induction at the stage of EB attachment. The AS-ES1 cells generated separately in vitro included: adipocytes, osteoblasts, chondrocytes and cardiomyocytes. Histochemical staining, immunofluorescent staining and RT-PCR were carried out to confirm the formation of multiple mesodermal lineage cells. The appropriate reagents and culture milieu used in mesodermal differentiation of mouse ES cells also guide the differentiation of in vitro AS-ES1 cells into distinct mesoderm-derived cells. This study provides a better understanding of the characteristics of AS-ES1 cells, a new species ES cell line and promotes the use of Apodemus ES cells as a complement to mouse ES cells in future studies.
  BMC Cell Biology 01/2010; 11:42. · 2.59 Impact Factor
• Source

  Available from: Li Zhang

  Article: A stem cell-based tool for small molecule screening in adipogenesis.

  Jie Qin, Wei-Qiang Li, Li Zhang, Fei Chen, Wen-Hua Liang, Frank Fuxiang Mao, Xiu-Ming Zhang, Bruce T Lahn, Wei-Hua Yu, Andy Peng Xiang
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  ABSTRACT: Techniques for small molecule screening are widely used in biological mechanism study and drug discovery. Here, we reported a novel adipocyte differentiation assay for small molecule selection, based on human mesenchymal stem cells (hMSCs) transduced with fluorescence reporter gene driven by adipogenic specific promoter--adipocyte Protein 2 (aP2; also namely Fatty Acid Binding Protein 4, FABP4). During normal adipogenic induction as well as adipogenic inhibition by Ly294002, we confirmed that the intensity of green fluorescence protein corresponded well to the expression level of aP2 gene. Furthermore, this variation of green fluorescence protein intensity can be read simply through fluorescence spectrophotometer. By testing another two small molecules in adipogenesis--Troglitazone and CHIR99021, we proved that this is a simple and sensitive method, which could be applied in adipocyte biology, drug discovery and toxicological study in the future.
  PLoS ONE 01/2010; 5(9):e13014. · 4.09 Impact Factor
• Article: Generation of functional hepatocytes from mouse induced pluripotent stem cells.

  Weiqiang Li, Ding Wang, Jie Qin, Chang Liu, Qi Zhang, Xiuming Zhang, Xinbing Yu, Bruce T Lahn, Frank Fuxiang Mao, Andy Peng Xiang
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  ABSTRACT: Induced pluripotent stem cells are derived from somatic cells by forced expression of several transcriptional factors. Induced pluripotent stem cells resemble embryonic stem cells in many aspects, such as the expression of certain stem cell markers, chromatin methylation patterns, embryoid body formation and teratoma formation. Therefore, induced pluripotent stem cells provide a powerful tool for study of developmental biology and unlimited resources for transplantation therapy. Here we reported the successful induction of mouse induced pluripotent stem cells and a simple and efficient process for generation of functional hepatocytes from mouse induced pluripotent stem cells by sequential addition of inducing factors. These induced pluripotent stem cell-derived hepatocytes, just as mouse embryonic stem cell-derived hepatocytes, expressed hepatic lineage markers including CK7, CK8, CK18, CK19, alpha-fetoprotein, albumin, Cyp7a1, and exhibited functional hepatic characteristics, including glycogen storage, indocyanine green (ICG) uptake and release, low-density lipoprotein (LDL) uptake and urea secretion. Although we observed some variations in the efficiency of hepatic differentiation between induced pluripotent stem cells and common mouse embryonic stem cell lines, our results indicate that mouse induced pluripotent stem cells can efficiently differentiate into functional hepatocytes in vitro, which may be helpful for the study of liver development and regenerative medicine.
  Journal of Cellular Physiology 12/2009; 222(3):492-501. · 3.87 Impact Factor
• Article: The radial glia antibody RC2 recognizes a protein encoded by Nestin.

  Donghyun Park, Andy Peng Xiang, Li Zhang, Frank Fuxiang Mao, Noah M Walton, Sun Shim Choi, Bruce T Lahn
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  ABSTRACT: The RC2 antibody is widely used to label mouse radial glial cells in the developing central nervous system. While the antibody is known to recognize a 295-kDa intermediate filament proximal protein, the gene encoding the RC2 antigen remains to be identified. Here, we present evidences clearly demonstrating that Nestin encodes the RC2 antigen. First, the RC2 antigen and nestin have the same molecular weight and very similar tissue distribution. Second, genetic manipulations altering nestin expression also exert the same effect on the expression of the RC2 antigen. In particular, Nestin null mutation completely abolishes the RC2 immunoreactivity. Third, the expression of a truncated mouse nestin in Nestin-/- cells produces a small RC2 antigen whose size is the same to that of the truncated nestin. Furthermore, our data suggest that the RC2 antibody recognizes the C-terminal domain of nestin with unidentified posttranslational modification(s).
  Biochemical and Biophysical Research Communications 04/2009; 382(3):588-92. · 2.48 Impact Factor
• Article: Derivation, characterization and gene modification of cynomolgus monkey mesenchymal stem cells.

  Hui Ke, Peng Wang, Weihua Yu, Xiaoming Liu, Chang Liu, Fan Yang, Frank Fuxiang Mao, Liangming Zhang, Xiuming Zhang, Bruce T Lahn, Andy Peng Xiang
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  ABSTRACT: Mesenchymal stem cells (MSCs) have received considerable attention in recent years. Particularly exciting is the prospect that MSCs could be differentiated into specialized cells of interest, which could then be used for cell therapy and tissue engineering. MSCs derived from nonhuman primates could be a powerful tool for investigating the differentiation potential in vitro and in vivo for preclinical research. The purpose of this study was to isolate cynomolgus mesenchymal stem cells (cMSCs) from adult bone marrow and characterize their growth properties and multipotency. Mononuclear cells were isolated from cynomolgus monkey bone marrow by density-gradient centrifugation, and adherent fibroblast-like cells grew well in the complete growth medium with 10 microM Tenofovir. cMSCs expressed mesenchymal markers, such as CD29, CD105, CD166 and were negative for hematopoietic markers such as CD34, CD45. Furthermore, the cells were capable of differentiating into osteogenic, chondrogenic, and adipogenic lineages under certain conditions, maintaining normal karyotype throughout extended culture. We also compared different methods (lipofection, nucleofection and lentivirus) for genetic modification of cMSCs and found lentivirus proved to be the most effective method with transduction efficiency of up to 44.6% and lowest level of cell death. The cells after transduction stably expressed green fluorescence protein (GFP) and maintained the abilities to differentiate down osteogenic and adipogenic lineages. In conclusion, these data showed that cMSCs isolated from cynomolgus bone marrow shared similar characteristics with human MSCs and might provide an attractive cell type for cell-based therapy in higher-order mammalian species disorder models.
  Differentiation 04/2009; 77(3):256-62. · 2.81 Impact Factor
• Article: Effects of thymic polypeptides on the thymopoiesis of mouse embryonic stem cells.

  Yanwen Peng, Zhenguang Chen, Weihua Yu, Qifeng Zhou, Lin Xu, Frank Fuxiang Mao, Gang Huang, Xiuming Zhang, Shunong Li, Bruce T Lahn, Andy Peng Xiang
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  ABSTRACT: The thymus provides a unique cellular and hormonic microenvironment for the development of immunocompetent T cells. Thymic polypeptides have been widely used clinically for the treatment of tumors, infectious diseases and immune deficiency diseases. They have already shown the ability to stimulate the maturation of hematopoietic stem cells towards the CD3+CD4+ T cell lineage. However, their effects on the thymopoiesis of embryonic stem cells are still unexplored. In this paper, we compared the effects of three thymic polypeptides, thymopentin (TP5), thymosin alpha-1 (Talpha-1) and thymopeptides on the in vitro thymopoiesis of mouse embryonic stem (ES) cells. Using the embryoid body induction system, we found that both Talpha-1 and thymopeptides effectively induced ES cells to differentiate sequentially into the CD3+ and CD4+/CD8+ T cells. These T cells had T cell receptor (TCR) Vbeta gene rearrangement and most were TCRalphabeta T cells. We also found that the expression of the Notch receptor and its ligands Delta-like-1 and Delta-like-4 gradually increased during the induction. However, TP5 failed to induce the T cell differentiation of the ES cells. In summary, this is the first report to demonstrate that Talpha-1 can stimulate the T cell early stage differentiation from ES cells using the embryoid body protocol. These findings provide a powerful model for studying T cell development and may open new venues for the clinical application of Talpha-1.
  Cell Biology International 08/2008; 32(10):1265-71. · 1.48 Impact Factor
• Article: Extensive contribution of embryonic stem cells to the development of an evolutionarily divergent host.

  Andy Peng Xiang, Frank Fuxiang Mao, Wei-Qiang Li, Donghyun Park, Bao-Feng Ma, Tao Wang, Tammy W Vallender, Eric J Vallender, Li Zhang, Jaehyun Lee, John A Waters, Xiu-Ming Zhang, Xin-Bing Yu, Shu-Nong Li, Bruce T Lahn
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  ABSTRACT: The full potential of embryonic stem (ES) cells to generate precise cell lineages and complex tissues can be best realized when they are differentiated in vivo-i.e. in developing blastocysts. Owing to various practical and ethical constraints, however, it is impossible to introduce ES cells of certain species into blastocysts of the same species. One solution is to introduce ES cells into blastocysts of a different species. However, it is not known whether ES cells can contribute extensively to chimerism when placed into blastocysts of a distantly related species. Here, we address this question using two divergent species, Apodemus sylvaticus and Mus musculus, whose genome sequence differs by approximately 18% from each other. Despite this considerable evolutionary distance, injection of Apodemus ES cells into Mus blastocysts led to viable chimeras bearing extensive Apodemus contributions to all major organs, including the germline, with Apodemus contribution reaching approximately 40% in some tissues. Immunostaining showed that Apodemus ES cells have differentiated into a wide range of cell types in the chimeras. Our results thus provide a proof of principle for the feasibility of differentiating ES cells into a wide range of cell types and perhaps even complex tissues by allowing them to develop in vivo in an evolutionarily divergent host-a strategy that may have important applications in research and therapy. Furthermore, our study demonstrates that mammalian evolution can proceed at two starkly contrasting levels: significant divergence in genome and proteome sequence, yet striking conservation in developmental programs.
  Human Molecular Genetics 02/2008; 17(1):27-37. · 7.64 Impact Factor
• Article: Proteomic identification of differently expressed proteins responsible for osteoblast differentiation from human mesenchymal stem cells.

  Ai-Xia Zhang, Wei-Hua Yu, Bao-Feng Ma, Xin-Bing Yu, Frank Fuxiang Mao, Wei Liu, Jia-Qing Zhang, Xiu-Ming Zhang, Shu-Nong Li, Ming-Tao Li, Bruce T Lahn, Andy Peng Xiang
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  ABSTRACT: Human mesenchymal stem cells (hMSC) are a population of multipotent cells that can differentiate into osteoblasts, chondrocytes, adipocytes, and other cells. The exact mechanism governing the differentiation of hMSC into osteoblasts remains largely unknown. Here, we analyzed protein expression profiles of undifferentiated as well as osteogenic induced hMSC using 2-D gel electrophoresis (2-DE), mass spectrometry (MS), and peptide mass fingerprinting (PMF) to investigate the early gene expression in osteoblast differentiation. We have generated proteome maps of undifferentiated hMSC and osteogenic induced hMSC on day 3 and day 7. 2-DE revealed 102 spots with at least 2.0-fold changes in expression and 52 differently expressed proteins were successfully identified by MALDI-TOF-MS. These proteins were classified into 7 functional categories: metabolism, signal transduction, transcription, calcium-binding protein, protein degradation, protein folding and others. The expression of some identified proteins was confirmed by further RT-PCR analyses. This study clarifies the global proteome during osteoblast differentiation. Our results will play an important role in better elucidating the underlying molecular mechanism in hMSC differentiation into osteoblasts.
  Molecular and Cellular Biochemistry 11/2007; 304(1-2):167-79. · 2.06 Impact Factor
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  Available from: cyagen.com

  Article: Neural differentiation of embryonic stem cells induced by conditioned medium from neural stem cell.

  Jia-Qing Zhang, Xin-Bing Yu, Bao-Feng Ma, Wei-Hua Yu, Ai-Xia Zhang, Guo Huang, Frank Fuxiang Mao, Xiu-Ming Zhang, Zhi-Chong Wang, Shu-Nong Li, Bruce T Lahn, Andy Peng Xiang
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  ABSTRACT: Embryonic stem cells can proliferate indefinitely and are capable of differentiating into derivatives of all three embryonic germ layers in vitro, including the neural lineage. The main objective of this study is to test the effects of neural stem cell conditioned medium on the neural differentiation of mouse embryonic stem cells. When cultured in neural stem cell conditioned medium, mouse embryonic stem cells can form floating cell spheres composed of many nestin-positive cells. After trypsinization and growth on gelatin, these embryonic stem cell-derived neural progenitor cells can be expanded for more than 3 months without loss of neural progenitor characteristics. Both neuronal and glial cells can be readily generated from these cells under differentiation conditions. Thus, neural stem cell conditioned medium is a highly potent reagent for inducing the development of mouse embryonic stem cells into the neural lineage, especially neural progenitor cells.
  Neuroreport 08/2006; 17(10):981-6. · 1.66 Impact Factor