Jesung Moon scite author profile

Summary The mammalian heart has a remarkable regenerative capacity for a short period of time after birth, after which the majority of cardiomyocytes permanently exit cell cycle. We sought to determine the primary post-natal event that results in cardiomyocyte cell-cycle arrest. We hypothesized that transition to the oxygen rich postnatal environment is the upstream signal that results in cell cycle arrest of cardiomyocytes. Here we show that reactive oxygen species (ROS), oxidative DNA damage, and DNA damage response (DDR) markers significantly increase in the heart during the first postnatal week. Intriguingly, postnatal hypoxemia, ROS scavenging, or inhibition of DDR all prolong the postnatal proliferative window of cardiomyocytes, while hyperoxemia and ROS generators shorten it. These findings uncover a previously unrecognized protective mechanism that mediates cardiomyocyte cell cycle arrest in exchange for utilization of oxygen dependent aerobic metabolism. Reduction of mitochondrial-dependent oxidative stress should be important component of cardiomyocyte proliferation-based therapeutic approaches.

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The Development of Highly Potent Inhibitors for Porcupine

Wang

Moon

Dodge

et al. 2013

J. Med. Chem.

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Porcupine is a member of the membrane-bound O-acyltransferase family proteins. It catalyzes the palmitoylation of Wnt proteins, a process required for their secretion and activity. We recently disclosed a class of small molecules (IWPs) as the first reported Porcn inhibitors. We now describe the structure-activity relationship studies and the identification of sub-nanomolar inhibitors. We also report herein the effects of IWPs on Wnt-dependent developmental processes including zebrafish posterior axis formation and kidney tubule formation.

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Diverse Chemical Scaffolds Support Direct Inhibition of the Membrane-bound O-Acyltransferase Porcupine

Dodge

Moon

Tuladhar

et al. 2012

Journal of Biological Chemistry

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A calcineurin–Hoxb13 axis regulates growth mode of mammalian cardiomyocytes

Nguyen

Canseco

Xiao

et al. 2020

Nature

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A major factor in the progression to heart failure in humans is the inability of the adult heart to repair itself after injury. We recently demonstrated that the early postnatal mammalian heart is capable of regeneration following injury through proliferation of preexisting cardiomyocytes 1,2 and that Meis1, a three amino acid loop extension (TALE) family homeodomain transcription factor, translocates to cardiomyocyte nuclei shortly after birth and mediates postnatal cell cycle arrest 3 . Here we report that Hoxb13 acts as a cofactor of Meis1 in postnatal cardiomyocytes. Cardiomyocyte-specific deletion of Hoxb13 can extend the postnatal window of cardiomyocyte proliferation and reactivate the cardiomyocyte cell cycle in the adult heart. Moreover, adult Meis1-Hoxb13 doubleknockout hearts display widespread cardiomyocyte mitosis, sarcomere disassembly and improved left ventricular systolic function following myocardial infarction, as demonstrated by echocardiography and magnetic resonance imaging. Chromatin

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The Oxygen-Rich Postnatal Environment Induces Cardiomyocyte Cell-Cycle Arrest through DNA Damage Response

Puente¹,

Kimura²,

Muralidhar³

et al. 2014

Cell

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Blockade to pathological remodeling of infarcted heart tissue using a porcupine antagonist

Moon

Zhou

Zhang

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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The secreted Wnt signaling molecules are essential to the coordination of cell-fate decision making in multicellular organisms. In adult animals, the secreted Wnt proteins are critical for tissue regeneration and frequently contribute to cancer. Small molecules that disable the Wnt acyltransferase Porcupine (Porcn) are candidate anticancer agents in clinical testing. Here we have systematically assessed the effects of the Porcn inhibitor (WNT-974) on the regeneration of several tissue types to identify potentially unwanted chemical effects that could limit the therapeutic utility of such agents. An unanticipated observation from these studies is proregenerative responses in heart muscle induced by systemic chemical suppression of Wnt signaling. Using in vitro cultures of several cell types found in the heart, we delineate the Wnt signaling apparatus supporting an antiregenerative transcriptional program that includes a subunit of the nonfibrillar collagen VI. Similar to observations seen in animals exposed to WNT-974, deletion of the collagen VI subunit, COL6A1, has been shown to decrease aberrant remodeling and fibrosis in infarcted heart tissue. We demonstrate that WNT-974 can improve the recovery of heart function after left anterior descending coronary artery ligation by mitigating adverse remodeling of infarcted tissue. Injured heart tissue exposed to WNT-974 exhibits decreased scarring and reduced Col6 production. Our findings support the development of Porcn inhibitors as antifibrotic agents that could be exploited to promote heart repair following injury.

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Homologous Recombination in Zebrafish ES Cells

et al. 2006

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Targeted insertion of a plasmid by homologous recombination was demonstrated in zebrafish ES cell cultures. Two selection strategies were used to isolate ES cell colonies that contained targeted plasmid insertions in either the no tail or myostatin I gene. One selection strategy involved the manual isolation of targeted cell colonies that were identified by the loss of fluorescent protein gene expression. A second strategy used the diphtheria toxin A-chain gene in a positive-negative selection approach. Homologous recombination was confirmed by PCR, sequence and Southern blot analysis and colonies isolated using both selection methods were expanded and maintained for multiple passages. The results demonstrate that zebrafish ES cells have potential for use in a cell-mediated gene targeting approach.

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Zebrafish Primordial Germ Cell Cultures Derived fromvasa::RFPTransgenic Embryos

Fan

Moon

Wong

et al. 2008

Stem Cells and Development

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Although embryonic germ (EG) cell-mediated gene transfer has been successful in the mouse for more than a decade, this approach is limited in other species due to the difficulty of isolating the small numbers of progenitors of germ cell lineage (PGCs) from early-stage embryos and the lack of information on the in vitro culture requirements of the cells. In this study, methods were established for the culture of PGCs obtained from zebrafish embryos. Transgenic embryos that express the red fluorescent protein (RFP) under the control of the PGC-specific vasa promoter were used, making it possible to isolate pure populations of PGCs by fluorescence-activated cell sorting (FACS) and to optimize the culture conditions by counting the number of fluorescent PGC colonies produced in different media. Cultures initiated from 26-somite-stage embryos contained the highest percentage of PGCs that proliferated in vitro to generate colonies. The effect of growth factors, including Kit ligand a and b (Kitlga and Kitlgb) and stromal cell-derived factor 1a and 1b (Sdf-1a and Sdf-1b), on PGC proliferation was studied. Optimal in vitro growth and survival of the zebrafish PGCs was achieved when recombinant Kitlga and Sdf-1b were added to the culture medium through transfected feeder cells, resulting in a doubling of the number of PGC colonies. Results from RT-PCR and in situ hybridization analysis demonstrated that PGCs maintained in culture expressed the kita receptor, even though receptor expression was not detected in PGCs isolated by FACS directly from dissociated embryos. In optimal growth conditions, the PGCs continued to proliferate for at least 4 months in culture. The capacity to establish long-term PGC cultures from zebrafish will make it possible to conduct in vitro studies of germ cell differentiation and EG cell pluripotency in this model species and may be valuable for the development of a cell-mediated gene transfer approach.

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Jesung Moon

The Oxygen-Rich Postnatal Environment Induces Cardiomyocyte Cell-Cycle Arrest through DNA Damage Response

The Development of Highly Potent Inhibitors for Porcupine

Diverse Chemical Scaffolds Support Direct Inhibition of the Membrane-bound O-Acyltransferase Porcupine

A calcineurin–Hoxb13 axis regulates growth mode of mammalian cardiomyocytes

The Oxygen-Rich Postnatal Environment Induces Cardiomyocyte Cell-Cycle Arrest through DNA Damage Response

Blockade to pathological remodeling of infarcted heart tissue using a porcupine antagonist

Homologous Recombination in Zebrafish ES Cells

Zebrafish Primordial Germ Cell Cultures Derived fromvasa::RFPTransgenic Embryos

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