Seung Wook Hong scite author profile

Derivation of patient-specific human pluripotent stem cells via somatic cell nuclear transfer (SCNT) has the potential for applications in a range of therapeutic contexts. However, successful SCNT with human cells has proved challenging to achieve, and thus far has only been reported with fetal or infant somatic cells. In this study, we describe the application of a recently developed methodology for the generation of human ESCs via SCNT using dermal fibroblasts from 35- and 75-year-old males. Our study therefore demonstrates the applicability of SCNT for adult human cells and supports further investigation of SCNT as a strategy for regenerative medicine.

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Live births after vitrification of oocytes in a stimulated in vitro fertilization–embryo transfer program

Yoon

Kim

Park

et al. 2003

Fertility and Sterility

226

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Chemosensitivity is controlled by p63 modification with ubiquitin-like protein ISG15

Jeon

Jo²,

Yoo³

et al. 2012

J. Clin. Invest.

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Identification of the cellular mechanisms that mediate cancer cell chemosensitivity is important for developing new cancer treatment strategies. Several chemotherapeutic drugs increase levels of the posttranslational modifier ISG15, which suggests that ISGylation could suppress oncogenesis. However, how ISGylation of specific target proteins controls tumorigenesis is unknown. Here, we identified proteins that are ISGylated in response to chemotherapy. Treatment of a human mammary epithelial cell line with doxorubicin resulted in ISGylation of the p53 family protein p63. An alternative splice variant of p63, ΔNp63α, suppressed the transactivity of other p53 family members, and its expression was abnormally elevated in various human epithelial tumors, suggestive of an oncogenic role for this variant. We showed that ISGylation played an essential role in the downregulation of ΔNp63α. Anticancer drugs, including doxorubicin, induced ΔNp63α ISGylation and caspase-2 activation, leading to cleavage of ISGylated ΔNp63α in the nucleus and subsequent release of its inhibitory domain to the cytoplasm. ISGylation ablated the ability of ΔNp63α to promote anchorageindependent cell growth and tumor formation in vivo as well to suppress the transactivities of proapoptotic p53 family members. These findings establish ISG15 as a tumor suppressor via its conjugation to ΔNp63α and provide a molecular rationale for therapeutic use of doxorubicin against ΔNp63α-mediated cancers.

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In vitro blastocyst formation of human oocytes obtained from unstimulated and stimulated cycles after vitrification at various maturational stages

Chung

Hong

Lim

et al. 2000

Fertility and Sterility

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Interstitial Lung Change in Pre-radiation Therapy Computed Tomography Is a Risk Factor for Severe Radiation Pneumonitis

et al. 2015

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PurposeWe examined clinical and dosimetric factors as predictors of symptomatic radiation pneumonitis (RP) in lung cancer patients and evaluated the relationship between interstitial lung changes in the pre-radiotherapy (RT) computed tomography (CT) and symptomatic RP.Materials and MethodsMedical records and dose volume histogram data of 60 lung cancer patients from August 2005 to July 2006 were analyzed. All patients were treated with three dimensional (3D) conformal RT of median 56.9 Gy. We assessed the association of symptomatic RP with clinical and dosimetric factors.ResultsWith a median follow-up of 15.5 months (range, 6.1 to 40.9 months), Radiation Therapy Oncology Group grade ≥ 2 RP was observed in 14 patients (23.3%). Five patients (8.3%) died from RP. The interstitial changes in the pre-RT chest CT, mean lung dose (MLD), and V30 significantly predicted RP in multivariable analysis (p=0.009, p < 0.001, and p < 0.001, respectively). MLD, V20, V30, and normal tissue complication probability normal tissue complication probability (NTCP) were associated with the RP grade but less so for grade 5 RP. The risk of RP grade ≥ 2, ≥ 3, or ≥ 4 was higher in the patients with interstitial lung change (grade 2, 15.6% to 46.7%, p=0.03; grade 3, 4.4% to 40%, p=0.002; grade 4, 4.4% to 33.3%, p=0.008). Four of the grade 5 RP patients had diffuse interstitial change in pre-RT CT and received chemoradiotherapy.ConclusionOur study identified diffuse interstitial disease as a significant clinical risk for RP, particularly fatal RP. We showed the usefulness of MLD, V20, V30, and NTCP in predicting the incidence and severity of RP.

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Improved human oocyte development after vitrification: a comparison of thawing methods

Hong

Chung

Lim

et al. 1999

Fertility and Sterility

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CIDE domains form functionally important higher-order assemblies for DNA fragmentation

Choi

Qiao

Hong

et al. 2017

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

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Cell death-inducing DFF45-like effector (CIDE) domains, initially identified in apoptotic nucleases, form a family with diverse functions ranging from cell death to lipid homeostasis. Here we show that the CIDE domains of Drosophila and human apoptotic nucleases Drep2, Drep4, and DFF40 all form head-to-tail helical filaments. Opposing positively and negatively charged interfaces mediate the helical structures, and mutations on these surfaces abolish nuclease activation for apoptotic DNA fragmentation. Conserved filamentous structures are observed in CIDE family members involved in lipid homeostasis, and mutations on the charged interfaces compromise lipid droplet fusion, suggesting that CIDE domains represent a scaffold for higher-order assembly in DNA fragmentation and other biological processes such as lipid homeostasis.CIDE family | higher-order structure | DNA fragmentation | apoptosis | lipid homeostasis A hallmark of apoptosis is the fragmentation of cellular genomic DNA into a laddered pattern composed of multiples of 180-to 200-bp pieces, which correspond to the DNA length in a nucleosome. Two decades ago, the enzyme responsible for regulated DNA fragmentation was identified from human HeLa cells as a heterodimeric complex of the nuclease DNA fragmentation factor (DFF) of 40 kDa (DFF40), and the inhibitor of 45 kDa (DFF45) (1). Independently, a heterodimeric complex of caspase-activated DNase (CAD) and its inhibitor (ICAD) was identified from mouse lymphoma cells (2, 3). DFF45 and ICAD chaperone the folding of DFF40 and CAD, respectively, and also trap them in inactive states through complex formation. On induction of apoptosis, DFF45 and ICAD are cleaved by activated caspases to release DFF40 and CAD for nuclear translocation and digestion of genomic DNA through large-scale chromatin fragmentation and internucleosomal DNA cleavage (1, 4).DNA fragmentation is the basis for the classical apoptotic TUNEL assay that detects DNA double-strand breaks (5). Because apoptotic cells display "eat-me" signals and are phagocytosed, DNA fragmentation has been proposed as a mechanism for avoiding the transformation of recipient cells by the activated oncogenes or viral genes and reduce the autoimmune response from the strong autoantigenic DNA (6). Clinically, sperm DNA fragmentation is used as a correlative to male infertility (7), and circulating fragmented cellfree DNA is detected as a disease biomarker (8).Human DFF40 and DFF45 and mouse CAD and ICAD contain a conserved N-terminal region known as the cell death-inducing DFF45-like effector (CIDE) domain (9) (Fig. S1A). In Drosophila, four DFF-related proteins (Drep1-4) are critical for apoptotic DNA fragmentation (10-12) (Fig. S1A), and Drep2 also acts as a unique synaptic protein important in learning and behavioral adaptation (13). Biochemical characterization of CIDE-CIDE interactions from Drep1 to Drep4 has revealed that the Drep2 and Drep4 nucleases interact with and are inhibited by . In addition to DNA fragmentation, the CIDE domain-containing proteins CIDEA...

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iRhom1 regulates proteasome activity via PAC1/2 under ER stress

Lee

Kim

Park

et al. 2015

Sci Rep

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Proteasome is a protein degradation complex that plays a major role in maintaining cellular homeostasis. Despite extensive efforts to identify protein substrates that are degraded through ubiquitination, the regulation of proteasome activity itself under diverse signals is poorly understood. In this study, we have isolated iRhom1 as a stimulator of proteasome activity from genome-wide functional screening using cDNA expression and an unstable GFP-degron. Downregulation of iRhom1 reduced enzymatic activity of proteasome complexes and overexpression of iRhom1 enhanced it. Native-gel and fractionation analyses revealed that knockdown of iRhom1 expression impaired the assembly of the proteasome complexes. The expression of iRhom1 was increased by endoplasmic reticulum (ER) stressors, such as thapsigargin and tunicamycin, leading to the enhancement of proteasome activity, especially in ER-containing microsomes. iRhom1 interacted with the 20S proteasome assembly chaperones PAC1 and PAC2, affecting their protein stability. Moreover, knockdown of iRhom1 expression impaired the dimerization of PAC1 and PAC2 under ER stress. In addition, iRhom1 deficiency in D. melanogaster accelerated the rough-eye phenotype of mutant Huntingtin, while transgenic flies expressing either human iRhom1 or Drosophila iRhom showed rescue of the rough-eye phenotype. Together, these results identify a novel regulator of proteasome activity, iRhom1, which functions via PAC1/2 under ER stress.

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Seung Wook Hong

Human Somatic Cell Nuclear Transfer Using Adult Cells

Live births after vitrification of oocytes in a stimulated in vitro fertilization–embryo transfer program

Chemosensitivity is controlled by p63 modification with ubiquitin-like protein ISG15

In vitro blastocyst formation of human oocytes obtained from unstimulated and stimulated cycles after vitrification at various maturational stages

Interstitial Lung Change in Pre-radiation Therapy Computed Tomography Is a Risk Factor for Severe Radiation Pneumonitis

Improved human oocyte development after vitrification: a comparison of thawing methods

CIDE domains form functionally important higher-order assemblies for DNA fragmentation

iRhom1 regulates proteasome activity via PAC1/2 under ER stress

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