You-Jin Kim scite author profile

BACKGROUND AND PURPOSE Salinomycin (Sal) has recently been shown to inhibit various cancer stem cells. Here, we investigated whether Sal could sensitize cancer cells to the effects of doxorubicin (DOX) or etoposide (ETO). EXPERIMENTAL APPROACH Using the Comet assay, immunocytochemistry and Western blot analysis, we assessed the ability of Sal to increase DNA breakage. We performed a cell proliferation assay to determine cell viability, cellular detachment, increased pre‐G1 region, Annexin V staining and TUNEL assay to measure the ability of Sal to increase apoptosis. KEY RESULTS Sal increased DNA breakage and phosphorylated levels of p53 and H2AX. Sal also induced the formation of DNA foci with pH2AX and 53BP1. Furthermore, Sal increased the sensitivity of cancer cells to the apoptotic effects of DOX or ETO. We found that pH2AX, pBRCA1, p53BP1 and pChk1 levels were greatly increased after co‐treatment of Sal with DOX or ETO. The level of anti‐apoptotic p21 protein was increased by DOX or ETO but decreased by Sal, which increased proteasome activity. CONCLUSIONS AND IMPLICATIONS This is the first study to report that Sal increases DNA damage, and this effect plays an important role in the increased apoptosis caused by Sal. Overall, we demonstrated that the ability of Sal to sensitize cancer cells to the effects of DOX or ETO is associated with an increase in DNA damage and a decrease in anti‐apoptotic protein p21 levels. These results may contribute to the development of Sal‐based chemotherapy for cancer patients receiving DOX or ETO treatment.

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DNA looping-mediated repression by histone-like protein H-NS: specific requirement of Eσ⁷⁰ as a cofactor for looping

Shin¹,

Song²,

Rhee³

et al. 2005

Genes Dev.

149

102

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The clinical and virological features of the first imported case causing MERS-CoV outbreak in South Korea, 2015

et al. 2017

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BackgroundIn 2015, the largest outbreak of Middle East respiratory syndrome coronavirus (MERS-CoV) infection outside the Middle East occurred in South Korea. We summarized the epidemiological, clinical, and laboratory findings of the first Korean case of MERS-CoV and analyzed whole-genome sequences of MERS-CoV derived from the patient.Case presentationA 68-year-old man developed fever and myalgia 7 days after returning to Korea, following a 10-day trip to the Middle East. Before diagnosis, he visited 4 hospitals, potentially resulting in secondary transmission to 28 patients. On admission to the National Medical Center (day 9, post-onset of clinical illness), he presented with drowsiness, hypoxia, and multiple patchy infiltrations on the chest radiograph. He was intubated (day 12) because of progressive acute respiratory distress syndrome (ARDS) and INF-α2a and ribavirin treatment was commenced. The treatment course was prolonged by superimposed ventilator associated pneumonia. MERS-CoV PCR results converted to negative from day 47 and the patient was discharged (day 137), following rehabilitation therapy. The complete genome sequence obtained from a sputum sample (taken on day 11) showed the highest sequence similarity (99.59%) with the virus from an outbreak in Riyadh, Saudi Arabia, in February 2015.ConclusionsThe first case of MERS-CoV infection had high transmissibility and was associated with a severe clinical course. The patient made a successful recovery after early treatment with antiviral agents and adequate supportive care. This first case in South Korea became a super-spreader because of improper infection control measures, rather than variations of the virus.

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Rapid replacement of human respiratory syncytial virus A with the ON1 genotype having 72 nucleotide duplication in G gene

Kim

Lee

et al. 2014

Infection, Genetics and Evolution

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Human respiratory syncytial virus (HRSV) is the main cause of severe respiratory illness in young children and elderly people. We investigated the genetic characteristics of the circulating HRSV subgroup A (HRSV-A) to determine the distribution of genotype ON1, which has a 72-nucleotide duplication in attachment G gene. We obtained 456 HRSV-A positive samples between October 2008 and February 2013, which were subjected to sequence analysis. The first ON1 genotype was discovered in August 2011 and 273 samples were identified as ON1 up to February 2013. The prevalence of the ON1 genotype increased rapidly from 17.4% in 2011-2012 to 94.6% in 2012-2013. The mean evolutionary rate of G protein was calculated as 3.275 × 10(-3) nucleotide substitution/site/year and several positively selected sites for amino acid substitutions were located in the predicted epitope region. This basic and important information may facilitate a better understanding of HRSV epidemiology and evolution.

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You-Jin Kim

Salinomycin sensitizes cancer cells to the effects of doxorubicin and etoposide treatment by increasing DNA damage and reducing p21 protein

DNA looping-mediated repression by histone-like protein H-NS: specific requirement of Eσ⁷⁰ as a cofactor for looping

The clinical and virological features of the first imported case causing MERS-CoV outbreak in South Korea, 2015

Rapid replacement of human respiratory syncytial virus A with the ON1 genotype having 72 nucleotide duplication in G gene

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You-Jin Kim

Salinomycin sensitizes cancer cells to the effects of doxorubicin and etoposide treatment by increasing DNA damage and reducing p21 protein

DNA looping-mediated repression by histone-like protein H-NS: specific requirement of Eσ70 as a cofactor for looping

The clinical and virological features of the first imported case causing MERS-CoV outbreak in South Korea, 2015

Rapid replacement of human respiratory syncytial virus A with the ON1 genotype having 72 nucleotide duplication in G gene

Contact Info

Product

Resources

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DNA looping-mediated repression by histone-like protein H-NS: specific requirement of Eσ⁷⁰ as a cofactor for looping