Yeo-Eun Cha scite author profile

COVID-19, a global pandemic, has caused over 750,000 deaths worldwide as of August 2020. A vaccine or remedy for SARS-CoV-2, the virus responsible for COVID-19, is necessary to slow down the spread and lethality of COVID-19. However, there is currently no effective treatment available against SARS-CoV-2. In this report, we demonstrated that EGCG and theaflavin, the main active ingredients of green tea and black tea, respectively, are potentially effective to inhibit SARS-CoV-2 activity. Coronaviruses require the 3CL-protease for the cleavage of its polyprotein to make individual proteins functional. EGCG and theaflavin showed inhibitory activity against the SARS-CoV-2 3CL-protease in a dose-dependent manner, and the half inhibitory concentration (IC50) was 7.58 μg/ml for EGCG and 8.44 μg/ml for theaflavin. In addition, we did not observe any cytotoxicity for either EGCG or theaflavin at the concentrations tested up to 40 μg/ml in HEK293T cells. These results suggest that upon further study, EGCG and theaflavin can be potentially useful to treat COVID-19.

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EGCG, a green tea polyphenol, inhibits human coronavirus replication in vitro

Jang

Park

et al. 2021

Biochemical and Biophysical Research Communications

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COVID-19 pandemic results in record high deaths in many countries. Although a vaccine for SARS-CoV-2 is now available, effective antiviral drugs to treat coronavirus diseases are not available yet. Recently, EGCG, a green tea polyphenol, was reported to inhibit SARS-CoV-2 3CL-protease, however the effect of EGCG on coronavirus replication is unknown. In this report, human coronavirus HCoV-OC43 (beta coronavirus) and HCoV-229E (alpha coronavirus) were used to examine the effect of EGCG on coronavirus. EGCG treatment decreases 3CL-protease activity of HCoV-OC43 and HCoV-229E. Moreover, EGCG treatment decreased HCoV-OC43-induced cytotoxicity. Finally, we found that EGCG treatment decreased the levels of coronavirus RNA and protein in infected cell media. These results indicate that EGCG inhibits coronavirus replication.

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Inhibition of Apoptosis in Early Tooth Development Alters Tooth Shape and Size

et al. 2006

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Apoptosis plays important roles in various stages of organogenesis. In this study, we hypothesized that apoptosis would play an important role in tooth morphogenesis. We examined the role of apoptosis in early tooth development by using a caspase inhibitor, z-VAD-fmk, concomitant with in vitro organ culture and tooth germ transplantation into the kidney capsule. Inhibition of apoptosis at the early cap stage did not disrupt the cell proliferation level when compared with controls. However, the macroscopic morphology of mice molar teeth exhibited dramatic alterations after the inhibition of apoptosis. Crown height was reduced, and mesiodistal diameter was increased in a concentration-dependent manner with z-VAD-fmk treatment. Overall, apoptosis in the enamel knot would be necessary for the proper formation of molar teeth, including appropriate shape and size.

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Lopinavir-ritonavir is not an effective inhibitor of the main protease activity of SARS-CoV-2in vitro

Jang

Park

et al. 2020

Preprint

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COVID-19 has caused over 900,000 deaths worldwide as of September 2020, and effective medicines are urgently needed. Lopinavir was identified as an inhibitor of the HIV protease, and a lopinavir-ritonavir combination therapy was reported to be beneficial for the treatment of SARS and MERS. However, recent clinical tests could not prove that lopinavir-ritonavir therapy was an effective treatment for COVID-19. In this report, we examined the effect of lopinavir and ritonavir to the activity of the purified main protease (Mpro) protein of SARS- CoV-2, the causative virus of COVID-19. Unexpectedly, lopinavir and ritonavir did not inhibit Mpro activity. These results will aid the drug candidate selection for ongoing and future COVID-19 clinical trials.

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6-Azauridine Induces Autophagy-Mediated Cell Death via a p53- and AMPK-Dependent Pathway

Cha

Park

Jang

et al. 2021

IJMS

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6-Azauridine (6-AZA), a pyrimidine nucleoside analogue, is known to exhibit both antitumor and antiviral activities. Although 6-AZA was discovered more than 60 years ago, the cellular effects of this compound are yet to be elucidated. Here, we report that 6-AZA regulates autophagy-mediated cell death in various human cancer cells, where 6-AZA treatment activates autophagic flux through the activation of lysosomal function. Furthermore, 6-AZA exhibited cytotoxicity in all cancer cells studied, although the mechanisms of action were diverse. In H460 cells, 6-AZA treatment induced apoptosis, and the extent of the latter could be reduced by treatment with chloroquine (CQ), a lysosomal inhibitor. However, 6-AZA treatment resulted in cell cycle arrest in H1299 cells, which could not be reversed by CQ. The cytotoxicity associated with 6-AZA treatment could be linearly correlated to the degree of autophagy-mediated cell death. In addition, we demonstrated that the cytotoxic effect of 6-AZA was dependent on AMPK and p53. These results collectively indicate that autophagy-mediated cell death triggered by 6-AZA contributes to its antitumor effect.

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Yeo-Eun Cha

Tea Polyphenols EGCG and Theaflavin Inhibit the Activity of SARS‐CoV‐2 3CL‐Protease In Vitro

EGCG, a green tea polyphenol, inhibits human coronavirus replication in vitro

Inhibition of Apoptosis in Early Tooth Development Alters Tooth Shape and Size

Lopinavir-ritonavir is not an effective inhibitor of the main protease activity of SARS-CoV-2in vitro

6-Azauridine Induces Autophagy-Mediated Cell Death via a p53- and AMPK-Dependent Pathway

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