Hara, E.
Finding the point of no return for cellular senescence.
Nature Cell Biol. doi.org/10.1038/s41556-023-01306-6 (2024)
Finding the point of no return for cellular senescence.
Nature Cell Biol. doi.org/10.1038/s41556-023-01306-6 (2024)
Ogrodnik, M., Acosta, J.C., Adams, P.D., d'Adda di Fagagna, F., Baker, D.J., Bishop, C.L., Chandra, T., Collado, M., Gil, J., Gorgoulis, V., Gruber, F., Hara, E., Jansen-Durr, P., Jurk, D., Khosla, S., Kirkland. J.K., Krizhanovsky, V., Minamino, T., Niedernhofer, L.J., Passos, J.F., Ring, N.A.R., Redl, H., Robbins, P.D., Rodier, F., Scharffetter-Kochanek, K., Sedivy, J.M., Sikora, E., Witwer, K., von Zglinicki, T., Yun, M.H., Grillari, J. & Demaria, M.
Finding the point of no return for cellular senescence.
Cell 187: 4150-4175 (2024)
Finding the point of no return for cellular senescence.
Cell 187: 4150-4175 (2024)
Kawamoto, S. & Hara, E.
Crosstalk between gut microbiota and cellular senescence: a vicious cycle leading to aging gut.
Trends Cell Biol. doi.org/10.1016/j.tcb.2023.12.004 (2024)
Crosstalk between gut microbiota and cellular senescence: a vicious cycle leading to aging gut.
Trends Cell Biol. doi.org/10.1016/j.tcb.2023.12.004 (2024)
Kondoh, H. & Hara, E.
Targeting p21 for diabetes: Another choice of senotherapy
Cell Metab.., 34: 5-7 (2022)
Targeting p21 for diabetes: Another choice of senotherapy
Cell Metab.., 34: 5-7 (2022)
Ohtani, N. & Hara, E.
Gut-liver axis-mediated mechanism of liver cancer: A special focus on the role of gut microbiota.
Cancer Sci.., DOI: 10.1111/cas.15142 (2021)
Gut-liver axis-mediated mechanism of liver cancer: A special focus on the role of gut microbiota.
Cancer Sci.., DOI: 10.1111/cas.15142 (2021)
Gorgoulis, V., Adams, P.D., Alimonti, A., Bennett, D.C., Bischof,O., Bishop,C., Campisi,J., Collado, M., Evangelou,K., Ferbeyre, G., Gil, J., Hara, E., Krizhanovsky, V., Jurk,D., Maier, A.B., Narita,N., Niedernhofer, L., Passos, J.F., Robbins, P.D., Schmitt, C.A, Sedivy, J., Vougas, K., von Zglinicki, T., Zhou, D., Serrano, M. & Demaria, M.
Cellular Senescence: Defining a Path Forward.
Cell 179: 813-827 (2019)
Cellular Senescence: Defining a Path Forward.
Cell 179: 813-827 (2019)
Watanabe S., Kawamoto S., Ohtani, N. & Hara, E.
The impact of SASP and its potential as a therapeutic target for senescence-associated diseases.
Cancer Sci. doi: 108:563-569 (2017)
The impact of SASP and its potential as a therapeutic target for senescence-associated diseases.
Cancer Sci. doi: 108:563-569 (2017)
Yoshimoto S., Loo T.-M. & Hara E.
Cellular senescence and liver cancer: a gut microbial connection.
Inflam. & Regene., 35; 106-113 (2015)
Cellular senescence and liver cancer: a gut microbial connection.
Inflam. & Regene., 35; 106-113 (2015)
Hara E.
Relationship between obesity, gut microbiota and hepatocellular carcinoma development.
Dig. Dis., 33: 346-350 (2015)
Relationship between obesity, gut microbiota and hepatocellular carcinoma development.
Dig. Dis., 33: 346-350 (2015)
Ohtani, N., Yoshimoto, S. & Hara E.
Obesity and cancer: a gut microbial connection.
Cancer Res., 74: 1885-1889 (2014)
Obesity and cancer: a gut microbial connection.
Cancer Res., 74: 1885-1889 (2014)
Ohtani, N. & Hara E.
Roles and mechanisms of cellular senescence in regulation of tissue homeostasis.
Cancer Sci., 104; 525-530, (2013)
Roles and mechanisms of cellular senescence in regulation of tissue homeostasis.
Cancer Sci., 104; 525-530, (2013)
Ohtani, N., Takahashi, A. Mann, D.J. & Hara E.
Cellular senescence: a double-edged sword in the fight against cancer.
Exp. Dermatol., 21; S1-S4, (2012)
Cellular senescence: a double-edged sword in the fight against cancer.
Exp. Dermatol., 21; S1-S4, (2012)
Yamakoshi, K. & Hara E.
Visualizing the dynamics of senescence stress response in living animals.
Inflam. & Regene., 32; 32-38, (2012)
Visualizing the dynamics of senescence stress response in living animals.
Inflam. & Regene., 32; 32-38, (2012)
Ohtani, N., Yamakoshi, K., Takahashi, A. & Hara E.
Real-time in vivo imaging of p16 gene expression: a new approach to study senescence stress signaling in living animals.
Cell Div., 14; 5:1, (2010)
(Qualified as a highly accessed article)
Real-time in vivo imaging of p16 gene expression: a new approach to study senescence stress signaling in living animals.
Cell Div., 14; 5:1, (2010)
(Qualified as a highly accessed article)
Ohtani, N., Mann, D.J. & Hara E.
Cellular senescence: its role in tumor suppression and aging.
Cancer Sci., 100: 792-797 (2009)
(Selected for Cover page)
Cellular senescence: its role in tumor suppression and aging.
Cancer Sci., 100: 792-797 (2009)
(Selected for Cover page)
Takahashi, A., Ohtani, N. & Hara E.
Irreversibility of cellular senescence: dual roles of p16INK4a/Rb-pathway in cell cycle control.
Cell Div., 7; 2:10, (2007)
(Qualified as a highly accessed article)
Irreversibility of cellular senescence: dual roles of p16INK4a/Rb-pathway in cell cycle control.
Cell Div., 7; 2:10, (2007)
(Qualified as a highly accessed article)
Ohtani, N., Yamakoshi, K., Takahashi, A. & Hara, E.
The p16INK4a-RB pathway: molecular link between cellular senescence and tumor suppression.
J. Med. Invest., 51: 146-153 (2004).
The p16INK4a-RB pathway: molecular link between cellular senescence and tumor suppression.
J. Med. Invest., 51: 146-153 (2004).
Zebedee, Z. & Hara, E.
Id in cell cycle control and cellular senescence.
Oncogene, 20: 8317-8325 (2001).
Id in cell cycle control and cellular senescence.
Oncogene, 20: 8317-8325 (2001).
Campisi, J. Dimri, G. & Hara, E.
Control of replicative senescence.
Handbook of The Biology of Aging, IV eds. pp121-149. Academic Press (1996).
Control of replicative senescence.
Handbook of The Biology of Aging, IV eds. pp121-149. Academic Press (1996).
