Elucidation of the resistance mechanisms in a human gastric carcinoma cell line with acquired resistance to mitoxantrone

Hutchinson, Lesley

January 1999

No description available.

615.1

Cancer; Chemoresistance

One-carbon metabolism in lung cancer

Yao, Sha

11 November 2020

No description available.

610

p97 Negatively Regulates NRF2 by Extracting Ubiquitylated NRF2 from the KEAP1-CUL3 E3 Complex

Tao, Shasha, Liu, Pengfei, Luo, Gang, Rojo de la Vega, Montserrat, Chen, Heping, Wu, Tongde, Tillotson, Joseph, Chapman, Eli, Zhang, Donna D.

15 April 2017

Activation of the stress-responsive transcription factor NRF2 is the major line of defense to combat oxidative or electrophilic insults. Under basal conditions, NRF2 is continuously ubiquitylated by the KEAP1-CUL3-RBX1 E3 ubiquitin ligase complex and is targeted to the proteasome for degradation ( the canonical mechanism). However, the path from the CUL3 complex to ultimate proteasomal degradation was previously unknown. p97 is a ubiquitin-targeted ATP-dependent segregase that extracts ubiquitylated client proteins from membranes, protein complexes, or chromatin and has an essential role in autophagy and the ubiquitin proteasome system ( UPS). In this study, we show that p97 negatively regulates NRF2 through the canonical pathway by extracting ubiquitylated NRF2 from the KEAP1-CUL3 E3 complex, with the aid of the heterodimeric cofactor UFD1/NPL4 and the UBA-UBX containing protein UBXN7, for efficient proteasomal degradation. Given the role of NRF2 in chemoresistance and the surging interest in p97 inhibitors to treat cancers, our results indicate that dual p97/NRF2 inhibitors may offer a more potent and long-term avenue of p97-targeted treatment.

KEAP1

NRF2

autophagy

cancer chemoresistance

oxidative stress

p97

proteasome

protein quality control

ubiquitylation

Studium vlivu DNA reparačních drah na odpověď na chemoterapeutickou léčbu u karcinomu vaječníků / The role of DNA repair pathways in ovarian cancer therapy response

Vallušová, Dominika

January 2021

Ovarian cancer is serious and one of the most common gynecologic cancers. Carboplatin is the therapeutic agent of the first choice in the ovarian cancer therapy. However, after the primary therapeutic response to carboplatin, the relapse of the disease may occur with developed resistance to carboplatin. Chemoresistance and insufficient therapy response are considered to be the reason of the high mortality rate of ovarian cancer. The DNA damage response pathways play an important role in the therapeutic response and chemoresistance development. Restoration of homologous recombination function in cancers is the key mechanism of resistance development to platinum agents. Based on this knowledge, we formed our hypothesis, that the inhibition of homologous recombination could increase the sensibility to carboplatin. The main goal of this thesis was to define the role of double-strand breaks repair in response to chemotherapy of ovarian cancer. Protein MRE11 is part of the MRN complex, that participates in double-strand breaks repair. Using mirin as a pharmaceutic inhibitor of MRE11 we were aiming to determine the impact of homologous recombination on the effect of carboplatin and its role in resistant development to carboplatin. In the practical part of the thesis, we described the association between...

Proteolysis of a histone acetyl reader, ATAD2, induces chemoresistance of cancer cells under severe hypoxia by inhibiting cell cycle progression in S phase / ヒストンアセチル化リーダータンパク質ATAD2の分解を介した低酸素がん細胞の化学療法抵抗性獲得機構

Haitani, Takao

23 May 2023

京都大学 / 新制・課程博士 / 博士(医学) / 甲第24801号 / 医博第4993号 / 新制||医||1067(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 鈴木 実, 教授 溝脇 尚志, 教授 江木 盛時 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

tumor hypoxia

ATAD2

Proteolysis of a histone acetyl reader

ATAD2

cancer chemoresistance

cell cycle retardation

490