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Conference Paper: Abstract 6199: Proteasome inhibitors induce DNA damage and mitotic catastrophe in acute lymphoblastic leukemia via autophagy-mediated degradation of WEE1

TitleAbstract 6199: Proteasome inhibitors induce DNA damage and mitotic catastrophe in acute lymphoblastic leukemia via autophagy-mediated degradation of WEE1
Authors
Issue Date4-Apr-2023
Abstract

Acute lymphoblastic leukemia (ALL) is an aggressive hematolymphoid malignancy and the prognosis is poor in adults with long-term survival of only 30% due to the high prevalence of high-risk subtypes. Therefore, there is an urgent need to develop novel treatment for ALL. Carfilzomib is a second-generation proteasome inhibitor which is more potent than its first-generation counterpart, bortezomib, with an excellent activity against bortezomib-resistant plasma cell myeloma. However, pre-clinical and clinical studies of carfilzomib in ALL are limited. Targeting DNA damage and mitotic defects of cancer cell is a major treatment strategy of cancer. WEE1 kinase prevents mitosis of cells with unrepaired DNA through inhibiting cyclin B. Pharmacological inhibition of WEE1 was effective in treating T-ALL with induction of DNA damage. Thus, targeting WEE1 kinase is an attractive approach of novel therapy in ALL. However, there are no studies to evaluate the mechanism of action of carfilzomib in ALL, especially in the aspect of DNA damage and mitotic catastrophe. Moreover, the role of WEE1 modulation by carfilzomib and its underlying mechanism has not been studied in ALL. In view of these unmet clinical needs and research gap, we conducted the study with the aims: 1). To show that carfilzomib induces DNA damage and mitotic catastrophe; 2). To show that carfilzomib induces WEE1 downregulation and delineate underlying mechanisms. ALL cell lines representing a spectrum of high-risk ALL including TOM-1, SEM, LOUCY, CCRF-CEM, KE-37 and PEER were treated with various doses of carfilzomib. Cell viability was reduced, and percentage of apoptotic cells was increased in a time and dose-dependent manner, measured by trypan blue assay and flow cytometry analysis by annexin V/PI staining respectively, upon treating with carfilzomib for 24 & 72 hours. Comet assay showed evidence of DNA damage after treating with carfilzomib for 24 hours. Fluorescence microscopy also demonstrated evidence of mitotic catastrophe upon treating with carfilzomib. Western blot analysis showed downregulation of WEE1 upon treatment of carfilzomib for 24 hours, with evidence of autophagy induction as shown by western blot analysis of LC3-1 and LC3-II. Quantitative PCR showed the upregulation of ER-stress related gene, CHOP while the mRNA level of WEE1 remained unchanged. Co-treatment of carfilzomib with autophagy inhibitor, bafilomycin A1, reversed the process of WEE1 downregulation. Herein, we proved that carfilzomib induced DNA damage and mitotic catastrophe with WEE1 downregulation. Moreover, carfilzomib trigger autophagy-mediated degradation of WEE1 in ALL via induction of ER-stress. The findings provide mechanistic insights of carfilzomib in ALL and rationalize the introduction of novel approach of combination treatment of carfilzomib with other DNA damaging agents.


Persistent Identifierhttp://hdl.handle.net/10722/333858

 

DC FieldValueLanguage
dc.contributor.authorSin, Chun-fung-
dc.contributor.authorDin, Rahman Ud-
dc.contributor.authorJiao, Anan-
dc.contributor.authorYuen, Kei-ching-
dc.date.accessioned2023-10-06T08:39:40Z-
dc.date.available2023-10-06T08:39:40Z-
dc.date.issued2023-04-04-
dc.identifier.urihttp://hdl.handle.net/10722/333858-
dc.description.abstract<p>Acute lymphoblastic leukemia (ALL) is an aggressive hematolymphoid malignancy and the prognosis is poor in adults with long-term survival of only 30% due to the high prevalence of high-risk subtypes. Therefore, there is an urgent need to develop novel treatment for ALL. Carfilzomib is a second-generation proteasome inhibitor which is more potent than its first-generation counterpart, bortezomib, with an excellent activity against bortezomib-resistant plasma cell myeloma. However, pre-clinical and clinical studies of carfilzomib in ALL are limited. Targeting DNA damage and mitotic defects of cancer cell is a major treatment strategy of cancer. WEE1 kinase prevents mitosis of cells with unrepaired DNA through inhibiting cyclin B. Pharmacological inhibition of WEE1 was effective in treating T-ALL with induction of DNA damage. Thus, targeting WEE1 kinase is an attractive approach of novel therapy in ALL. However, there are no studies to evaluate the mechanism of action of carfilzomib in ALL, especially in the aspect of DNA damage and mitotic catastrophe. Moreover, the role of WEE1 modulation by carfilzomib and its underlying mechanism has not been studied in ALL. In view of these unmet clinical needs and research gap, we conducted the study with the aims: 1). To show that carfilzomib induces DNA damage and mitotic catastrophe; 2). To show that carfilzomib induces WEE1 downregulation and delineate underlying mechanisms. ALL cell lines representing a spectrum of high-risk ALL including TOM-1, SEM, LOUCY, CCRF-CEM, KE-37 and PEER were treated with various doses of carfilzomib. Cell viability was reduced, and percentage of apoptotic cells was increased in a time and dose-dependent manner, measured by trypan blue assay and flow cytometry analysis by annexin V/PI staining respectively, upon treating with carfilzomib for 24 & 72 hours. Comet assay showed evidence of DNA damage after treating with carfilzomib for 24 hours. Fluorescence microscopy also demonstrated evidence of mitotic catastrophe upon treating with carfilzomib. Western blot analysis showed downregulation of WEE1 upon treatment of carfilzomib for 24 hours, with evidence of autophagy induction as shown by western blot analysis of LC3-1 and LC3-II. Quantitative PCR showed the upregulation of ER-stress related gene, CHOP while the mRNA level of WEE1 remained unchanged. Co-treatment of carfilzomib with autophagy inhibitor, bafilomycin A1, reversed the process of WEE1 downregulation. Herein, we proved that carfilzomib induced DNA damage and mitotic catastrophe with WEE1 downregulation. Moreover, carfilzomib trigger autophagy-mediated degradation of WEE1 in ALL via induction of ER-stress. The findings provide mechanistic insights of carfilzomib in ALL and rationalize the introduction of novel approach of combination treatment of carfilzomib with other DNA damaging agents.<br></p>-
dc.languageeng-
dc.relation.ispartofAACR Annual Meeting 2023 (14/04/2023-19/04/2023, Orlando)-
dc.titleAbstract 6199: Proteasome inhibitors induce DNA damage and mitotic catastrophe in acute lymphoblastic leukemia via autophagy-mediated degradation of WEE1-
dc.typeConference_Paper-
dc.identifier.doi10.1158/1538-7445.AM2023-6199-
dc.identifier.volume83-

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