TY - JOUR
T1 - Mft1, identified from a genome-wide screen of the yeast haploid mutants, mediates cell cycle arrest to counteract quinoxaline-induced toxicity
AU - Sulaiman, Abdallah Alhaj
AU - Al-Ansari, Dana E.
AU - Ali, Reem
AU - Aouida, Mustapha
AU - Ramotar, Dindial
N1 - Publisher Copyright:
Copyright © 2024 Sulaiman, Al-Ansari, Ali, Aouida and Ramotar.
PY - 2024/1/12
Y1 - 2024/1/12
N2 - Quinoxaline is a heterocyclic compound with a two-membered ring structure that undergoes redox cycling to produce toxic free radicals. It has antiviral, antibacterial, antifungal, and antitumor activities. However, the biological functions that are involved in mounting a response against the toxic effects of quinoxaline have not been investigated. Herein, we performed a genome-wide screen using the yeast haploid mutant collection and reported the identification of 12 mutants that displayed varying sensitivity towards quinoxaline. No mutant was recovered that showed resistance to quinoxaline. The quinoxaline-sensitive mutants were deleted for genes that encode cell cycle function, as well as genes that belong to other physiological pathways such as the vacuolar detoxification process. Three of the highly sensitive gene-deletion mutants lack the DDC1, DUN1, and MFT1 genes. While Ddc1 and Dun1 are known to perform roles in the cell cycle arrest pathway, the role of Mft1 remains unclear. We show that the mft1 Delta mutant is as sensitive to quinoxaline as the ddc1 Delta mutant. However, the double mutant ddc1 Delta mft1 Delta lacking the DDC1 and MFT1 genes, is extremely sensitive to quinoxaline, as compared to the ddc1 Delta and mft1 Delta single mutants. We further show that the mft1 Delta mutant is unable to arrest in the G2/M phase in response to the drug. We conclude that Mft1 performs a unique function independent of Ddc1 in the cell cycle arrest pathway in response to quinoxaline exposure. This is the first demonstration that quinoxaline exerts its toxic effect likely by inducing oxidative DNA damage causing cell cycle arrest. We suggest that clinical applications of quinoxaline and its derivatives should entail targeting cancer cells with defective cell cycle arrest.
AB - Quinoxaline is a heterocyclic compound with a two-membered ring structure that undergoes redox cycling to produce toxic free radicals. It has antiviral, antibacterial, antifungal, and antitumor activities. However, the biological functions that are involved in mounting a response against the toxic effects of quinoxaline have not been investigated. Herein, we performed a genome-wide screen using the yeast haploid mutant collection and reported the identification of 12 mutants that displayed varying sensitivity towards quinoxaline. No mutant was recovered that showed resistance to quinoxaline. The quinoxaline-sensitive mutants were deleted for genes that encode cell cycle function, as well as genes that belong to other physiological pathways such as the vacuolar detoxification process. Three of the highly sensitive gene-deletion mutants lack the DDC1, DUN1, and MFT1 genes. While Ddc1 and Dun1 are known to perform roles in the cell cycle arrest pathway, the role of Mft1 remains unclear. We show that the mft1 Delta mutant is as sensitive to quinoxaline as the ddc1 Delta mutant. However, the double mutant ddc1 Delta mft1 Delta lacking the DDC1 and MFT1 genes, is extremely sensitive to quinoxaline, as compared to the ddc1 Delta and mft1 Delta single mutants. We further show that the mft1 Delta mutant is unable to arrest in the G2/M phase in response to the drug. We conclude that Mft1 performs a unique function independent of Ddc1 in the cell cycle arrest pathway in response to quinoxaline exposure. This is the first demonstration that quinoxaline exerts its toxic effect likely by inducing oxidative DNA damage causing cell cycle arrest. We suggest that clinical applications of quinoxaline and its derivatives should entail targeting cancer cells with defective cell cycle arrest.
KW - Saccharomyces cerevisiae
KW - And antitumor activities
KW - Antibacterial
KW - Antifungal
KW - Cell cycle arrest
KW - Drug resistance
KW - Genome-wide screening
KW - Quinoxaline sensitive mutants
UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=hbku_researchportal&SrcAuth=WosAPI&KeyUT=WOS:001150605500001&DestLinkType=FullRecord&DestApp=WOS_CPL
U2 - 10.3389/fgene.2023.1296383
DO - 10.3389/fgene.2023.1296383
M3 - Article
C2 - 38283148
SN - 1664-8021
VL - 14
JO - Frontiers in Genetics
JF - Frontiers in Genetics
M1 - 1296383
ER -