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[Preprint]. 2023 Oct 23:2023.10.20.563287.
doi: 10.1101/2023.10.20.563287.

DrugMap: A quantitative pan-cancer analysis of cysteine ligandability

Mariko TakahashiHarrison B ChongSiwen ZhangMatthew J LazarovStefan HarryMichelle MaynardRyan WhiteHeather E MurreyBrendan HilbertJason R NeilMagdy GoharMaolin GeJunbing ZhangBenedikt R DurrGregory KryukovChih-Chiang TsouNatasja BrooijmansAliyu Sidi Omar AlghaliKarla RubioAntonio VilanuevaDrew HarrisonAnn-Sophie KoglinSamuel OjedaBarbara KarakyriakouAlexander HealyJonathan AssaadFarah MakramInbal RachmanNeha KhandelwalPei-Chieh TienGeorge PopoolaNicholas ChenKira VordermarkMarianne RichterHimani PatelTzu-Yi YangHanna GriesshaberTobias HospSanne van den OuwelandToshiro HaraLily BussemaRui DongLei ShiMartin Q RasmussenAna Carolina DominguesAleigha LawlessJacy FangSatoshi YodaLinh Phuong NguyenSarah Marie ReevesFarrah Nicole WakefieldAdam AckerSarah Elizabeth ClarkTaronish DubashDavid E FisherShyamala MaheswaranDaniel A HaberGenevieve BolandMoshe Sade-FeldmanRussel JenkinsAaron HataNabeel BardeesyMario L SuvaBrent MartinBrian LiauChristopher OttMiguel N RiveraMichael S LawrenceLiron Bar-Peled

DrugMap: A quantitative pan-cancer analysis of cysteine ligandability

Mariko Takahashi et al. bioRxiv. .

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  • DrugMap: A quantitative pan-cancer analysis of cysteine ligandability.
    Takahashi M, Chong HB, Zhang S, Yang TY, Lazarov MJ, Harry S, Maynard M, Hilbert B, White RD, Murrey HE, Tsou CC, Vordermark K, Assaad J, Gohar M, Dürr BR, Richter M, Patel H, Kryukov G, Brooijmans N, Alghali ASO, Rubio K, Villanueva A, Zhang J, Ge M, Makram F, Griesshaber H, Harrison D, Koglin AS, Ojeda S, Karakyriakou B, Healy A, Popoola G, Rachmin I, Khandelwal N, Neil JR, Tien PC, Chen N, Hosp T, van den Ouweland S, Hara T, Bussema L, Dong R, Shi L, Rasmussen MQ, Domingues AC, Lawless A, Fang J, Yoda S, Nguyen LP, Reeves SM, Wakefield FN, Acker A, Clark SE, Dubash T, Kastanos J, Oh E, Fisher DE, Maheswaran S, Haber DA, Boland GM, Sade-Feldman M, Jenkins RW, Hata AN, Bardeesy NM, Suvà ML, Martin BR, Liau BB, Ott CJ, Rivera MN, Lawrence MS, Bar-Peled L. Takahashi M, et al. Cell. 2024 May 9;187(10):2536-2556.e30. doi: 10.1016/j.cell.2024.03.027. Epub 2024 Apr 22. Cell. 2024. PMID: 38653237 Free PMC article.

Abstract

Cysteine-focused chemical proteomic platforms have accelerated the clinical development of covalent inhibitors of a wide-range of targets in cancer. However, how different oncogenic contexts influence cysteine targeting remains unknown. To address this question, we have developed DrugMap , an atlas of cysteine ligandability compiled across 416 cancer cell lines. We unexpectedly find that cysteine ligandability varies across cancer cell lines, and we attribute this to differences in cellular redox states, protein conformational changes, and genetic mutations. Leveraging these findings, we identify actionable cysteines in NFκB1 and SOX10 and develop corresponding covalent ligands that block the activity of these transcription factors. We demonstrate that the NFκB1 probe blocks DNA binding, whereas the SOX10 ligand increases SOX10-SOX10 interactions and disrupts melanoma transcriptional signaling. Our findings reveal heterogeneity in cysteine ligandability across cancers, pinpoint cell-intrinsic features driving cysteine targeting, and illustrate the use of covalent probes to disrupt oncogenic transcription factor activity.

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