Identifying Ferroptosis Inducers, HDAC, and RTK Inhibitor Sensitivity in Melanoma Subtypes through Unbiased Drug Target Prediction
Author:
Pla Indira, Szabolcs Botond L., Péter Petra Nikolett, Ujfaludi Zsuzsanna, Kim Yonghyo, Horvatovich Peter, Sanchez Aniel, Pawlowski Krzysztof, Wieslander Elisabet, Guedes Jéssica, Pál Dorottya MPORCID, Ascsillán Anna A., Betancourt Lazaro Hiram, Németh István Balázs, Gil Jeovanis, Almeida Natália Pinto de, Szeitz Beáta, Szadai Leticia, Doma Viktória, Woldmar Nicole, Bartha Áron, Pahi Zoltan, Pankotai Tibor, Győrffy Balázs, Szasz A. Marcell, Domont Gilberto, Nogueira Fábio, Kwon Ho Jeong, Appelqvist Roger, Kárpáti Sarolta, Fenyö David, Malm Johan, Marko-Varga György, Kemény Lajos V.ORCID
Abstract
AbstractThe utilization of PD1 and CTLA4 inhibitors has revolutionized the treatment of malignant melanoma (MM). However, resistance to targeted and immune-checkpoint-based therapies still poses a significant problem. Here we mine large scale MM proteogenomic data integrating it with MM cell line dependency screen, and drug sensitivity data to identify druggable targets and forecast treatment efficacy and resistance. Leveraging protein profiles from established MM subtypes and molecular structures of 82 cancer treatment drugs, we identified nine candidate hub proteins, mTOR, FYN, PIK3CB, EGFR, MAPK3, MAP4K1, MAP2K1, SRC and AKT1, across five distinct MM subtypes. These proteins serve as potential drug targets applicable to one or multiple MM subtypes.By analyzing transcriptomic data from 48 publicly accessible melanoma cell lines sourced from Achilles and CRISPR dependency screens, we forecasted 162 potentially targetable genes. We also identified genetic resistance in 260 genes across at least one melanoma subtype. In addition, we employed publicly available compound sensitivity data (Cancer Therapeutics Response Portal, CTRPv2) on the cell lines to assess the correlation of compound effectiveness within each subtype.We have identified 20 compounds exhibiting potential drug impact in at least one melanoma subtype. Remarkably, employing this unbiased approach, we have uncovered compounds targeting ferroptosis, that demonstrate a striking 30x fold difference in sensitivity among different subtypes. This implies that the proteogenomic classification of melanoma has the potential to predict sensitivity to ferroptosis compounds. Our results suggest innovative and novel therapeutic strategies by stratifying melanoma samples through proteomic profiling, offering a spectrum of novel therapeutic interventions and prospects for combination therapy.Highlights(1)Proteogenomic subtype classification can define the landscape of genetic dependencies in melanoma(2)Nine proteins from molecular subtypes were identified as potential drug targets for specified MM patients(3)20 compounds identified that show potential effectiveness in at least one melanoma subtype(4)Proteogenomics can predict specific ferroptosis inducers, HDAC, and RTK Inhibitor sensitivity in melanoma subtypesGraphical abstract
Publisher
Cold Spring Harbor Laboratory
Reference44 articles.
1. Ferlay J , Ervik M , Lam F , Colombet M , Mery L , Piñeros M , Znaor A , Soerjomataram I BF. Lyon , France: International Agency for Research on Cancer. 2020 [cited 2022 Dec 1]. Global Cancer Observatory: Cancer Today. Available from: https://gco.iarc.fr/today 2. Ferlay J , Laversanne M , Ervik M , Lam F , Colombet M , Mery L , et al. Available from: https://gco.iarc.fr/tomorrow. 2020. Global Cancer Observatory (2020): Cancer Tomorrow. Lyon, France: International Agency for Research on Cancer. 3. Epidemiology of Melanoma;Med Sci (Basel) [Internet,2021 4. Melanoma subtypes: genomic profiles, prognostic molecular markers and therapeutic possibilities 5. Frantzi M , Latosinska A , Mischak H . Proteomics in Drug Development: The Dawn of a New Era? Proteomics Clin Appl [Internet]. 2019 Mar 1 [cited 2022 Dec 15];13(2). Available from: https://pubmed.ncbi.nlm.nih.gov/30724014/
|
|