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Overcoming resistance to BRAFV600E inhibition in melanoma by deciphering and targeting personalized protein network alterations

Swetha Vasudevan, Efrat Flashner-Abramson, Heba Alkhatib, Sangita Roy Chowdhury, Ibukun Adesoji Adejumobi, Daniela Vilenski, Shira Stefansky, Ariel M. Rubinstein, Nataly Kravchenko‐Balasha

2021npj Precision Oncology29 citationsDOIOpen Access PDF

Abstract

Abstract BRAF V600E melanoma patients, despite initially responding to the clinically prescribed anti-BRAF V600E therapy, often relapse, and their tumors develop drug resistance. While it is widely accepted that these tumors are originally driven by the BRAF V600E mutation, they often eventually diverge and become supported by various signaling networks. Therefore, patient-specific altered signaling signatures should be deciphered and treated individually. In this study, we design individualized melanoma combination treatments based on personalized network alterations. Using an information-theoretic approach, we compute high-resolution patient-specific altered signaling signatures. These altered signaling signatures each consist of several co-expressed subnetworks, which should all be targeted to optimally inhibit the entire altered signaling flux. Based on these data, we design smart, personalized drug combinations, often consisting of FDA-approved drugs. We validate our approach in vitro and in vivo showing that individualized drug combinations that are rationally based on patient-specific altered signaling signatures are more efficient than the clinically used anti-BRAF V600E or BRAF V600E /MEK targeted therapy. Furthermore, these drug combinations are highly selective, as a drug combination efficient for one BRAF V600E tumor is significantly less efficient for another, and vice versa. The approach presented herein can be broadly applicable to aid clinicians to rationally design patient-specific anti-melanoma drug combinations.

Topics & Concepts

MelanomaDrugPersonalized medicineDrug resistanceCombination therapyMedicineV600EIn vivoCancer researchComputational biologyPharmacologyMutationBioinformaticsBiologyGeneGeneticsComputational Drug Discovery MethodsMelanoma and MAPK PathwaysBioinformatics and Genomic Networks
Overcoming resistance to BRAFV600E inhibition in melanoma by deciphering and targeting personalized protein network alterations | Litcius