Abstract

BRAF inhibitors can delay the progression of metastatic melanoma, but resistance usually emerges, leading to relapse. Drugs simultaneously targeting two or more pathways essential for cancer growth could slow or prevent the development of resistant clones. Here, we identified pyridinyl imidazole compounds SB202190, SB203580, and SB590885 as dual inhibitors of critical proliferative pathways in human melanoma cells bearing the V600E activating mutation of BRAF kinase. We found that the drugs simultaneously disrupt the BRAF V600E-driven extracellular signal-regulated kinase (ERK) mitogen-activated protein kinase (MAPK) activity and the mechanistic target of rapamycin complex 1 (mTORC1) signaling in melanoma cells. Pyridinyl imidazole compounds directly inhibit BRAF V600E kinase. Moreover, they interfere with the endolysosomal compartment, promoting the accumulation of large acidic vacuole-like vesicles and dynamic changes in mTOR signaling. A transient increase in mTORC1 activity is followed by the enrichment of the Ragulator complex protein p18/LAMTOR1 at contact sites of large vesicles and delocalization of mTOR from the lysosomes. The induced disruption of the endolysosomal pathway not only disrupts mTORC1 signaling, but also renders melanoma cells sensitive to endoplasmic reticulum (ER) stress. Our findings identify new activities of pharmacologically relevant small molecule compounds and provide a biological rationale for the development of anti-melanoma therapeutics based on the pyridinyl imidazole core.

Highlights

  • Malignant melanoma is aggressive cancer affecting the skin and other tissues where pigment-producing melanocytes reside

  • We show that pyridinyl imidazole compounds are capable of simultaneously targeting the BRAF oncogene and mechanistic target of rapamycin complex 1 (mTORC1) signaling in human melanoma cells

  • Some reports suggested that pyridinyl imidazole compounds could activate extracellular signal-regulated kinase (ERK) signaling by promoting CRAF

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Summary

Introduction

Malignant melanoma is aggressive cancer affecting the skin and other tissues where pigment-producing melanocytes reside. Melanoma accounts for less than 5% of all dermatologic tumors, it is responsible for approximately 80% of all deaths from skin cancers [1]. The main risk factor for the development of melanoma is overexposure to solar UV radiation. The UV light can induce cancer-promoting mutations that can stimulate melanocyte growth independently from external stimuli [2,3]. Most human melanomas can be placed into two subgroups based on the type of mutation driving the ERK MAPK signaling pathway and cell proliferation [4,5]. About a half of melanoma patients carry a potent activating mutation V600E in the BRAF kinase, which renders the normally dimeric BRAF kinase enzymatically active as a monomer, independent of upstream signaling

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