Abstract
Merkel cell carcinoma (MCC) is a highly lethal skin cancer. MCC tumors rapidly develop resistance to the chemotherapies tested to date. While PD-1/PD-L1 immune checkpoint blockade has demonstrated success in MCC treatment, a significant portion of MCC patients are nonresponsive. Therefore, the pressing need for effective MCC chemotherapies remains. We screened a library of natural products and discovered that one compound, glaucarubin, potently reduced the viability of Merkel cell polyomavirus (MCPyV)-positive MCCs, while remaining nontoxic to primary human fibroblasts and MCPyV-negative MCC cell lines tested. Protein array and Western blot analyses revealed that glaucarubin induces DNA damage and PARP-1 cleavage that correlates with the loss of viability in MCC cells. However, high basal expression of the antiapoptotic factor BCL-2 allowed a subpopulation of cells to survive glaucarubin treatment. Previous studies have shown that, while targeting BCL-2 family proteins significantly decreases MCC cell viability, BCL-2 antisense therapy alone was insufficient to inhibit tumor growth in patients with advanced MCC. We discovered that treatment with an FDA-approved BCL-2 inhibitor in the context of glaucarubin-induced DNA damage led to near complete killing in multiple MCPyV-positive MCC cell lines that express high levels of BCL-2. The combination of DNA damage-induced apoptosis and BCL-2 inhibition thus represents a novel therapeutic strategy for MCPyV-positive MCCs.
Highlights
Merkel cell carcinoma (MCC) is a neuroendocrine carcinoma associated with Merkel cell polyomavirus (MCPyV) [1,2]
To identify candidate molecules with the potential to kill MCC cells, we performed cell cytotoxicity screening of the chemical compounds in the Natural Product Set IV provided by the National Cancer Institute (NCI) Developmental
We tested the cytotoxicity of those candidates in MKL-1 [34] cells and primary human dermal fibroblasts (HDFs), which served as archetypes for MCPyV-positive MCC
Summary
Merkel cell carcinoma (MCC) is a neuroendocrine carcinoma associated with Merkel cell polyomavirus (MCPyV) [1,2]. MCC metastasizes rapidly and is one of the most aggressive skin cancers [1,2], with a disease-associated mortality of 46% [3]. Despite increasing prevalence and poor patient outcomes, there are no effective chemotherapeutic treatments available for metastatic MCC [4,5]. Several prospective chemotherapies for MCC have had significant initial responses but rapidly lose efficacy due to chemoresistance [6]. Uncovering the mechanisms of resistance common to MCCs could lower rates of MCC recurrence after initial treatment and provide options for patients with advanced disease. Alternative therapies are needed for patients with advanced MCC
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