Rachel N Grisham1, Brooke E Sylvester2, Helen Won2, Gregory McDermott2, Deborah DeLair2, Ricardo Ramirez2, Zhan Yao2, Ronglai Shen2, Fanny Dao2, Faina Bogomolniy2, Vicky Makker2, Evis Sala2, Tara E Soumerai2, David M Hyman2, Nicholas D Socci2, Agnes Viale2, David M Gershenson2, John Farley2, Douglas A Levine2, Neal Rosen2, Michael F Berger2, David R Spriggs2, Carol A Aghajanian2, David B Solit2, Gopa Iyer2. 1. Rachel N. Grisham, Brooke E. Sylvester, Helen Won, Deborah DeLair, Zhan Yao, Ronglai Shen, Fanny Dao, Faina Bogomolniy, Vicky Makker, Evis Sala, Tara E. Soumerai, David M. Hyman, Douglas A. Levine, Neal Rosen, Michael F. Berger, David R. Spriggs, Carol A. Aghajanian, David B. Solit, and Gopa Iyer, Memorial Sloan Kettering Cancer Center; Rachel N. Grisham, Gregory McDermott, Vicky Makker, David M. Hyman, Neal Rosen, Michael F. Berger, David R. Spriggs, Carol A. Aghajanian, David B. Solit, and Gopa Iyer, Weill Cornell Medical College; Ricardo Ramirez, Graduate School of Medical Sciences; Nicholas D. Socci and Agnes Viale, Michael F. Berger, and David B. Solit, Marie-Josée and Henry R. Kravis Center for Molecular Oncology, New York, NY; David M. Gershenson, University of Texas MD Anderson Cancer Center, Houston, TX; and John Farley, St Joseph's Hospital and Medical Center, Phoenix, AZ. grishamr@mskcc.org. 2. Rachel N. Grisham, Brooke E. Sylvester, Helen Won, Deborah DeLair, Zhan Yao, Ronglai Shen, Fanny Dao, Faina Bogomolniy, Vicky Makker, Evis Sala, Tara E. Soumerai, David M. Hyman, Douglas A. Levine, Neal Rosen, Michael F. Berger, David R. Spriggs, Carol A. Aghajanian, David B. Solit, and Gopa Iyer, Memorial Sloan Kettering Cancer Center; Rachel N. Grisham, Gregory McDermott, Vicky Makker, David M. Hyman, Neal Rosen, Michael F. Berger, David R. Spriggs, Carol A. Aghajanian, David B. Solit, and Gopa Iyer, Weill Cornell Medical College; Ricardo Ramirez, Graduate School of Medical Sciences; Nicholas D. Socci and Agnes Viale, Michael F. Berger, and David B. Solit, Marie-Josée and Henry R. Kravis Center for Molecular Oncology, New York, NY; David M. Gershenson, University of Texas MD Anderson Cancer Center, Houston, TX; and John Farley, St Joseph's Hospital and Medical Center, Phoenix, AZ.
Abstract
PURPOSE: No effective systemic therapy exists for patients with metastatic low-grade serous (LGS) ovarian cancers. BRAF and KRAS mutations are common in serous borderline (SB) and LGS ovarian cancers, and MEK inhibition has been shown to induce tumor regression in a minority of patients; however, no correlation has been observed between mutation status and clinical response. With the goal of identifying biomarkers of sensitivity to MEK inhibitor treatment, we performed an outlier analysis of a patient who experienced a complete, durable, and ongoing (> 5 years) response to selumetinib, a non-ATP competitive MEK inhibitor. PATIENTS AND METHODS: Next-generation sequencing was used to analyze this patient's tumor as well as an additional 28 SB/LGS tumors. Functional characterization of an identified novel alteration of interest was performed. RESULTS: Analysis of the extraordinary responder's tumor identified a 15-nucleotide deletion in the negative regulatory helix of the MAP2K1 gene encoding for MEK1. Functional characterization demonstrated that this mutant induced extracellular signal-regulated kinase pathway activation, promoted anchorage-independent growth and tumor formation in mice, and retained sensitivity to selumetinib. Analysis of additional LGS/SB tumors identified mutations predicted to induce extracellular signal-regulated kinase pathway activation in 82% (23 of 28), including two patients with BRAF fusions, one of whom achieved an ongoing complete response to MEK inhibitor-based combination therapy. CONCLUSION: Alterations affecting the mitogen-activated protein kinase pathway are present in the majority of patients with LGS ovarian cancer. Next-generation sequencing analysis revealed deletions and fusions that are not detected by older sequencing approaches. These findings, coupled with the observation that a subset of patients with recurrent LGS ovarian cancer experienced dramatic and durable responses to MEK inhibitor therapy, support additional clinical studies of MEK inhibitors in this disease.
PURPOSE: No effective systemic therapy exists for patients with metastatic low-grade serous (LGS) ovarian cancers. BRAF and KRAS mutations are common in serous borderline (SB) and LGS ovarian cancers, and MEK inhibition has been shown to induce tumor regression in a minority of patients; however, no correlation has been observed between mutation status and clinical response. With the goal of identifying biomarkers of sensitivity to MEK inhibitor treatment, we performed an outlier analysis of a patient who experienced a complete, durable, and ongoing (> 5 years) response to selumetinib, a non-ATP competitive MEK inhibitor. PATIENTS AND METHODS: Next-generation sequencing was used to analyze this patient's tumor as well as an additional 28 SB/LGS tumors. Functional characterization of an identified novel alteration of interest was performed. RESULTS: Analysis of the extraordinary responder's tumor identified a 15-nucleotide deletion in the negative regulatory helix of the MAP2K1 gene encoding for MEK1. Functional characterization demonstrated that this mutant induced extracellular signal-regulated kinase pathway activation, promoted anchorage-independent growth and tumor formation in mice, and retained sensitivity to selumetinib. Analysis of additional LGS/SB tumors identified mutations predicted to induce extracellular signal-regulated kinase pathway activation in 82% (23 of 28), including two patients with BRAF fusions, one of whom achieved an ongoing complete response to MEK inhibitor-based combination therapy. CONCLUSION: Alterations affecting the mitogen-activated protein kinase pathway are present in the majority of patients with LGS ovarian cancer. Next-generation sequencing analysis revealed deletions and fusions that are not detected by older sequencing approaches. These findings, coupled with the observation that a subset of patients with recurrent LGS ovarian cancer experienced dramatic and durable responses to MEK inhibitor therapy, support additional clinical studies of MEK inhibitors in this disease.
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