Joanne Ngeow1, Ying Ni, Rita Tohme, Fu Song Chen, Gurkan Bebek, Charis Eng. 1. Genomic Medicine Institute (J.N., Y.N., R.T., F.S.C., G.B., C.E.), Cleveland Clinic, Cleveland, Ohio 44195; Lerner Research Institute (J.N., R.T., F.S.C., C.E.), Cleveland Clinic, Cleveland, Ohio 44195; Division of Medical Oncology (J.N.), National Cancer Centre, Singapore 169610; Oncology Academic Clinical Program (J.N.), Duke-NUS Graduate Medical School, Singapore 169610; CASE Comprehensive Cancer Center (Y.N., C.E.), Case Western Reserve University, Cleveland, Ohio 44106; Stanley Shalom Zielony Institute of Nursing Excellence (C.E.), Cleveland Clinic, Cleveland, Ohio 44195; Taussig Cancer Institute (C.E.), Cleveland Clinic, Cleveland, Ohio 44195; Department of Genetics and Genome Sciences (C.E.), Case Western Reserve University School of Medicine, Cleveland, Ohio 44106; and Department of Epidemiology and Biostatistics, and Center for Proteomics and Bioinformatics (G.B.), Case Western Reserve University School of Medicine, Cleveland, Ohio 44106.
Abstract
CONTEXT: RASAL1 has recently been identified as an important tumor suppressor for sporadic thyroid tumorigenesis, particularly for follicular thyroid cancer (FTC) and anaplastic thyroid cancer. Thyroid cancer is an important component of Cowden syndrome (CS). Patients with germline PTEN mutations have an overrepresentation of FTC over other histological subtypes. OBJECTIVE: To determine the prevalence of germline RASAL1 mutations in PTEN mutation-positive and wild type CS patients. SETTING AND DESIGN: We reviewed our prospective database of more than 3000 CS/CS-like patients and retrospectively identified a subset of patients who presented with thyroid cancer for RASAL1 mutation analysis. We reviewed data from The Cancer Genome Atlas (TCGA) sporadic papillary thyroid cancer (PTC) database with germline data for RASAL1 mutations to determine the prevalence of germline RASAL1 mutations in CS-related thyroid cancer patients. RESULTS: We scanned 155 CS/CS-like patients with thyroid cancer for germline RASAL1 mutations. Of the 155 patients, 39 had known germline pathogenic PTEN mutations (PTEN(mut+)) and 116 were PTEN mutation negative (PTEN(WT)). Among these 155 patients, we identified RASAL1 germline alterations suspected as being deleterious in two patients. Both were patients with PTEN(WT) who had FTC (2/48, 4.1%). This was in contrast to patients with PTEN(mut+) who had thyroid cancer (0/39). Of 339 sporadic patients with PTC from the TCGA study, 62 (18%) had germline RASAL1 variants predicted to be deleterious. TCGA patients with follicular-variant PTC were statistically overrepresented (21/62, 34%) among patients with deleterious RASAL1 variants compared with those without (57/277, 21%). CONCLUSIONS: Germline RASAL1 alterations are uncommon in patients with CS but may not be infrequent in patients with apparently sporadic follicular-variant PTC.
CONTEXT: RASAL1 has recently been identified as an important tumor suppressor for sporadic thyroid tumorigenesis, particularly for follicular thyroid cancer (FTC) and anaplastic thyroid cancer. Thyroid cancer is an important component of Cowden syndrome (CS). Patients with germline PTEN mutations have an overrepresentation of FTC over other histological subtypes. OBJECTIVE: To determine the prevalence of germline RASAL1 mutations in PTEN mutation-positive and wild type CS patients. SETTING AND DESIGN: We reviewed our prospective database of more than 3000 CS/CS-like patients and retrospectively identified a subset of patients who presented with thyroid cancer for RASAL1 mutation analysis. We reviewed data from The Cancer Genome Atlas (TCGA) sporadic papillary thyroid cancer (PTC) database with germline data for RASAL1 mutations to determine the prevalence of germline RASAL1 mutations in CS-related thyroid cancerpatients. RESULTS: We scanned 155 CS/CS-like patients with thyroid cancer for germline RASAL1 mutations. Of the 155 patients, 39 had known germline pathogenic PTEN mutations (PTEN(mut+)) and 116 were PTEN mutation negative (PTEN(WT)). Among these 155 patients, we identified RASAL1 germline alterations suspected as being deleterious in two patients. Both were patients with PTEN(WT) who had FTC (2/48, 4.1%). This was in contrast to patients with PTEN(mut+) who had thyroid cancer (0/39). Of 339 sporadic patients with PTC from the TCGA study, 62 (18%) had germline RASAL1 variants predicted to be deleterious. TCGA patients with follicular-variant PTC were statistically overrepresented (21/62, 34%) among patients with deleterious RASAL1 variants compared with those without (57/277, 21%). CONCLUSIONS: Germline RASAL1 alterations are uncommon in patients with CS but may not be infrequent in patients with apparently sporadic follicular-variant PTC.
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