ABSTRACT
@# Objective: To analyze the mutation of target genes in extranodal natural killer/T-cell lymphoma (ENKTL) by using nextgeneration sequencing, and to explore its relationship with prognosis and clinical characteristics, as to provide evidence for the pathogenesis, clinical diagnosis and targeted therapy of ENKTL. Methods: According to previous literature reports, the genes whose mutations can affect the development of lymphoma were selected as the target genes for this study. 29 patients with ENKTL, who were newly diagnosed at the Fourth Hospital of Hebei Medical University from August 2010 to October 2018, were selected for this study. The mutation of 9 target genes in the specimen was detected by thenext-generationsequencingtechnology.Therelationshipsamongclinicalfeatures,diseaseprognosisandmutationofthetargetgeneswereanalyzedbySPSS21.0statisticalsoftware.Results: :Ninetargetgenes were were screened. AT-rich interactive-domain 1A(ARID1A) gene showed the highest mutation rate in ENKTL (10 cases, 34.48%) followedbylysinemethyltransferase2D(KMT2D)gene(31.03%)andtumorprotein P53 (TP53) gene (24.13%). Kaplan-Meier survival analysis showed that the overall survival of ENKTL patients with KMT2D gene wild type was significantly better than patients with KMT2D gene mutation (P=0.006). The KMT2D gene mutation was found to besignificantlyrelatedtoclinicalstage,CRP,albumin,lymphocyte count and Ki67 expression in ENKTL patients (all P<0.05). COX regression analysis showed that KMT2D gene mutation was an independent adverse prognostic factor (P<0.05). Conclusion: The KMT2D gene has a high mutant frequency in ENKTL and is associated with patients’prognosis, suggesting that KMT2D gene plays an important role in the initiation and development of ENKTL. It could be used as a clinical therapeutic target for ENKTL.