Watanabe Yoshiyuki, Oikawa Ritsuko, Kodaka Yasuhiro, Sato Yoshinori, Ono Shoko, Kenmochi Takeshi, Suzuki Hideo, Futagami Seiji, Kato Mototsugu, Yamamoto Hiroyuki, Itoh Fumio
Division of Gastroenterology and Hepatology, Department of Internal Medicine, St. Marianna University School of Medicine, Kawasaki, Japan.
Department of Internal Medicine, Kawasaki Rinko General Hospital, Kawasaki, Japan.
Int J Cancer. 2021 Jan 1;148(1):178-192. doi: 10.1002/ijc.33257. Epub 2020 Sep 11.
Helicobacter pylori (H. pylori) are a primary factor in the pathogenesis of gastric cancer (GC); GC ranks third among cancer-related mortality. A clear understanding of the H. pylori genome factors underlying GC is necessary to develop more effective methods to prevent GC. A single-molecule real-time DNA sequencing-based H. pylori genome-wide association study analysis was performed using the H. pylori genome present in five early-stage GC (EGC) and five non-GC clinical DNA samples recovered from gastric washes. A total of 275 genes with 702 nucleotide variants (NVs) were found to be common to three or more patients with EGC but no non-GC patients (single-NV: 654/702, 93.2%; multi-NV: 40/702, 5.7%; deletion: 3/702, 0.4%; insertion: 3/702, 0.7%). Gene ontology analysis of H. pylori revealed that genes involved in the mitochondrial electron transport system, glycolytic processes and the TCA cycle were highly enriched. Cancer-related NVs were most frequently found in a member of the Helicobacter outer membrane protein family, hopL. In particular, one of the NVs in hopL was a novel six-nucleotide insertion (1159095̂1159096, TACTTC); this mutant was detected more frequently in a validation set of 50 additional EGC samples (22/50, 44.0%) than in 18 non-GC samples (3/18, 16.7%, P = .04). These results suggest that the hopL variant is associated with the development of GC and may serve as a genetic biomarker of H. pylori virulence and GC risk. Our assay can serve as a potent tool to expand our understanding of bacteria-associated tumorigenesis.
幽门螺杆菌(H. pylori)是胃癌(GC)发病机制的主要因素;GC在癌症相关死亡率中排名第三。要开发更有效的预防GC的方法,有必要清楚了解GC背后的幽门螺杆菌基因组因素。使用从胃冲洗液中回收的5份早期GC(EGC)临床DNA样本和5份非GC临床DNA样本中的幽门螺杆菌基因组,进行了基于单分子实时DNA测序的幽门螺杆菌全基因组关联研究分析。共发现275个基因带有702个核苷酸变异(NVs),这些基因在三名或更多EGC患者中常见,但在非GC患者中未发现(单NV:654/702,93.2%;多NV:40/702,5.7%;缺失:3/702,0.4%;插入:3/702,0.7%)。幽门螺杆菌的基因本体分析表明,参与线粒体电子传递系统、糖酵解过程和三羧酸循环的基因高度富集。癌症相关NVs最常出现在幽门螺杆菌外膜蛋白家族成员hopL中。特别是,hopL中的一个NV是一个新的六核苷酸插入(1159095̂1159096,TACTTC);在另外50份EGC样本的验证集中,该突变体的检测频率(22/50,44.0%)高于18份非GC样本(3/18,16.7%,P = 0.04)。这些结果表明,hopL变体与GC的发生有关,可能作为幽门螺杆菌毒力和GC风险的遗传生物标志物。我们的检测方法可作为一种有力工具,用于扩展我们对细菌相关肿瘤发生的理解。
