Immunopathology and Cancer Biomarkers Unit, IRCCS-National Cancer Institute, 33081 Aviano, Italy.
Oncological Gastroenterology Unit, IRCCS-National Cancer Institute, 33081 Aviano, Italy.
Int J Mol Sci. 2018 Mar 7;19(3):750. doi: 10.3390/ijms19030750.
A positive family history is a strong and consistently reported risk factor for gastric cancer (GC). So far, it has been demonstrated that serum pepsinogens (PGs), and gastrin 17 (G17) are useful for screening individuals at elevated risk to develop atrophic gastritis but they are suboptimal biomarkers to screen individuals for GC. The main purpose of this study was to investigate serum metabolomic profiles to find additional biomarkers that could be integrated with serum PGs and G17 to improve the diagnosis of GC and the selection of first-degree relatives (FDR) at higher risk of GC development. Serum metabolomic profiles included 188 serum metabolites, covering amino acids, biogenic amines, acylcarnitines, phosphatidylcholines, sphingomyelins and hexoses. Serum metabolomic profiles were performed with tandem mass spectrometry using the Biocrates Absolute p180 kit. The initial cohort (training set) consisted of = 49 GC patients and = 37 FDR. Differential metabolomic signatures among the two groups were investigated by univariate and multivariate partial least square differential analysis. The most significant metabolites were further selected and validated in an independent group of = 22 GC patients and = 17 FDR (validation set). Receiver operating characteristic (ROC) curves were used to evaluate the diagnostic power and the optimal cut-off for each of the discriminant markers. Multivariate analysis was applied to associate the selected serum metabolites, PGs, G17 and risk factors such as age, gender and () infection with the GC and FDR has been performed and an integrative risk prediction algorithm was developed. In the training set, 40 metabolites mainly belonging to phospholipids and acylcarnitines classes were differentially expressed between GC and FDR. Out of these 40 metabolites, 9 were further confirmed in the validation set. Compared with FDR, GC patients were characterized by lower levels of hydroxylated sphingomyelins (SM(OH)22:1, SM(OH)22:2, SM(OH)24:1) and phosphatidylcholines (PC ae 40:1, PC ae 42:2, PC ae 42:3) and by higher levels of acylcarnitines derivatives (C2, C16, C18:1). The specificity and sensitivity of the integrative risk prediction analysis of metabolites for GC was 73.47% and 83.78% respectively with an area under the curve of the ROC curve of 0.811 that improves to 0.90 when metabolites were integrated with the serum PGs. The predictive risk algorithm composed of the C16, SM(OH)22:1 and PG-II serum levels according to the age of individuals, could be used to stratify FDR at high risk of GC development, and then this can be addressed with diagnostic gastroscopy.
阳性家族史是胃癌(GC)的一个强烈且一致报道的危险因素。到目前为止,已经证明血清胃蛋白酶原(PGs)和胃泌素 17(G17)可用于筛选处于发生萎缩性胃炎风险升高的个体,但它们是筛选 GC 个体的非最佳生物标志物。本研究的主要目的是研究血清代谢组学谱,以寻找其他可能与血清 PGs 和 G17 相结合的生物标志物,以提高 GC 的诊断和选择发展为 GC 的一级亲属(FDR)的风险。血清代谢组学谱包括 188 种血清代谢物,涵盖氨基酸、生物胺、酰基肉碱、磷脂酰胆碱、鞘磷脂和己糖。使用串联质谱法,使用 Biocrates Absolute p180 试剂盒进行血清代谢组学谱分析。初始队列(训练集)由 = 49 名 GC 患者和 = 37 名 FDR 组成。通过单变量和多变量偏最小二乘差异分析研究两组之间的差异代谢特征。从两个组中进一步选择和验证最显著的代谢物。在一个由 = 22 名 GC 患者和 = 17 名 FDR(验证集)组成的独立组中使用接收者操作特征(ROC)曲线评估每个鉴别标志物的诊断能力和最佳截止值。应用多元分析将选定的血清代谢物、PGs、G17 和年龄、性别和 () 感染等危险因素与 GC 和 FDR 相关联,并开发了综合风险预测算法。在训练集中,GC 和 FDR 之间有 40 种主要属于磷脂和酰基肉碱类的代谢物存在差异表达。在这 40 种代谢物中,有 9 种在验证集中得到进一步证实。与 FDR 相比,GC 患者的特征是羟化鞘磷脂(SM(OH)22:1、SM(OH)22:2、SM(OH)24:1)和磷脂酰胆碱(PCae40:1、PCae42:2、PCae42:3)水平降低,酰基肉碱衍生物(C2、C16、C18:1)水平升高。用于 GC 的代谢物综合风险预测分析的特异性和敏感性分别为 73.47%和 83.78%,ROC 曲线下面积为 0.811,当将代谢物与血清 PGs 结合时,可提高至 0.90。根据个体年龄,由 C16、SM(OH)22:1 和 PG-II 血清水平组成的预测风险算法,可用于分层处于 GC 发展高风险的 FDR,然后通过诊断性胃镜检查解决这个问题。
