Kukimoto Iwao, Matsumoto Koji, Takahashi Fumiaki, Iwata Takashi, Tanaka Kohsei, Yamaguchi-Naka Mayuko, Yamamoto Kasumi, Yahata Hideaki, Nakabayashi Makoto, Kato Hisamori, Tsuda Naotake, Onuki Mamiko, Yaegashi Nobuo
Pathogen Genomics Center, National Institute of Infectious Diseases.
Department of Obstetrics and Gynecology, Showa University School of Medicine.
Tohoku J Exp Med. 2020 Aug;251(4):287-294. doi: 10.1620/tjem.251.287.
In Japan, a bivalent human papillomavirus (HPV) vaccine against carcinogenic HPV16/18 was licensed in 2009, and a quadrivalent vaccines against HPV16/18 and non-carcinogenic HPV6/11 was licensed in 2011. Recently, the next-generation 9-valent vaccine targeting HPV6/11/16/18/31/33/45/52/58 has been approved. Accurate HPV genotyping is essential for HPV vaccine research and surveillance. The Roche Linear Array (LA) has long been a standard assay for HPV genotyping, but its recent product discontinuation notice has urged us to introduce an alternative assay with comparable performance. In the present study, an in-house HPV genotyping assay that employs PCR with PGMY09/11 primers and reverse blotting hybridization (PGMY-CHUV) was compared with LA to assess genotype-specific agreement. A total of 100 cervical precancer specimens were subjected to both PGMY-CHUV and LA. For detection of genotypes included in the 9-valent vaccine, PGMY-CHUV completely agreed with LA for detection of HPV6, HPV11, HPV16, HPV18, HPV33 and HPV45, and showed near-complete agreement for HPV31 and HPV58 (98% and 99%, respectively). Moreover, PGMY-CHUV detected a significantly higher prevalence of HPV52 than LA (22% vs. 14%, P = 0.008 by McNemar's exact test), with 92.0% overall agreement, 63.6% positive agreement and a kappa value of 0.73. Most (87.5%) of HPV52 discordant cases involved mixed infections with HPV35 or HPV58. In conclusion, while the two assays present equivalent data for assessing the effectiveness of the bivalent and quadrivalent vaccines, PGMY-CHUV is more suitable for evaluating the impact of the current 9-valent vaccine because of its superior detection of HPV52 in co-infection cases.
在日本,一种针对致癌性人乳头瘤病毒16/18型(HPV)的二价人乳头瘤病毒疫苗于2009年获得许可,一种针对HPV16/18和非致癌性HPV6/11的四价疫苗于2011年获得许可。最近,靶向HPV6/11/16/18/31/33/45/52/58的下一代九价疫苗已获批准。准确的HPV基因分型对于HPV疫苗研究和监测至关重要。罗氏线性阵列(LA)长期以来一直是HPV基因分型的标准检测方法,但最近其产品停产通知促使我们引入一种性能相当的替代检测方法。在本研究中,将采用PGMY09/11引物PCR和反向印迹杂交的内部HPV基因分型检测方法(PGMY-CHUV)与LA进行比较,以评估基因型特异性一致性。总共100份宫颈癌前病变标本同时进行了PGMY-CHUV和LA检测。对于九价疫苗中包含的基因型检测,PGMY-CHUV在检测HPV6、HPV11、HPV16、HPV18、HPV33和HPV45方面与LA完全一致,在检测HPV31和HPV58方面显示出近乎完全一致(分别为98%和99%)。此外,PGMY-CHUV检测到的HPV52患病率显著高于LA(22%对14%,McNemar精确检验P = 0.008),总体一致性为92.0%,阳性一致性为63.6%,kappa值为0.73。大多数(87.5%)HPV52不一致的病例涉及与HPV35或HPV58的混合感染。总之,虽然这两种检测方法在评估二价和四价疫苗有效性方面提供了等效数据,但PGMY-CHUV更适合评估当前九价疫苗的影响,因为它在合并感染病例中对HPV52的检测更具优势。
