van den Brule A J, Snijders P J, Raaphorst P M, Schrijnemakers H F, Delius H, Gissmann L, Meijer C J, Walboomers J M
Department of Pathology, Free University Hospital, Amsterdam, The Netherlands.
J Clin Microbiol. 1992 Jul;30(7):1716-21. doi: 10.1128/jcm.30.7.1716-1721.1992.
We recently described the detection of potentially novel human papillomaviruses (HPV) genotypes (HPV types X [HPV X]) in cervical smears (A. J. C. van den Brule, C. J. L. M. Meijer, V. Bakels, P. Kenemans, and J. M. M. Walboomers, J. Clin. Microbiol. 28:2739-2743, 1990) by using the general primer-mediated polymerase chain reaction method (GP-PCR). In this study, the HPV specificities of GP-PCR products were determined by sequence analyses. M13 bacteriophage clones of PCR products derived from cloned unsequenced HPV genotypes 13, 32, 35, 43, 44, 45, 51, and 56 were subjected to dideoxy sequencing. Analyses of the putative amino acid sequences of these HPV types in addition to published HPV sequence data revealed stretches of highly conserved amino acid residues present in all HPV types, resulting in an HPV amino acid consensus sequence. Subsequently, HPV X-specific PCR products found in premalignant cervical lesions (n = 3), carcinomas in situ (n = 6), and invasive cancer (n = 6) were analyzed for their nucleotide sequences. Comparison of these sequences with published HPV nucleotide sequences and data obtained in this study revealed three HPV type 35, two HPV type 45, one HPV type 51, two HPV type 56, and six unique HPV X sequences, of which three types were present in four cases of carcinomas (in situ). The nucleotide sequences determined appeared to be unique after a data bank search. Furthermore, the sequences of all HPV X isolates matched the HPV amino acid consensus sequence, thus confirming HPV specificity. This study illustrates the power of GP-PCR in combination with sequence analysis to determine HPV specificity and genotyping of PCR products derived from sequenced as well as unsequenced HPVs, including novel, not yet identified HPV types.
我们最近描述了通过通用引物介导的聚合酶链反应方法(GP-PCR)在宫颈涂片中检测潜在的新型人乳头瘤病毒(HPV)基因型(HPV X型)(A. J. C. van den Brule、C. J. L. M. Meijer、V. Bakels、P. Kenemans和J. M. M. Walboomers,《临床微生物学杂志》28:2739 - 2743,1990年)。在本研究中,通过序列分析确定了GP-PCR产物的HPV特异性。对源自克隆的未测序HPV基因型13、32、35、43、44、45、51和56的PCR产物的M13噬菌体克隆进行双脱氧测序。除了已发表的HPV序列数据外,对这些HPV类型的推定氨基酸序列进行分析,发现所有HPV类型中都存在高度保守的氨基酸残基片段,从而得出HPV氨基酸共有序列。随后,对在癌前宫颈病变(n = 3)、原位癌(n = 6)和浸润性癌(n = 6)中发现的HPV X特异性PCR产物进行核苷酸序列分析。将这些序列与已发表的HPV核苷酸序列以及本研究中获得的数据进行比较,发现了三个HPV 35型、两个HPV 45型、一个HPV 51型、两个HPV 56型和六个独特的HPV X序列,其中三种类型存在于四例原位癌中。在数据库搜索后,所确定的核苷酸序列似乎是独特的。此外,所有HPV X分离株的序列与HPV氨基酸共有序列匹配,从而证实了HPV特异性。本研究说明了GP-PCR与序列分析相结合在确定HPV特异性以及对来自已测序和未测序HPV(包括尚未鉴定的新型HPV类型)的PCR产物进行基因分型方面的作用。