Time course characterizations of the 16 patients in the cohort with individual patients (P), type of cancer (C) either squamous carcinoma (S) or adenocarcinoma (A), diagnostic stage (stage), and HPV type identified in the tumor tissue (HPV).

Panel A shows analysis of HPV- human DNA junctions in serum cfDNA at initial examination and at the 6-month post-treatment follow-up. Panel B shows detection of the cognate HPV E7 DNA in serum cfDNA at the same time points. Descriptions of the symbols are in the box included in each panel. Panel C shows the Integrated Genome Viewer (IGV) 31 plots of sequence reads obtained by HPV DNA hybridization capture for each sample as a function of the standard HPV genome numbering system22. Panel D shows the integrated HPV genomic structures for the ten tumors that contained only subgenomic segments of the viral genome. Viral DNAs were centered on the URR-E6-E7 stretch of the viral genomes. HPV open reading frame structure is shown at the top. The 5’ splice site (5’ss) shown in the viral genome is just inside the 5’ end of the E1 open reading frame. As ORF sizes and precise positions vary slightly among HPV types, integrated DNA segments may be slightly off-scale. Some of the HPV DNA insertions had more than two junctions with human DNA clustered within stretches up to tens of kilobase pairs of the human genome, a well-established phenomenon most likely due to instability of inserted HPV DNA including extra-chromosomal circularization of HPV-human DNA heterocatemer segments, and nearby reintegration of such structures46,2428. In those instances, the junctions shown were evident as read gap borders in Panel C, and they also had the largest number of PCR-confirmed, hybridization capture + sequencing reads. Panel E shows the presumed genomic structures of integrated HPV DNAs in six tumors containing viral segments that were longer than unit length. All were from phylogenetic clade α9, five HPV16 and one HPV35. Arrows show the viral 5’ to 3’ transcriptional orientation of the HPV protein coding strands.

HPV types, viral phylogenetic clades, human genome integration sites, serum cfDNA coverage by HC+SEQ, and serum cfDNA type-specific E7 PCR

PCR detection of HPV-human DNA junctions in human genomic DNAs isolated from biopsy tissue of the cancer recurrences that occurred in the five indicated patients.

PCRs for each patient included a sample of DNA from the recurrence and a positive control using the primary tumor tissue DNA from the individual patients. The junctions in the five recurrences were also detected by hybridization capture plus Illumina sequencing on the recurrence biopsies, which likewise confirmed clonal derivation from the cognate primary tumors.

DNA concentration determinations and Kaplan-Meier analyses performed using cfDNA from patients.

Panel A shows total cfDNA concentrations in early- vs. late-stage cancers. Panel B shows the same DNA concentration determinations plotted from patients who did not have a recurrence vs. those that did. Panels C and D show Kaplan-Meier analyses of recurrence-free survival in patients where HPV-human DNA junctions were detected in serum vs. those where it was not detected at initial examination (Panel C) or at 6-months post- treatment (Panel D). Panels E and F show Kaplan-Meier analyses of recurrence-free survival in patients where HPV E7 DNA was detected in serum vs. those where it was not detected at initial examination (Panel E) or at 6-months post-treatment (Panel F). In all four plots, squares show left-censoring at the last patient visits.

Analyses of HPV DNAs in Patient 16.

Panel A shows PCR analysis for HPV16 E7 DNA in serum cfDNA plus DNA from the primary tumor as a positive control. Panel B shows PCR analysis for HPV18 E7 DNA in serum cfDNA plus DNA from the primary tumor as a positive control. Panel C shows the IGV plots of sequence reads following HPV DNA hybridization capture from the primary tumor and cfDNA. Sequence reads for HPV16 and HPV18 in serum cfDNA were plotted separately.

Kaplan-Meier recurrence-free survival plot of 297 TCGA cervical cancer patients.

A priori clinicopathologic variables of the TCGA cohort by HPV phylogenetic clade

Multivariable Cox proportional hazard regression model for recurrence-free survival