HPV-driven oncogenesis-much more than the E6 and E7 oncoproteins.

High-risk human papillomaviruses are well-established drivers of several cancer types including cervical, head and neck, penile as well as anal cancers. While the E6 and E7 viral oncoproteins have proven to be critical for malignant transformation, evidence is also beginning to emerge suggesting that both host pathways and additional viral genes may also be pivotal for malignant transformation. Here, we focus on the role of host APOBEC genes, which have an important role in molecular editing including in the response to the viral DNA and their role in HPV-driven carcinogenesis. Further, we also discuss data developed suggesting the existence of HPV-derived miRNAs in HPV + tumors and their potential role in regulating the host transcriptome. Collectively, while recent advances in these two areas have added complexity to the working model of papillomavirus-induced oncogenesis, these discoveries have also shed a light onto new areas of research that will be required to fully understand the process.

DIAPH2 alterations increase cellular motility and may contribute to the metastatic potential of laryngeal squamous cell carcinoma.

Low 5-year survival rate in laryngeal squamous cell carcinoma (LSCC) is to large extent attributable to high rate of recurrences and metastases. Despite the importance of the latter process, its complex genetic background remains not fully understood. Recently, we identified two metastasis-related candidate genes, DIAPH2 and DIAPH3 to be frequently targeted by hemizygous/homozygous deletions, respectively, in LSCC cell lines. They physiologically regulate such processes as cell movement and adhesion, hence we found it as a rationale, to study if tumor LSCC specimens harbor mutations of these genes and whether the mutations are associated with metastasizing tumors. As a proof of concept, we sequenced both genes in five LSCC cell lines derived from lymph node metastases assuming there the highest probability of finding alterations. Indeed, we identified one hemizygous deletion (c.3116_3240del125) in DIAPH2 targeting the FH2 domain. Moreover, we analyzed 95 LSCC tumors (53 N0 and 42 N+) using the Illumina platform and identified three heterozygous single nucleotide variants in DIAPH2 targeting conserved domains exclusively in N+ tumors. By combining these results with cBioPortal data we showed significant enrichment of DIAPH2 mutations (P = 0.036) in N+ tumors. To demonstrate the consequences of DIAPH2 inactivation, CRISPR/Cas9 editing was used to obtain a heterozygous DIAPH2+/- mutant HEK-293T cell line. Importantly, the edited line shows a shift from 'proliferation' to 'migration' phenotype typically observed in metastasizing cells. In conclusion, we report that DIAPH2 alterations are present primarily in metastasizing specimens of LSCC and suggest that they may contribute to the metastatic potential of the tumor.

Recurrent CDK1 overexpression in laryngeal squamous cell carcinoma.

In this study, we analyzed the expression profile of four genes (CCNA2, CCNB1, CCNB2, and CDK1) in laryngeal squamous cell carcinoma (LSCC) cell lines and tumor samples. With the application of microarray platform, we have shown the overexpression of these genes in all analyzed LSCC samples in comparison to non-cancer controls from head and neck region. We have selected CDK1 for further analysis, due to its leading role in cell cycle regulation. It is a member of the Ser/Thr protein kinase family of proven oncogenic properties. The results obtained for CDK1 were further confirmed with the application of reverse transcription quantitative polymerase chain reaction (RT-qPCR) technique, Western blot, and immunohistochemistry (IHC). The observed upregulation of CDK1 in laryngeal squamous cell carcinoma has encouraged us to analyze for genetic mechanisms that can be responsible this phenomenon. Therefore, with the application of array-CGH, sequencing analysis and two methods for epigenetic regulation analysis (DNA methylation and miRNA expression), we tried to identify such potential mechanisms. Our attempts to identify the molecular mechanisms responsible for observed changes failed as we did not observe significant alterations neither in the DNA sequence nor in the gene copy number that could underline CDK1 upregulation. Similarly, the pyrosequencing and miRNA expression analyses did not reveal any differences in methylation level and miRNA expression, respectively; thus, these mechanisms probably do not contribute to elevation of CDK1 expression in LSCC. However, our results suggest that alteration of CDK1 expression on both mRNA and protein level probably appears on the very early step of carcinogenesis.

Polymorphisms of DNA repair genes and risk of squamous cell carcinoma of the head and neck in young adults.

Squamous cell carcinoma of the head and neck (HNSCC) most frequently arise in the epithelial tissues of the upper aerodigestive tract. Patients with HNSCC, aged <45 years are categorized as young adults (YA). They are characterized by more severe form of this disease and often lack of classical, causative risk factors (tobacco smoking, alcohol abusing) in comparison to older (typical) patients (OP). The study purpose was to establish an anticipated protective role of DNA repair genes polymorphisms against cancer-causing agents. It was assumed that the polymorphisms in these genes may have a significant role in the etiology of HNSCC in YA. Studies were carried out on three groups: YA group with HNSCC (n = 90), young healthy group without cancer (YH, n = 160) and OP with HNSCC (n = 205). Three polymorphisms in DNA repair genes were analyzed: XPD ex23: A35931C, XRCC1 ex10: G28152A, and XRCC3 ex7: C18067T. The choice of these genes was connected with their involvement in three different DNA repair pathways. Genotyping was carried out by polymerase chain reaction with restriction fragment length polymorphism (PCR-RFLP) technique. Statistical analysis included: calculation of odds ratio (ORs), 95 % confidence intervals (CIs) and p value. There was no significant difference in the distribution of XPD genotypes in YA compared to OP or YH. The XRCC1 AA genotype variant was observed less frequently in HNSCC YA (4.7 %) than in YH and in OP group (17.1 and 10.8 %, respectively). XRCC3 CT genotype variant was observed more frequently in HNSCC YA (61.8 %) than in YH (36.3 %) and this result is statistically significant. This variant was associated with the borderline increased risk of HNSCC development in an early age, however, a similar tendency was not observed in case of double mutated TT variant. The established differences of genotypes distribution do not seem to differentiate substantially YA and OP in head and neck cancer risk.