HPV16 E6 and E7 Oncoproteins Stimulate the Glutamine Pathway Maintaining Cell Proliferation in a SNAT1-Dependent Fashion.
Yunuen Ortiz-PedrazaJesús Omar Muñoz-BelloLucio Antonio Ramos-ChávezImelda Martínez-RamírezLeslie Olmedo-NievaJoaquín Manzo-MerinoAlejandro Lopez SaavedraVerónica Pérez de la CruzMarcela LizanoPublished in: Viruses (2023)
Persistent high-risk human papillomavirus infection is the main risk factor for cervical cancer establishment, where the viral oncogenes E6 and E7 promote a cancerous phenotype. Metabolic reprogramming in cancer involves alterations in glutamine metabolism, also named glutaminolysis, to provide energy for supporting cancer processes including migration, proliferation, and production of reactive oxygen species, among others. The aim of this work was to analyze the effect of HPV16 E6 and E7 oncoproteins on the regulation of glutaminolysis and its contribution to cell proliferation. We found that the E6 and E7 oncoproteins exacerbate cell proliferation in a glutamine-dependent manner. Both oncoproteins increased the levels of transporter SNAT1, as well as GLS2 and GS enzymes; E6 also increased LAT1 transporter protein levels, while E7 increased ASCT2 and xCT. Some of these alterations are also regulated at a transcriptional level. Consistently, the amount of SNAT1 protein decreased in Ca Ski cells when E6 and E7 expression was knocked down. In addition, we demonstrated that cell proliferation was partially dependent on SNAT1 in the presence of glutamine. Interestingly, SNAT1 expression was higher in cervical cancer compared with normal cervical cells. The high expression of SNAT1 was associated with poor overall survival of cervical cancer patients. Our results indicate that HPV oncoproteins exacerbate glutaminolysis supporting the malignant phenotype.
Keyphrases
- cell proliferation
- poor prognosis
- induced apoptosis
- cell cycle arrest
- cell cycle
- binding protein
- pi k akt
- high grade
- papillary thyroid
- reactive oxygen species
- signaling pathway
- squamous cell
- transcription factor
- sars cov
- gene expression
- endoplasmic reticulum stress
- cell death
- long non coding rna
- amino acid
- lymph node metastasis
- protein protein
- young adults
- cervical cancer screening
- free survival