Home Products Most Popular Contact
No items in your cart.
The page below is a sample from the LabCE course Human Papillomavirus (HPV) and Molecular Testing for Cervical Cancer. Access the complete course and earn ASCLS P.A.C.E.-approved continuing education credits by subscribing online.

Learn more about Human Papillomavirus (HPV) and Molecular Testing for Cervical Cancer (online CE course) »
How to Subscribe
MLS & MLT Comprehensive CE Package
Includes 123 CE courses, most popular
$95 Add to cart
Pick Your Courses
Up to 8 CE hours
$50 Add to cart
Individual course$20 Add to cart

HPV Genome and Proteins

When HPV infects host cells, several HPV DNA-coded proteins initiate cellular changes. Two such areas in the genome are the open reading frames E1 to E7 and the late open reading frames L1 and L2. The proteins encoded by E1 to E7 regions of the genome are responsible for HPV-gene regulation and cell transformation. Proteins resulting from L1 and L2 form the viral shell.

E6 and E7 encoded proteins are the most important HPV proteins in malignancy transformations. These viral proteins work together to convert normal host cells to malignant cells. E6 proteins interact with intracellular protein p53 and E7 proteins interact with intracellular retinoblastoma (Rb) protein. Intracellular proteins p53 and Rb regulate cellular growth. Both p53 and Rb are tumor suppressor proteins.

When chromosomal damage occurs in normal cellular growth, p53 halts cellular growth and allows DNA repair enzymes to repair damage. Rb also halts cellular growth in DNA damage by inducing apoptosis (cellular death). When HPV E6 proteins bind to p53 and HPV E7 to Rb, mutations accumulate, unchecked cellular growth occurs, and a state of chromosomal instability results. This instability and unregulated cellular growth increases the chance of forming malignant cells.

Viral E1, E2, and E5 encoded proteins may also damage cellular processes when HPV infects cells and can lead to malignant transformations.