Lecture 75 - Papilloma and Polyoma Viruses Flashcards
what are the common characteristics between Papilloma and Polyoma Viruses?
Structure: Naked icosohedrals
Double stranded circular DNA
Lytic, chronic, latent and transforming infections
Needs the host polymerase
Defined tissue tropisms
Polyoma-viridae
- what are two important viruses to know?
- Epidemiology?
- Transmission?
- Structure?
BK and JC Virus
81% seropositivity
Respiratory transmission
Nake Icosohedral; circular dsDNA
Polyoma Genome features:
- Early region
- late region
Early – large T antigen
- important for transcription; helps bind host polymerase with the promotor
- Also inactivates P53 and Rb
Late region – Structural genes (Vp1, 2,3)
JC Virus
- clinical manifestation
Progressive Multifocal Leukoencephalopathy –
Occurs in immunocompromised
Virus makes way to CNS
attacks oligodendrocytes — lytic phase leads to myelin destruction
Symptoms: dyscoridation, gait imbalance, cognitive dysfunction, vision changes, paresis; can mimic MS
BK Virus
- clinical manifestations
Multiplies in the UT
Associatd with nephropathy
hemorrhagic cystitis
HPV
- what is the most clinically important genera?
- strucutre
Alpha Papillomavirus – cutaneous and mucosal disease
Naked Icosohedral
DsDNA
High risk HPV types
Low Risk HPV types
High risk: 16 > 18 > 31, 33, 45, 52, 58
high grade lesions, cancer
Low Risk: 6, 11
low grade lesions, condylomas, papillomatosis
HPV
Epidemiology
Most prevalent STD
79 Million people affected world wide
Highest inceidence in 15-24 yo
5% of cancers world wide
Cervical cancer
oropharyngeal cancer
Highest overall in MSM
Transmission of HPV
Vaginal, anal, oral intercourse
Mother to child
Higher rates of transmssion from women to men
Most infections are transient (will clear in 2 years in 90% of cases)
HPV Genome
8kb
Unidirectional Transcription
Three regions:
Long Control Region – noncoding; regulatory elements
Early – 6 open reading frames – genes for replication, tx, immortalization and growth
Late – 2 open reading frames; structural; L1 and L2 of the capsid
Lifecycle of the HPV
“transcriptional cascade along squamous epithelial cell differentiation”
- Microtrauma – allows entry to the stratum basale; binds proteoglycan and integrans and engulfed via macroendocytosis
- Exists in the nucleus as an Episome
- Middle layers of the epidermis – early genes active. Genome amplification
Top layers – late genes activated; amplification and assembly
Very high copy number in the Keratinized layer
Release – virions released as dead cells keratinzed and shed. Not true lysis of the cell
HPV Integration
functionally important protein which is lost upon integration? what is the effect?
Episomally
E2 is very active – inhibits E6 and E7.
Upon Integration – loss of E2 activity: loss of E6 and E7 inhibition
E6 – degrades p53
E7 - Degrades Rb
Therefore higher chance of malignancy after integration
HPV Low grade Clinical Manifestations?
what HPV types are indicated ?
HPV 6, 11 – anogenital warts; may lead to CIN 1
HPV 1, 2, 4 - warts on hands and feet
HPV 6, 11, – cervical intreepithelail neoplasia (CIN1)
low grade lesions
not precancerous
HPV 6, 11 – Recurrent respiratory papillomatosis.
Rare
acquired via birth
Requires removal of reccurent llaryngeal tumors
cancerous manifestations of HPV
- where do they occur histologically?
epithelial transformation zones
epithelium goes from Columnar to squamous
Cervical/Anal Intraepithelial neoplasia 2 (CIN/AIN 2)
- –Moderate dysplasia (no more than 2/3s of epithelium affected)
- 40% regression
- -5% cancer
Cervical/anal Intraepithelial neoplasia 3 (CIN/AIN 3)
- -more dysplasia –more than 2/3s of epithelium affected; up to full thickness lesions
- -33% regression
- -12% cancer
Head and Neck cancer
-Tonsils, BOT and oropharynx
not necessarily transformation zones
HPV Persistence:
-definition of persistence?
what proteins in what HPV types are more likely to cause cancer ?
HPV 16, 18
E6 and E7
Define: detection of same HPV type more than twice over 6-12 months
Longer they persist, higher chance of integration
higher chance of malignancy
