Viral Pathogenesis I 2023 PDF

Summary

This document is a lecture presentation on viral pathogenesis, focusing on the mechanisms by which viruses cause diseases and their interactions with host cells.

Full Transcript

Viral Pathogenesis I

Department of Microbiology
College of Medicine, IAU

Thursday, December 7, 2023

Learning objectives
✓Revisit the principles of viral pathogenesis
✓Describe mechanisms of viral pathogenesis and
their clinical significance including
–
–
–
–

Latency
Transformation
Chronic infection
Evolution of viruses and evasion of immune
system

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Viral pathogenesis
▪ Processes by which viral infections cause
diseases
▪ Involve virus–host interactions at the cellular and
systemic level that determine whether a virus will
cause a disease, what form that disease takes,
and how severe the disease
will be.
EEE

▪ Pathogenesis of each virus is unique, yet there
are several common points in the virus life cycle
that are shared between all pathogenic viruses
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Viral pathogenesis

chicken
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salivaryglands

At cellular
level
▪ Tropism:

susceptibility,
permissiveness,
and accessibility

▪ Viral replication
leading to:
– Release of
EE4 new virion
– Antigenic
variation
– Morphological
changes
morphological

changes

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4
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Cellularsite of viral replication

k

r
DNA
viruses

be
cytogfication

Replicate in
the
cytoplasm.

need to
translocate
to nucleus
for
replication.

Exception
influenza virus
and
retroviruses.

Exception
poxvirus.

Exception influenza virus Retroviruses

DNA virus
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RNA viruses

need intrastate

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Viral Pathogenesis I & II

6

I

pause

Viral pathogenesis
What are the scenarios of virus infection?
What happens to the cell after virus infection?

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Outcomes of Viral Infection
I

1. Failed infection - abortive
2. Lytic: – cytolytic/cytocidal infection resulting in host
cell death
3. Non-lytic productive infection
4. Persistent
✓ Chronic - carrier of virus
✓ Latent/Subclinical - presence of viral genome with
no active replication, reactivation is possible
✓ Transforming (Oncogenesis)
✓h Slow infection

i

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fhhispossible

Rea

1

2

3

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Tumor cell division,
Transformation into tumor
eg HPV

Lytic infection. Cell
destroyed as a result of
virus infection, eg influenza

Persistent/chronic infection no
integration of genome, cell remains
viable even though infected, eg. HCV

Latency can be reactivated
resulting in complete virus
replication

4
Latent infection ± integration of genome, cell remains viable even though
infected. Virus does not complete full cycle of replication, limited expression of
some gene products (latency associated) eg HIV, herpesviruses
Fig. 9.22: Brock, Biology of Microorganisms. Madigan et al. (eds.) 13th edition 2012.
Fig. 5.16: Prescott’s Microbiology. 8th edition. 2011.
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9

But
in most cases virus infection is self-limiting
Immune response develops against the
invading virus and patient recovers with few
exceptions…………….

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Pathogenesis of Some DNA and RNA
Viruses
• Herpes simplex viruses (HSV)
• Human papilloma virus (HPV)

DNA

• Hepatitis C virus (HCV)
• Human immunodeficiency virus (HIV)
• Influenza virus
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Run

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DNA viruses

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Viral Pathogenesis I & II

12

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Families of DNA Viruses

Papillomaviridae

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HERPES SIMPLEX VIRUS
(HSV)
0

HSV

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Herpes Simplex Virus (HSV)

I

• Belong to the family Herpesviridae
• Enveloped icosahedral virus with
dsDNA virus
• 2 types: HSV-1 and HSV-2
• Establish latent infection
in
its
sensory ganglia

HSVIT.ve
Establish latent infection in

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sensory Ganglia

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Herpes simplex viruses
▪ 2 types: HSV-1, HSV-2

HSV -1
upperpart
Predominant Causative
agent of herpetic
gingivostomatitis,
pharyngitis, tonsilitis

Most common cause of
sporadic encephalitis
(except neonate)

HSV-2

a

Predominant causative
agent of genital herpes

More likely to cause
encephalitis in neonate
seroustnfa.atBrain

More likely to reactivate
▪ Both HSV-1 and 2 can cause oropharyngeal and genital infection. Generally, HSV-1
causes infection above the waist and HSV-2 below the waist
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Epidemiology
▪ HSV-1 and HSV-2 are ubiquitous
▪ Transmission occurs via direct contact with vesicular
lesion and infectious fluid
▪ HSV-1 global prevalence of 66.6% in 0–49-year-olds
(More than 3.7 billion)*.

▪ 13.2% of the world’s population aged 15–49 years
are HSV-2 seropositive*
*James C, Harfouche M, Welton NJ, Turner KM, Abu-Raddad LJ, Gottlieb SL, Looker KJ. Herpes simplex virus: global infection
prevalence and incidence estimates, 2016. Bull World Health Organ. 2020 May 1;98(5):315-329. doi: 10.2471/BLT.19.237149. Epub
2020 Mar 25. PMID: 32514197; PMCID: PMC7265941.
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Pathogenesis of HSV
▪ Once inoculated, virus
replicate in mucosal
epithelium -vesicles
(primary infection)

▪ Vesicular lesions:
6 ballooning degeneration of
intraepithelial cell with fluid
accumulation
▪ Ulcerate-scab

▪ Heals with no scaring
▪ Virus gain access to sensory
nerve ending……ganglion
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Pathogenesis of HSV
• HSV-1 is maintained in the trigeminal ganglia
while HSV-2 is latent in sacral or lumbar ganglia.
(Latency)
• During latency, the virus is dormant and cannot
be transmitted.
• Reactivation of viruses after primary infection
occurs at or near the same site and occurs
despite immunity developing

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Clinical Presentation
3 stages:
• 1ry infection: usually subclinical,
gingivostomatitis, pharyngitis, tonsilitis, genital
herpes
• Lesions are watery blisters typically of the
mouth, lips, genital area and heal with a
scab. 10-14 days
• Sometimes, HSV-1 can infect eyes, CNS
• Latency: asymptomatic

o

• Reactivation

IIETfng

Usually subclinical
gingivostomatitis
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R.ee

tintin

Aymptomatil

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I

tdI

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nope

Latency and Reactivation of HSV
Latency
• Is the retention of the viral genome in the nucleus of a cell for an
extended period without production of infectious virions. Limited
gene expression can occur during latency, but no infectious virus is
produced. Genome can be maintained as a non-integrated
episome (circular DNA) in the nucleus

Reactivation
• Is defined as the time at which virion formation occurs and new
viruses are released. Switch in gene expression away from genes
that may promote latency towards the expression of genes
required for genome replication and structural protein expression.

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Ganglia

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During lytic replication of the virus
after primary infection
Gene expression occurs in a defined temporal pattern.
1.Immediate early IE
2.Early
3.Late
• Lytic replication dependent on expression of IE genes

• IE genes are responsive to a viral protein that surrounds
the capsid called VP16 (tegument protein)
• VP16 is transported to the nucleus and forms a complex
with cellular proteins that begin transcription of IE genes
• Following nuclear entry, the dsDNA genome circularizes.
•The latency associated genes (LAT) are expressed and
virus then goes into latency

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Viral Pathogenesis I & II

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Latency Maintained by Latency Activated
nucleus
Transcripts (LAT)
• Only genes expressed during
latency are the LATs. All viral lytic
genes are repressed
• Expression of LATs inhibits
programmed cell death (apoptosis)
thus promoting survival of infected
cells.

Latent viral episomes binding
to the cellular chromatin
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How does the virus stay latent
without being detected ?
Immune Evasion of HSV: A Key to Pathogenesis.

•

For HSV, multiple strategies of immune evasion have evolved:
1. Virion host shut off protein (vhs) and infected cell protein 0 (ICP0): inhibit
type I interferon-mediated responses in infected cells
2. glycoprotein C: binding and inactivation of C3b component of complement
3. glycoprotein E: Fc binding ability
4. HSV encoded protein ICP47 binds the MHC class I TAP transporter.

• The combination of these strategies enables the virus to survive
despite our immune systems

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HSV Protein ICP47 Binds at High
Affinity to the TAP Transporter
Transporter associated with
antigen processing (TAP):
It delivers cytosolic peptides
into the endoplasmic reticulum
(ER), where they bind to
nascent MHC class I
molecules.
ICP47 binds to TAP and
inhibits transport of virus
peptide and therefore inhibits
its presentation to the immune
system
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ICP47

26

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Reactivation from Latency
• Cellular factors and external stimuli
✓ UV light
✓ Stress, fever, tissue damage, immune
suppression
• Infectious virus is transported anterograde back
to the periphery and infects epithelial cells
• Reactivation can occur in the absence of clinical
symptoms- asymptomatic reactivation
• In HSV-2, asymptomatic reactivation and virus
shedding occurs on 25% of days. very important
means of transmission

E

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Human Papilloma Virus

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Human Papilloma Virus
• Belong to Papillomaviridae
• Virions are non-enveloped 55nm
in diameter Icosahedral capsid
• ds DNA, circular, between 6.8kb8.4kb
• Causative agent of benign to
potentially malignant
proliferative lesions

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Epidemiology
▪ Ubiquitous virus- estimated that up to 80%
of people
so
are exposed to HPV
F

▪ Classified in to >200 types, mucosal and cutaneous
lesions
▪ One of most common Sexually transmitted diseases

▪ Causes cervical cancer ,the fourth most common
cancer among women globally (WHO)

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▪ Based on associated with cervical cancer
Eicalvirus

– High-risk – This includes HPV 16, 18, 31,
33, 35, 39, 45, 51, 52, 56, 58, 59, and 68
– Low-risk – 6, 11, 40, 42, 43, 44, 53, 54, 61,
72, 73, and 81

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Transmission
– Direct contact
– Sexual contact
– During birth from infected birth canal

II.eu tTuving
interleaved

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Clinical Manifestations
– Many are subclinical
– Skin warts: plantar, common and flat
warts, epidermodysplasia verruciformis
– Benign head and neck tumors:
laryngeal, oral and conjunctival
papilloma
– Anogenital warts, condyloma
acuminatum and cervical
intraepithelial neoplasia
– cervical cancer
Flart

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Human Papillomavirus (H PV) :Formation
of a Wart by Cell Proliferation
Skin epithelium

Stratum
corneum

Differentiating cells become permissive
for vegetative viral DNA replication

Viral DNA
(episome)
Papilloma virus
infection
•

Basement
epithelium (nonpermissive)

Benign transformation

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Human Papillomavirus (H PV): Formation of a Wart by Cell
Proliferation

Cells proliferate locally,
differentiate and cause wart
or papilloma

Early viral gene expression
Some HPV types can progress to malignancy via genome integration and
continued cell replication along with accumulating mutations
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HPV -16 and HPV -18 are Associated With
Cervical Squamous Neoplasia
Growth enhancement due to E6 and E7 gene products
-inactivate normal functions of the p53 and Rb proteins (tumor suppressor proteins)
-HPV E6 protein binds to cellular p53 protein to form a complex which neutralizes the normal response of
cervical epithelia to DNA damage (apoptosis mediated by p53)
-HPV type 16 and 18-specific E7 protein bind retinoblastoma gene product, affecting its tumor suppressor
role

Oncogenic transformation is coincident with integration of papillomavirus DNA into cellular DNA,
- expression of E6, E7 without virus production, possible progression to neoplasia,
- as these transformed cells continue to divide, they accumulate mutations that eventually allow them
to spread to and invade other tissues, and form disseminated tumors (metastasis).
In the case of benign warts in the skin and elsewhere, either inactivation of the p53 and Rb proteins is not so
profound, or the stimulated cells are so close to death in their terminally differentiated state that they
cannot become cancerous.

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Pathogenesis of HPV
▪ Infects epithelial cells of skin and
mucus membrane
▪ Replication depend on the stage of
epithelial cell differentiation
▪ Cause benign overgrowth of cells
into warts
▪ Some types are associated with
dysplasia that may become
cancerous

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Progression to cervical cancer?

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Summary
▪ Viruses have different effect on infected cells (lysis,

persistence, latency, transformation)
virus which

establishlatency

in

sensoryganglion

▪ HSV is a virus which establish latency in sensory
ganglion utilizing multiple immune evasion
mechanisms and can reactivate
▪ HPV, the causative agent of cervical cancer, causes
a wide variety of clinical manifestations (benign to
malignant)
16 18
▪ Persistence of high-risk HPV can lead to
development of anogenital cancers
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