Patterns of Infection

Question 1

Match the following terms to their definitions:

1) Viral pathogenesis

2) Acute infection

3) Persistent infection

A) pattern of infection whereby the viral infection is not cleared by the immune system (long-term infection). can be divided into multiple types (i.e. latent, asymptomatic, pathogenic). viral genomes may remain. no single mechanism!

B) adverse physiological consequences that occur as a result of viral infection of the host organism.

C) pattern of infection whereby virus particles produce rapidly & infection is resolved relatively quickly by the immune system (short-term infection).

Answer 1

Viral pathogenesis: adverse physiological consequences that occur as a result of viral infection of the host organism.

Acute infection: pattern of infection whereby virus particles produce rapidly & infection is resolved relatively quickly by the immune system (short-term infection).

Persistent infection: pattern of infection whereby the viral infection is not cleared by the immune system (long-term infection). can be divided into multiple types (i.e. latent, asymptomatic, pathogenic). viral genomes may remain. no single mechanism!

Question 2

The pathogenesis that may follow a viral infection relies on _______ ______ in addition to its impact on infected cells.

Answer 2

Several parameters

*ex: what tissue do the cells reside? what is the overall fitness of the host? what is the age & immunological history of the host?

Question 3

Match the following persistent patterns of infection to their definitions:

1) Persistent - Latent

2) Persistent - Asymptomatic

3) Persistent - Pathogenic

A) Virus production continues for the life of the host or in tissues where immune cells do not often patrol (symptoms may not be apparent)

B) Period of years separates primary infection and fatal appearance of symptoms; production of virus particles may be continuous or not detectable throughout life (HIV)

C) Periodic episodes of ACUTE INFECTIONS followed by QUIESCENT phase (little/no detection of viral particles); reactivation stimulated throughout host life (may result in virus particle production)

Answer 3

Persistent - Latent: Periodic episodes of ACUTE INFECTIONS followed by QUIESCENT phase (little/no detection of viral particles); reactivation stimulated throughout host life (may result in virus particle production)

Persistent - Asymptomatic: Virus production continues for the life of the host or in tissues where immune cells do not often patrol (symptoms may not be apparent)

Persistent - Pathogenic: Period of years separates primary infection and fatal appearance of symptoms; production of virus particles may be continuous or not detectable throughout life (HIV)

Question 4

Virus infections exhibit incubation periods. What is an incubation period?

Answer 4

The period of time before SYMPTOMS of disease appear following initial infection. During this period, viral genomes may be replicated & innate immune responses initiate production of cytokines (i.e. type I interferons)

Question 5

(T/F) Incubation periods for all viruses are the same!

Answer 5

False!

Incubation periods can vary significantly depending on the virus that establishes the infection.

Question 6

Match the order of a typical acute viral infection:

1) Step 1
2) Step 2
3) Step 3
4) Step 4
5) Step 5
6) Step 6

A) Establishment of infection after a certain threshold (specific to virus + host)

B) Clearing of virus and memory (B/T cells) produced during the adaptive response stored, providing long-lasting protection to subsequent infections

C) Entry of virus

D) Adaptive response, which causes a decline in the # of viral particles

E) Innate defences start to kick in

F) Induction of adaptive response after infection reaches the threshold

Answer 6

Step 1: Entry of virus

Step 2: Innate defences start to kick in

Step 3: Establishment of infection after a certain threshold (specific to virus + host)

Step 4: Induction of adaptive response after infection reaches the threshold

Step 5: Adaptive response, which causes a decline in the # of viral particles

Step 6: Clearing of virus and memory (B/T cells) produced during the adaptive response stored, providing long-lasting protection to subsequent infections

Question 7

What is common to persistent infections even though there is no single mechanism responsible for establishing them?

Answer 7

Persistent infection may be likely when viral cytopathic effects are minimized and host defences are suppressed.

A feature of establishing persistent infection is the REDUCTION OF HOST DEFENSES. Modulation of the adaptive immune response may perpetuate a persistent infection!

Question 8

How can viruses modulate the adaptive immune response and create a persistent infection?

Answer 8

Viral gene products may block presentation of viral peptides within MHC I complexes at several steps within the pathway (i.e. lowering expression of MHC I genes, blocking production of proteasome-derived viral peptides, interfering with MHC I biogenesis & transport to cell surface)

This type of immune modulation may prevent or delay elimination of virus by cytotoxic T cells!

Question 9

What do rhinovirus, rotavirus, and influenza virus have in common?

Answer 9

They cause acute infections!

Question 10

Match the following viruses to their associated disease:

1) Rhinovirus
2) Rotavirus
3) Influenza virus

A) respiratory tract infection
B) common cold
C) gastroenteritis

Answer 10

Rhinovirus: common cold

Rotavirus: gastroenteritis

Influenza virus: respiratory tract infection

Question 11

Which virus causes persistent LATENT infection?

Answer 11

Herpes simplex virus!

Question 12

Which one of the statements is true regarding latent infections?

1) Viral gene products that promote virus reproduction are continuously synthesized in large quantities.

2) Cells that contain the viral genome may be poorly recognized by the immune system.

3) The viral genome does not always persists intact within the infected cell.

Answer 12

2!

1) Viral gene products that promote virus reproduction MAY NOT BE continuously synthesized (or synthesized in SMALL quantities).

3) The viral genome PERSISTS INTACT within the infected cell to ensure productive infection may be initiated at a later time. Ensures that virus progeny may be transmitted to new hosts.

Question 13

How is the latent genome maintained in non-dividing cells vs dividing cells?

Is there any other mechanism?

Answer 13

Non-dividing cells: NON-REPLICATING CHROMOSOME

Dividing cells: AUTONOMOUS REPLICATING CHROMOSOME

It can also be INTEGRATED into host CHROMOSOME.

Question 14

What causes reactivation of latent infections?

Answer 14

Reactivation may be STOCHASTIC or may follow a certain type of insult (i.e. STRESS, TRAUMA).

The mechanism depends on specific virus.

Question 15

Human herpesvirus is an _______ virus with a ________ genome.

Answer 15

enveloped; dsDNA

Question 16

Briefly answer the following questions regarding the herpes virus:

1) What are two kinds and how are they transmitted?

2) Where does it cause infection?

3) What is the associated disease?

Answer 16

1) HHV-1: saliva & HHV-2: sexual contact & maternal-neonatal

2) Primary site of infection in epithelial mucosal cells. Latency established in sensory ganglia.

3) Skin vesicles or mucosal ulcers

Question 17

Match the following steps of a herpes simplex virus (HSV-1) infection cycle:

1) Step 1
2) Step 2
3) Step 3
4) Step 4
5) Step 5

A) Factors such as hormonal changes, environmental stress may REACTIVATE the virus

B) Immune responses are re-activated and CONTROLS LOCAL infection by KILLING epithelial cells, producing a NEW SORE.

C) HSV-1 infects EPITHELIAL CELLS and spreads to SENSORY NEURONS

D) Virus can then travel down the axons of the sensory neurons and RE-INFECTS the epithelial tissues

E) After immune response controls the epithelial infection, the virus persists in a LATENT STATE in the sensory neurons

Answer 17

Step 1: HSV-1 infects EPITHELIAL CELLS and spreads to SENSORY NEURONS

Step 2: After immune response controls the epithelial infection, the virus persists in a LATENT STATE in the sensory neurons

Step 3: Factors such as hormonal changes, environmental stress may REACTIVATE the virus

Step 4: Virus can then travel down the axons of the sensory neurons and RE-INFECTS the epithelial tissues

Step 5: Immune responses are re-activated and CONTROLS LOCAL infection by KILLING epithelial cells, producing a NEW SORE.

Question 18

(T/F) HSV-1 can spread from epithelial cell to cell.

Answer 18

True!

Question 19

Fill in the blanks regarding the establishment of latency of HSV-1:

Infection in epithelial cells at ________ surfaces.

Virus enters sensory neurons; _________ transported to the neuronal cell body via _________-based systems.

Viral DNA is released into the _______ _____ & _________.

This DNA persists in the neuronal cell nucleus; _________ ______ _____ is expressed.

Answer 19

Mucosal

Nucleocapsids; microtubule

Neuronal nucleus; circularizes

Latency Associated Transcript (LAT)

Question 20

Fill in the blanks regarding the REACTIVATION of HSV-1:

Viral gene _____ is initiated, and newly formed capsids are transported to the _______ ______.

Infectious virus is released from the _____ and infects ________ cells, resulting in recurrent infection and virus _________.

Answer 20

Expression; axonal termini

Axon; epithelial; shedding

Question 21

What are Latency Associated Transcripts (LATs)?

Answer 21

These transcripts are expressed during latent expression when lytic genes are blocked.

They contribute to gene silencing to maintain latent state!

Question 22

Match the steps of varicella-zoster virus infection:

1) Step 1
2) Step 2
3) Step 3
4) Step 4
5) Step 5
6) Step 6

A) Virus particles may then be released into the bloodstream again, causing a SECONDARY VIREMIA

B) Virus produced in skin infect SENSORY NERVE & spread to SENSORY GANGLIA where a LATENT infection is established

C) Infection of CONJUNCTIVA or MUCOSA of upper RESPIRATORY TRACT, followed by spread to LYMPH NODES

D) Reactivation may occur later in life; virus infects the skin which leads to HERPES ZOSTER (shingles)

E) Entry into bloodstream, causing PRIMARY VIREMIA (virus in the blood), which then target other organs such as LIVER & SPLEEN

F) Dissemination of virus to skin; leads to characteristic VESICULAR RASH (chicken pox)

Answer 22

Step 1: Infection of CONJUNCTIVA or MUCOSA of upper RESPIRATORY TRACT, followed by spread to LYMPH NODES

Step 2: Entry into bloodstream, causing PRIMARY VIREMIA (virus in the blood), which then target other organs such as LIVER & SPLEEN

Step 3: Virus particles may then be released into the bloodstream again, causing a SECONDARY VIREMIA

Step 4: Dissemination of virus to skin; leads to characteristic VESICULAR RASH (chicken pox)

Step 5: Virus produced in skin infect SENSORY NERVE & spread to SENSORY GANGLIA where a LATENT infection is established

Step 6: Reactivation may occur later in life; virus infects the skin which leads to HERPES ZOSTER (shingles)

Question 23

(T/F) The introduction of the varicella vaccine in 1995 reduced the number of varicella cases substantially.

Answer 23

True!

Hospitalizations and deaths in children declined by >95% once 2-dose programme was established.

Question 24

Clinical signs of viral disease (fever, aches, tissue damage, nausea) largely stem from the _____ ________ response to infection.

This damage is referred to as __________ (may be the price to pay by the hos to eliminate infection!)

Answer 24

Host’s immune

Immunopathology