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Chapter 25: Enveloped DNA Viruses

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Title: Chapter 25: Enveloped DNA Viruses


1
Chapter 25 Enveloped DNA Viruses
  • 3 major Enveloped DNA Virus Families
  • Herpesviridae
  • Poxiviridae
  • Hepadnaviridae (Chapter 26)

2
Herpesviridae
  • Largest family of DNA viruses that affects humans
  • Infections are very common viruses are
    ubiquitous
  • Once you get Herpes virus, you always have it
    always have the Herpes infection
  • 8 human herpesvirus species known, each w/
    ability to enter a latent state following
    1infection of their natural host be
    reactivated _at_ a later time.

3
Herpesviridae
  • General Characteristics of HerpesViruses
  • Icosahedral capsid enclosed in lipoprotein
    envelope
  • Tegument amorphous proteinaceous material lying
    between envelope and capsid
  • Contains virus-coded enzymes and transcription
    factors
  • Genome single molecule of linear, ds-DNA

4
Herpesviridae
  • Classification of HerpesViruses
  • a-Herpesvirinae (Herpes Simplex Virus group)
  • Rapid, cytolytic growth cycle establish latency
    in Nerve Ganglia
  • Lytic infections in permissive cells
    Fibroblasts Epithelial cells
  • Members HSV-1, HSV-2 and VZV
  • ß-Herpesvirinae (Cytomegalovirus group)
  • Slow replication cycle, resulting information of
    multinucleated, giant host cells
  • Latency established in non-neuronal tissues, 1
    lymphoreticular cells glandular tissues
  • Members HCMV, HHV-6 and HHV-7
  • ?-Herpesvirinae (Lymphoproliferative group)
  • Replicate in mucosal epithelium, where latency is
    also established
  • Induction of cell proliferation in lymphoblastoid
    cells
  • Members EBV and HHV-8 (recovered from Kaposi
    Sarcoma)

5
Herpesviridae
  • Nature of a-HerpesViruses
  • Large, enveloped ds-DNA viruses
  • Envelope obtained from host cell nuclear
    membrane released by exocytosis or lysis
  • Genome encodes for proteins that regulate viral
    mRNA synthesis by host cells DNA-dependent RNA
    polymerase
  • HSV genome also encodes for proteins that
    regulate DNA replication provides for own
    DNA-dependent DNA polymerase
  • Initially uses host cells DNA-dependent RNA
    polymerase to form viral mRNA, which is
    translated into early proteins, such as viral
    DNA-dependent DNA polymerase
  • Genome encodes for proteins that slow down or
    stop host cells ability to synthesize own DNA,
    RNA and proteins
  • Virus DNA replication assembly BOTH occur in
    nucleus
  • Virus buds thru nuclear membrane and is released
    from cell by exocytosis or lysis
  • When virus released, does NOT get envelop from
    plasma membrane of host cell it was already
    acquired from nuclear membrane

6
Herpesviridae
  • Summary of HSV Viral Cycle
  • Viral envelope glycoporoteins bind (adsorb) virus
    to host cell receptors
  • Fusion of viral envelope w/ host cell membrane
    removal of envelope and release of nucleocapsid
    tegument proteins into the cytoplasm
  • One tegument protein induces a host cell RNase
    that degrades host cell mRNA, shutting off host
    cell protein synthesis
  • Upon fusion, virion also releases proteins that
    promote initiation of viral gene transcription,
    thus beginning replicative cycle
  • Nucleocapsid is transported to a nuclear pore,
    thru which viral DNA is released into the
    nucleus. Another tegument protein is an
    activator of cellular RNA polymerase that causes
    the enzyme to initiate transcription of immediate
    early viral genes, coding for a variety of
    regulatory functions. Then delayed early viral
    genes expression enzymes for replication of
    viral DNA

7
Herpesviridae
  • Summary of HSV Viral Cycle
  • Early proteins facilitate transcription of
    viral genome and include the DNA-dependent DNA
    polymerase
  • Late proteins structural and synthesized after
    DNA replication
  • Acquisition of viral envelope
  • Newly synthesized envelope proteins accumulate on
    nuclear membrane
  • Nucleocapsids, now assembled, acquire their
    envelopes by budding thru nuclear membrane
  • Enveloped nucleocapsids exit the host cell via
    exocytosis or cell lysis (host cell dies)
  • Latency all herpesviruses can undergo this
    alternative infection cycle, entering a quiescent
    state from which they can be reactivated
  • Cells that promote latency semipermissive
    cells restrict viral transcription of early
    late proteins
  • Occurs in NERVE CELLS

8
Herpes Simplex Virus, Types 1 2
  • HSV infect most types of human cells
  • Lytic infection in permissive Fibroblasts and
    Epithelial cells
  • Latent infection in semipermissive neurons
  • HSV-1 HSV-2 gt common human pathogens that
    cause painful, but benign manifestations
    recurrent disease
  • CLASSIC manifestation of lesions is that of clear
    vesicle on an erythematous base, which progresses
    to pustular lesions, ulcers and crusted lesions

9
Herpes Simplex Virus, Types 1 2
  • Epidemiology
  • Reservoir humans w/ acute asymptomatic
    infection person is infected for a life-time d/t
    latency
  • HSV is an exclusive human disease
  • Mode of Transmission p-p via direct contact w/
    virus-containing secretions, both sexual
    non-sexual fingers exchange of oral fomites
    autoinnocualtion from oral/genital lesions to
    other body areas (e.g., eyes) contact w/ lesions
    on mucosal or cutaneous surfaces
  • Enveloped virus gt is readily inactivated by
    drying, detergents and other adverse conditions
  • Transmission of HSV-1 via kissing or
    saliva-contaminated fingers eating utensils,
    toothbrushes, drinking glasses
  • Typical transmission adult w/ active recurring
    lesion touches/kisses a child gt large s or
    virus are present in vesicular fluids exudate
    from ulcerative lesions
  • Transmission of HSV-2 is primarily by sexual
    contact
  • HSV-2 found in 10-15 cases of STDs in clinics
  • Also infected ?s can transmit virus to infants
    during delivery

10
Herpes Simplex Virus, Types 1 2
  • Pathogenesis
  • HSV-1 HSV-2 multiply in epithelial cells of
    mucosal surface onto which they were innoculated
    ? production of vesicles or shallow ulcers
    containing virus
  • Immune response via cytotoxic T-cells
    (lymphocytes) in immunocompetent indiv.
  • Latency usually estd. in regional ganglia as
    result of entry of infectious virions into
    sensory neurons that terminate _at_ site of infection

11
Herpes Simplex Virus, Types 1 2
  • Clinical Significance
  • HSV-1 generally causes lesion above waist
  • HSV-2 generally causes lesions below waist
  • Primary Infections of Upper Body
  • Lesions consists of vesicles shallow ulcers
  • Accompanied by fever, myalgia and malaise
  • Gingivostomatitis (Herpes Labialis) m/c
    symptomatic infection of upper body in children
  • Pharyngitis or tonsilitis m/c symptomatic
    infection in adults
  • Keratoconjunctivitis
  • HSV-1 infection of eye 2nd m/c cause of corneal
    blindness (after trauma), corneal scarring
  • Herpetic Gladiatorium
  • Herpes infection of the body d/t skin abrasions
  • Seen in wrestlers burn victims
  • Herpetic Whitlow
  • Herpes infection of fingers /or hands
  • Historically, dentist are _at_ high risk long
    history of exposure before wearing gloves
  • Chiropractors esp. working w/ pts w/ shingles

12
Herpes Labialis
  • m/c clinical disease caused by HSV-1
  • AKA cold sore or fever blister
  • Lesion
  • Clear vesicles on erythematous base, which
    ulcerates and crusts over
  • Location around mouth or oral cavity
  • Often re-occurs when virus buds from sensory
    neuron, specifically CN V2 (Maxillary Branch of
    the Trigeminal Nerve)
  • 1 infection
  • Sxs fever, pain and irritability usu. persist
    for 1 week, followed by gradual healing during
    2nd week
  • Virus passes along Nerve fibers to regional
    ganglia w/ Gingivostomatitis Trigeminal
    Ganglia involved and virus becomes sequestered in
    latent form there
  • Virus cant be detected in latent form no sxs
  • Recurrence of latent infection activation by
    emotional stress, trauma, UV-B sunlight, fear,
    cold winds, hormonal ?s
  • Virus moves ? nerve fiber to cause recurring skin
    lesions _at_ original inf. site

13
Herpes Simplex Virus, Types 1 2
  • Primary Infections of Upper Body
  • Herpetic encephalitis
  • VIREMIA allows spread of virus to CNS, brain in
    particular
  • Destruction of temporal lobe, causing seizures,
    focal neurological abnormalities, HA, fever
  • Untreated 70 mortality rate
  • Primary infections of Lower Body
  • Herpes genitalis Genital Herpes
  • Infection w/ HSV-2 involving urogenital skin
    mucous membranes
  • Majority of infections asymptomatic
  • Symptomatic infections painful, itching,
    vesiculoulcerative lesions upon genital tissue
  • Males glans or shaft of penis sometimes in
    urethra
  • Females vulva, cervix (mucoid discharge
    possible), perianal area, inner thighs and vagina
  • Accompanying by fever, malaise, myalgia,
    inguinal adenitis (lymph node swelling)
    possible b/c of transient viremia
  • Infections heal spontaneously in 2-4 weeks
  • Recurrent infections common, but milder than 1
    infection
  • Periodic recurrence d/t budding of HSV-2 from
    Sacral N. ganglia

14
Herpes Simplex Virus, Types 1 2
  • Latency virus infects innervating sensory
    neurons by retrograde transport to ganglia
  • HSV-1 in Trigeminal Ganglia (CN V2) for oral HSV
  • HSV-2 in Sacral or Lumbar Ganglia for Genital
    Herpes
  • Reactivation
  • Hormonal ?s, fever, STRESS, and physical damage
    to neurons gt all known triggers for viral
    reactivation and replication of latent virus
  • Stress causes reactivation of viral genome newly
    synthesized virions are transported ? the axon to
    nerve endings from which the virus is released,
    infecting the adjoining epithelial cells
  • Characteristic lesions produced in same area as
    1 lesions, but less severe
  • HSV-1 lesions occur as clusters of vesicles _at_
    border of lips Herpes labialis or cold sores,
    fever blisters frequency 0 ? several/year
  • HSV-2 genital infections occur w/ greater
    frequency (monthly), often asymptomatic, but
    still w/ viral shedding
  • Circulating Ab does NOT prevent recurrence

15
Herpes Simplex Virus, Types 1 2
  • Laboratory Identification/Dx
  • Clinical observation of the vesicular lesions
  • Isolation of HSV from tissue scrapping sample
  • Characteristic inclusion body in nucleus of
    infected cell can be stained Intranuclear
    inclusion body Cowdry Type A intranuclear
    Inclusion Body
  • Treatment/Prevention
  • Several antivirals drugs available that are DNA
    inhibitors none cure the latent infection, but
    can minimize asymptomatic viral shedding and
    recurrence of symptoms
  • Prevention by avoidance of contact w/ potential
    virus-shedding lesions safe sexual practice
  • No vaccine available

16
Varicella-Zoster Virus
  • Causative agent for varicella or chicken pox
  • Reactivation of the latent infection produces
    shingles
  • Classified in the a-Herpesvirinae subfamily of
    HSV
  • Similar to HSV, but has smaller genome,
    replicated slowly, infects narrower range of
    cells
  • Establishes latent infections in neurons
  • Recurrent infection along innervated dermatomes
  • Vesicular, blister-like lesions
  • Requires cell-mediated immunity to control and
    prevent
  • Epidemiology
  • 1 Mode of Transmission p-p, direct via
    respiratory droplets
  • 2 Mode of Transmission p-p, direct contact w/
    active vesicle
  • Systemically spread thru entire body by viremia
  • VZV differs from HSV in that it produces a viremia

17
Varicella-Zoster Virus
  • Pathogenesis
  • 1 infection in cells of respiratory mucosa
    epithelial cells fibroblasts
  • Cell-to-cell spreading to region lymph nodes
  • From lymph nodes to the blood 1 Viremia ? then
    virus to reticuloendothelial system, where it
    grows in liver, spleen, BM
  • 2 Viremia moves the virus from RES via the blood
    to entire body, including the skin
  • Symptoms include fever, malaise, and
    vesiculopustular rash that appears in successive
    crops beginning on head/neck, than thorax, and
    finally extremities

18
Varicella-Zoster Virus
  • Pathogenesis
  • Virus becomes Latent in semi-permissive cells of
    dorsal root ganglion (drg) /or cranial nerve
    ganglia (CN V in particular)
  • Antibody limits viremia spread, but cell-mediated
    immunity is required for complete resolution
  • Infection in adult is more serious than in
    children
  • Reactivation VZV replicated and is released
    along the neural pathways to the skin, causing a
    vesicular rash along the entire dermatome
    Shingles

19
Varicella-Zoster Virus
  • Clinical significance
  • Chickenpox (Varicella Primary Infection)
  • Childhood exanthem
  • Mild childhood disease w/ sxs of fever
    maculopapular rash (follows 14-day incubation)
  • Hallmark of Varicella Vesicle
  • dew-drop on rose pedal lesion small red spots
    in them
  • Becomes pustular crusts over, forming scab
  • Successive crops of vesicles appaer over 3-5
    days at any given stage, all lesions can be
    observed
  • Lesions begin on scalp, spread over the face
    neck to trunk, where they are most severe and
    noticeable

20
Varicella-Zoster Virus
  • Clinical significance
  • Shingles (Herpes zoster Recurrent infection)
  • Recurrent manifestation of VZV acquired earlier
    in life as chickenpox
  • Virus buds thru nerves along the dermatomes or
    along CN V
  • Painful vesicular lesions having a erythematous
    base develop along these nerve
  • Postherpetic neuralgia
  • Chronic pain along the dermatomes, which persists
    from years following a bout of shingles
  • Occurs in 30 pts gt65 yao

21
Varicella-Zoster Virus
  • Laboratory Identification/Dx
  • Cytology
  • Presence of Cowdry Type A intranuclear Inclusion
    Bodies
  • Tznack smears from base of vesicles reveal
    multinucleated giant cells (syncytia formation)
  • Ag detection
  • Serology presence of IgM or 4-fold ? in IgG
  • Treatment/Prevention
  • Inmunocompromised antiviral drug
  • VZ Ig vaccination in susceptible individuals
    (immunocompromised) no effect on zoster

22
Human Cytomegalovirus
  • Member of the ß-Herpesvirinae subfamily of
    Herpesvirinae family
  • Is the LARGEST known virus to infect humans
    largest genomes of all herpesviruses
  • Longer replication cycle and infected cells are
    greatly enlarged and mulitnucleated
  • Cytomegalo cell of great size name for classic
    cytomegalic inclusion disease derives from
    propensity for massive enlargement of
    CMV-infected cells

23
Human Cytomegalovirus
  • Nature of the organism
  • Linear, ds-DNA housed in icosahedral capsid
  • Lipid envelope contains gps that facilitate
    attachment and entry into host cell
  • Pathogenesis
  • CMV is lymphotrophic affinity for lymphocytes
  • Replicates only in human cells
  • Permissive cells fibroblasts, epithelial cells,
    macrophages
  • Semi-permissive cells mononuclaer lymphocytes,
    stromal cells of BM, leukocytes cells of kidney,
    heart, lung
  • CMV readily establishes persistent and latent
    infections

24
Human Cytomegalovirus
  • Pathogenesis
  • Replicative cycle same as for other
    Herpesviruses
  • Occurs in epithelial cells and virus is shed in
    most body fluids (Viremia when into blood)
  • Virus then infects lymphocytes and macrophages
  • Latent infection is established in mononuclear
    lymphocytes and fibroblasts in organs, such as
    Kidney, Heart, and Lung
  • Reactivation d/t various factors like
    immunosuppresion
  • Reactivation often follows blood transfusion and
    organ transplants

25
Human Cytomegalovirus
  • Epidemiology
  • Infection in children is usually asymptomatic
  • Virus is shed in tears, urine, saliva, semen,
    breast milk, vaginal secretions virtually any
    body fluid
  • Transmission is by intimate contact w/ these
    bodily fuilds saliva m/c
  • Transmission also by sexual intercourse, blood
    transfusion, organ transplants CMV can also
    cross placenta and infect neonate in utero of
    newborn via breast milk
  • Mode of Transmission p-p direct (slivary
    droplet), vertical (congenital), direct (sexual),
    blood transfusion, tiss/organ transplant

26
Human Cytomegalovirus
  • Clinical Significance
  • Cytomegalo Inclusion Disease
  • Asymptomatic Infection
  • In most healthy people no symptoms
  • If sxs develop mono or hepatits
  • Mononucleosis Syndrome
  • Similar to EBV w/ atypical lymphocytosis
  • Mild pharyngitis and variable lymphadenopathy
  • Sxs malaise, myalgia, fever, liver dysfunction,
    lymphocytosis, subclinical hepatitis
  • Heterophile-Negative Mononucleosis
  • Distinguishes Heterophile-Positive Mononucleosis
  • Hepatitis
  • Liver dysfunction similar to hepatitis, but NO
    evidence of hepatitis virus

27
Human Cytomegalovirus
  • Clinical Significance
  • Congenital
  • HCMV is the m/c intrauterine viral infection
  • Vertical transmission mother ? infant
  • Virus crosses placenta from mothers blood
    primary infection
  • Virus ascends from cervix during reoccurrence
  • CMV is the most prevalent viral cause of
    congenital disease
  • Pathology
  • Microencephaly
  • Intracerbral calcifications
  • Hepatosplenmegaly
  • Rash

28
Human Cytomegalovirus
  • Clinical Significance
  • Transfusion Transplantation Recipients
  • Mononucleosis or hepatitis following blood
    transfusion
  • Virus is frequently transmitted reactivated in
    organ transplants
  • Immunocompromised patients
  • 1 and 2 infections may occur in pts w/
    decreased cellular immunity
  • Cancer pts
  • AIDS pts

29
Human Cytomegalovirus
  • Laboratory Identification/Dx
  • Cytology
  • Cytomegalic cell hallmark
  • Enlarged cell in which nucleus contains a dense,
    central, basophilic intranuclear inclusion body
    resembled Owls Eye
  • Ag detection
  • PCR analysis
  • Enzyme of fluorescent labeled monoclonal Ab
  • Serology
  • Looking for IgM or IgG Abs
  • Culture
  • CMV grows in diploid-fibroblast cell cultures
  • Characteristic CPEs seen in 4-6 weeks
  • Not routinely done

30
Human Herpesvirus Type 6 7
  • Members of ß-Herpesvirinae
  • Both are causative agents of Roseola Infantum
    (exathem subitum)
  • Lymphotrophic and ubiquitous
  • 45 of U.S. children are seropositive by age 2
  • An infection of T-cells
  • Symptoms
  • Rapid onset of fever to 103-105F may last 4-5
    days
  • Fever is followed by generalized rash (exathem)
    in 24 hours lasts 24-48 hours
  • Rash is d/t delayed hypersensitivity of T-cell
    activation in the skin
  • T-cells resolve the infection, but virus may
    remain latent in T-cells for a life time.
  • HHV-6 is also a co-factor in AIDS pts causing
    Mono or lymphadenopathy
  • Early HIV co-infection w/ HHV-6 Terminal HIV
    (encephalitis)
  • Virus is shed via oral secretion for adults to
    children

31
Human Herpesviruse Type 8
  • Does not occur as frequently as the other herpes
    viruses in the normal, healthy population
  • Virus genome /or viral proteins have been
    detected in gt90 of pts w/ Kaposi Sarcoma

32
Epstein-Barr Virus
  • Member of ?-Herpesvirinae subfamily of
    Herpesvirinae family of DNA viruses
  • Ubiquitous virus
  • Etiological agent for Infectious Mononucleosis
    (kissing disease) in young adults
  • Nature of the organism
  • Enveloped virus w/ linear, ds-DNA
  • Easily disrupted by acids, detergents and
    desiccation transmission is effectively
    accomplished via intimates contact and saliva
  • DNA core surrounded by icosahedral nucleocapsi
  • Very limited host range affinity for C3d
    component of C system C3d is expressed on
    B-cells and epithelial cells of oropharynx and
    nasopharynx

33
Epstein-Barr Virus
  • Epidemiology
  • Reservoir humans, EBV only infects humans
  • Humans can be both symptomatic asymptomatic
  • Mode of Transmission p-p, direct, saliva
    intimate oral contact
  • Is kissing disease b/c increased incidence in
    adolescents and young adults who exchange saliva
  • 70 of U.S. population is infected by age 30
  • 100,000 college undergraduate students infected
    each year
  • Children w/ subclinical disease infected _at_
    early age by sharing drinking glasses from
    parents
  • High risk for lymphoproliferative disease
    disorders initiated by EBV in
  • Transplant pts who are immunocompromised
  • Genetically immunodeficient patients
  • AIDS patients

34
Epstein-Barr Virus
  • Pathogenesis
  • Productive infection of B-cells of oropharynx gt
    promotes shedding of virus into the saliva then
    transmission of virus to other hosts
  • Viremia is established to spread the virus to
    other B-cells in lymphatic tissue and blood
  • EBV is a B-cell mitogen stimulated growth
    prevents apoptosis stimulated rapid growth of
    B-cells
  • Interaction between the B-cell and EBV does NOT
    destroy the B-cell, but rather transforms the
    B-cell. The transformed B-cells contain many
    copies of EBV DNA, proliferate rapidly and have
    EBV Ags on cell membrane

35
Epstein-Barr Virus
  • Pathogensis
  • LYTIC infections occur in permissive cells,
    mostly epithelial cells
  • LATENT infections occur in semipermissive
    B-cells or non-permissive B-cells
  • 2 infection subtypes in this subfamily
  • EBV-1
  • EBV-2

36
Epstein-Barr Virus
  • Clinical Disease
  • Infectious Mononucleosis
  • m/c manifestation of EBV Kissing Disease
  • Incubation period 3-7 weeks
  • Onset is gradual, up to 1 week in duration
    (malaise, HA, fatigue, Low grade fever)
  • Acute phase 1-3 weeks in duration
  • Intermittent high fever, generalized weakness,
    severe sore throat, swollen lymph nodes, atypical
    lymphocytes

37
Epstein-Barr Virus
  • Clinical Disease
  • Infectious mononucleosis
  • Summary of Signs Symptoms m/c complaint
    FATIGUE
  • High fever
  • Generalized malaise
  • Exudative pharyngitis and tonsilitis
  • Lymphademopathy - lymph node swelling
  • Often heptosplenomegaly enlargement of liver
    and spleen
  • Occasional rash
  • Lymphocytosis gt ??? of T-lymphocytes in blood
  • 10-80 of these are atypical Atypical
    Lymphocytes or Downey Cells enlarged T
    lymphocytes w/ eccentric nuclei and vacuolated
    cytoplasm
  • Heterophile () Heterophile Ab specific for EBV
  • Nonspecific Abs, including IgM Ab, that
    recognizes Paul-Bunnel Ag on sheep, horse and
    bovine Erythrocytes (RBCs)

38
Epstein-Barr Virus
  • Clinical Disease
  • Infectious Mononucleosis
  • Rarely fatal in healthy people, but can cause
    serious complications
  • Neurological disorders
  • Laryngeal obstruction
  • Splenic rupture
  • Meningoencephalitis
  • Guillian-Barre Syndrome (ascending paralysis)

39
Epstein-Barr Virus
  • Other Clinical Diseases
  • Chronic mono-like disease
  • Characterized by chronic fatigue low grade
    fever, HAs and sore throat may also be present
  • Lymphoproliferative diseases
  • Hairy Oral Leukoplakia
  • Productive infection of epithelial cells in
    mouth, esp. tongue
  • An opportunisitic manifestation that occurs in
    AIDS pts
  • (African) Burkitts Lymphoma
  • m/c outcome of EBV exposed to non-permissive
    B-cells get tumor formation (lymphoma) B-cell
    proliferation in lymphatics of the jaw face
    mostly seen in children
  • Adults may occur in abdomen get abdominal
    tumors
  • Malaria seems to enhance this in Africa endemic
    in children living in Malaria regions of
    Sub-Saharan Africa

40
Epstein-Barr Virus
  • Other Clinical Diseases
  • Lymphoproliferative Diseases
  • Hodgkins Lymphoma
  • Expression of EBV outside Africa
  • Sxs similar to B.L.
  • Nasopharyngeal carinoma
  • Seen in Chinese males
  • Tumor of epithelial origin
  • Lymphocytic pneumonia

41
Epstein-Barr Virus
  • Laboratory Clinical Dx
  • Based on symptoms
  • The finding of atypical lymphocytes (Downey
    Cells)
  • Persistence of lymphocytosis, Herterophile Ab,
    and Ab to EBV Ags
  • Sxs extreme fatigue, pharyngitis, lymphadenosis
    (swollen lymph nodes), high fever,
    hepatosplenomegaly gt adolescent, young adults
  • Lymphocytosis 60-70 mononuclear cells w/ 30
    Atypical lymphocytes Earliest indicator of
    disease
  • Ag detection DNA probes, immunofluorescence
  • Serology
  • Heterophile Ab is present by end of 1st week and
    is EXCELLENT indicator of EBV infection in adults

42
Epstein-Barr Virus
  • Treatment Prevention
  • No effective tx for EBV no viral vaccine
  • Bed rest is BEST during acute phase
  • In children less severe infection ? immunity
    developed lifelong early exposure may be a
    means of preventing more severe infections and
    symptomatic disease.
  • Contact physical activities should be avoided b/c
    a swollen spleen could rupture

43
Poxviridae
  • Variola virus etiological agent for Small Pox,
    which has been eradicated!
  • Small pox 1st disease to be controlled by
    immunization its eradication is one of the
    greatest triumphs of Medical Epidemiology
  • Variola virus only DNA virus that replicates in
    the CYTOPLASM
  • Virion carries its own DNA-dependent RNA
    polymerase to allow for viral replication to
    occur in the cytoplasm
  • Inclusion bodies (Guariniers) serve as sites of
    DNA replication in the cytoplasm (Cytoplasmic
    Factories)
  • Clinical
  • Small Pox eradicated
  • Molluscum Contagiosum
  • Only poxvirus disease seen today
  • Etiological agent Molluscum contagiosum virus
  • Benign epidermal tumor that occurs only in humans
  • Appears as papules nodules on skin have
    central casseous plug that can be squeezed out
    (expressed)
  • M/c on trunk, genitalia, proximal extremities
  • Lesions itch - autoinnoculation
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