Human herpesviruses - PowerPoint PPT Presentation

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Human herpesviruses

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Title: Human herpesviruses


1
Human herpesviruses
  • Three subfamilies (genome structure, tissue
    tropism, cytopathologic effect, site of latent
    infection)
  • Alphaherpesvirinae
  • Human herpesvirus 1 Herpes simplex type 1 HSV-1
  • Human herpesvirus 2 Herpes simplex type 2 HSV-2
  • Human herpesvirus 3 Varicella-zoster virus VZV
  • Gammaherpesvirinae
  • Human herpesvirus 4 Epstein-Barr virus EBV
    Oncogenic
  • Human herpesvirus 8 Kaposis sarcoma related
    virus HHV-8 Oncogenic
  • Betaherpesvirinae
  • Human herpesvirus 5 Cytomegalovirus CMV
    Congenital inf
  • Human herpesvirus 6Herpes lymphotropic virus
    HHV-6
  • Human herpesvirus 7 Human herpesvirus 7 HHV-7

2
Human herpesviruses
  • Large, enveloped double stranded DNA viruses
  • Icosahedral capsid
  • Sensitive to acid, solvents, detergents and
    drying

3
Human herpesviruses
  • They have common
  • Virion morphology
  • Basic mode of replication
  • Capacity to establish latent and recurrent
    infections, in case of EBV immortalizing
    infections
  • Ubiquitous
  • Usually cause benign disease especially in
    children
  • In immunosuppressed people they cause significant
    morbidity and mortality

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6
Human herpesviruses
  • -DNA polymerase -viral DNA replication -good
    target for antiviral drugs.
  • -DNA replication and assemblynucleus
  • -buds from nuclear membrane, released by
    exocytosis and cell lysis.
  • -lytic,persistant, latent, for EBV immortalizing
    infections

7
Herpes simplex virus
  • Two types HSV-1 and HSV-2
  • HSV can infect most types of human cells and even
    cells of other species.
  • Lytic infection of fibroblasts and epitelial
    cells but latent infection of neurons
  • The primary target cell mucoepitelial cells
  • Site of latency neurons

8
Herpes simplex virus
  • Means of spread HSV-1 close contact, HSV-2 close
    contactsexual transmission!
  • Generally cause infection at the site of
    infection
  • HSV-1 infections above the waist
  • HSV-2 infections below the waist
  • Growth characteristics are different
  • HSV-2 more potential for viremia

9
Herpes simplex virus
  • Disease initiates by direct contact, depends on
    the infected tissue (oral, brain, genital)
  • Direct cytopathologic effect
  • Lytic infections of most cells, latent infection
    of neurons(hides from immune response)
  • Cell to cell spread-syncytia(avoids antibody)
  • Cowdry type A acidophilic intranuclear inclusion
    bodies

10
Herpes simplex virus
  • Initiates infection through mucosal membranes or
    breaks in the skin
  • Virus replicates in the cells at the base of the
    lession and infects the innervating neurons
  • Travels by retrograde transport to the ganglion(
    trigeminal ganglion for oral HSV, sacral ganglia
    for genital HSV)

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Herpes simplex virus
  • Then turns to initial site of infection
  • May be inapparent or vesicular( vesicle fluid
    contains infectious virons)
  • Tissue damage viral pathologyimmunopathology
  • Heals without a scar
  • Latent infection occurs in neurons

13
Herpes simplex virus
  • Recurrence stress, trauma, fever, sunlight)
  • The virus travels back down the nerve causing
    lessions at the dermatome
  • Recurrences are less severe and more localized

14
  • HSV-1 is common
  • 90 have antibody by 2 years of age
  • HSV-2 occurs later in life with sexual activity
  • Physicians,nurses,dentists at risk for infection
    of fingers (herpetic whitlow)
  • Immunocompromised people and neonates at risk of
    disseminated, life-threateneing disease.

15
Laboratory diagnosis
  • Cytology and histology Tzanck smear(scraping of
    the base of a lesion), Papanicolaou smear or
    biopsy specimen
  • Cytopathic effects syncytia, ballooning of
    cytoplasm, Cowdry A intranuclear inclusions
  • Direct antigen detection immunofluorescence
    method or immunoperoxidase method
  • DNA in situ hybridization or PCR in tissue or
    vesicle fluid

16
Laboratory diagnosis
  • Virus isolation not routine now
  • Serologyprimary infection, type specific
    antibody by ELISA (differentiates HSV-1 and HSV-2)

17
Varicella-Zoster
  • Chickenpox(varicella)
  • With recurrence herpes zoster-shingleszona
  • Primary target cell mucoepitelial cell
  • Site of latency neuron
  • Means of spread respiratory and close contact
  • Viremia occurs after local replication skin
    lessions over the entire body

18
Varicella-Zoster
  • Primary VZV infection mucosa of respiratory
    tract
  • Viremia
  • Reticuloendotelial system,liver,spleen
  • 11-13 days later secondary viremia
  • Virus is spread through the body and
    skinrashfeversystemic symptoms

19
Varicella-Zoster
  • Latent in dorsal root or cranial nerve ganglia
    after primary infection
  • Reactivates in older adults and in patients with
    impaired immunity.
  • On reactivation a vezicular rash along the
    entire dermatome
  • Children and leukemia VZV more serious and more
    disseminated disease

20
Varicella-Zoster
  • Extremely communicable
  • Rates of infection exceeds 90 among household
    contact
  • Contagious before and during symptoms.
  • HZ develops in 10-20 of people infected with VZV
    and contains viable virus.

21
Varicella-Zoster
  • Laboratory diagnosis
  • Cytology
  • Virus isolation difficult
  • NAT
  • Serology
  • Treatment
  • ACV,famciclovir and valacyclovir
  • Prophylaxis VZIGvaricella-zoster
    immunoglobulinimmunosuppressed patients
  • A live attenuated vaccine(Oka strain)

22
Epstein-Barr Virus
  • Heterophile antibody-positive infectious
    mononucleosis
  • Chronic disease
  • Associated with endemic Burkitts lymphoma,
    Hodgkins disease, nasopharyngeal carcinoma,
    B-cell lymphomas in patients with acquired or
    congenital immunodeficiencies.
  • Hairy oral leukoplakia
  • Mitogen for B cells and immortalizes them

23
Epstein-Barr Virus
  • Gammaherpesvirinae
  • Primary target cell B cells and epitelial cells
  • Site of latency B cell
  • Means of spread saliva (kissing disease)
  • Limited host range and tissue tropism receptor
    for C3d component of the complement system (CR2
    or CD21) which is expressed on B cells of humans
    and some epitelial cells of oro- and nasopharynx.

24
EBV-associated neoplasms
  • Geographic distribution
  • Co-factor?
  • Endemic Burketts lymphoma Africamalaria
  • Nasopharyngeal carcinoma China

25
Laboratory diagnosis
  • Heterophile antibody results from nonspecific
    activation of B cells by EBV
  • IgM antibody recognizes Paul-Bunnell antigen on
    sheep, horse and bovine erythrocytes not on
    guinea pig kidney cells
  • Detected at the end of first week , lasts for
    several months
  • Monotest, ELISA specific antibodies
  • VCA-IgM, antibody to early antigen (EA) recent
    infection
  • VCA-IgG, EBNA previous infection
  • PCR

26
Cytomegalovirus(CMV)
  • Betaherpesvirnae lymphotropic
  • Primary target cell monocyte, lymphocte,
    epitelial cell
  • Site of latency monocyte, lymphocyte and?
  • Means of spread close contact, transfusions,
    tissue transplant and congenital

27
Clinical findings
  • Predominant presentation asymptomatic
  • Neonates deafness, mental retardation
  • Immunosuppressed patients disseminated dissease,
    severe disease (pneumonia, retinitis, colitis,
    esophagitis)

28
Congenital infection
  • An important cause of congenital disease
  • Serious birth defects is high if primary
    infection occurs during pregnancy
  • Microcephaly, intracerebral calcification,hepatosp
    lenomegaly,rash(cytomegalic inclusion disease),
    unilateral or bilateral hearing loss, mental
    retardation
  • CMV in the urine in the first week (culture,PCR)

29
Laboratory tests
  • Cytology and histology OWLs eye inclusion
    body basophilic intranuclearUrine not so
    sensitive
  • Antigen in peripheral leucocytes
  • DNA by PCR
  • Cell culture Human diploid fibroblasts
  • Serology primary infection(IgM by ELISA)

30
Human herpesvirus 6
  • Betaherpesvirinae
  • Lymphotropic , ubiquitous
  • Primary target cell T cells and ?
  • Site of latency T cells and ?
  • Means of spread Respiratory, close contact
  • Exanthema subitum roseola
  • A mononucleosis syndrome and lympadenopathy

31
Human herpesvirus 8
  • HHV-8 DNA sequences were discovered by PCR in
    biopsy specimens of
  • Kaposis sarcoma (characteristic opportunistic
    diseases associated with AIDS)
  • Primary effusion lymphoma (rare type of B-cell
    lymphoma)
  • Multicentric Castlemans disease

32
Human herpesvirus 8
  • Kaposis sarcoma-related virus
  • Primary target cell Lymphocyte and other cells
  • Site of latency?
  • Means of spread close contact, sexual, saliva?
  • Limited to certain geographic areas (Italy,
    Greece, Africa) and AIDS

33
Human herpesvirus 8
  • Laboratory diagnosis
  • Serology specific antibodiesIFA IgG,IgM
  • HHV-8 DNA by PCR

34
Antivirals
  • Herpes Simplex 1 and 2 Acyclovir
  • Penciclovir
  • Valacyclovir
  • Famciclovir
  • Adenosine arabinoside (ara-A)
  • Trifluridine

35
Antivirals
  • Varicella-Zoster Virus Acyclovir
  • Famciclovir
  • Valacyclovir
  • Varicella-zoster immune globulin (VZIG)
  • Zoster immune plasma
  • Live vaccine
  • Epstein-Barr Virus None

36
Antivirals
  • Cytomegalovirus
  • Ganciclovir
  • Valganciclovir
  • Iododeoxyuridine
  • Foscarnet
  • Trifluridine
  • Cidofovir

37
Herpesvirus simiae(B virus)
  • Asian monkeys
  • Bites, saliva
  • Encephalopathy in humans
  • fatal
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