VIROLOGY-PART-1 PDF - Basic Concepts in Virology Midterms

Summary

This document is on virology, highlighting basic concepts such as the definition, structure, characteristic of viruses and their replication, including different types of viruses. It also includes the topic of viral replication. Relevant to undergraduate students learning about virology.

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BASIC CONCEPT IN VIROLOGY
MIDTERMS

 VIROLOGY is the study of viruses.
 Dmitri Iwanowski (1892)- Discovery of VIRAL STRUCTURE AND CHARACTERISTICS
virus; 1st noted the filterable organism  Viruses particles, referred to as virions,
consist of two or three parts:
VIRUSES  Inner nucleic acid core-
 Considered the smallest filterable consisting of either DNA or RNA
infectious particles/agents. but never both
 They can be living or non-living, and are  Capsid- protein coat that
neither eukaryotic nor prokaryotic surrounds and protects the
 OBLIGATE INTRACELLILAE PARASITES that nucleic acid
are dependent on host cells for survival; o The genome & its protein coat
infect only cellular forms together is called the
 Mode of replication: Assembly of nucleocapsid
individual components  Envelope- lipid containing
 Lack the capacity to make energy structure surrounding the virus;
substrates and replicate their genome present in some of the larger
independently. viruses
 Must adapt to the biochemical rules of
the cell in order to successfully use the
cell’s biosynthetic machinery.
Some viruses are useful:
 Phage typing of bacteria
 Pesticides
 Source of enzymes in molecular biology
 Gene vectors NAKED (CAPSID) VIRUSES
 Anti-cancer agents
 Antibacterial agents- page therapy to  Capsid is a rigid structure able to
treat infections withstand harsh environmental
conditions for the protection of the
genome
ORIGIN OF VIRUSES  Composed of repeating structural
subunits which associate into protomers,
 Derived from DNA or RNA nucleic acid capsomeres, into a recognizable
components of host cells that have procapsid or capsid
acquired the ability to exist  Generally resistant to drying, acid, and
independently detergents ENVIRONMENTALLY STABLE
 Viral genome is composed of one of the  Released from cell by lysis
following:  Transmitted by the fecal-oral route and
 Double-stranded DNA can endure transmission even in sewage
 Single-stranded DNA  Antibody may be sufficient for
 Double-stranded RNA immunoprotection
 Single-stranded RNA

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Types of Capsid:
VIRAL REPLICATION
 Symmetric Capsids
o Helical- appear as rods  The major steps in viral replication are the
o Icosahedral- approximation of same for all viruses
a sphere assembled from  Viruses are strict intracellular parasites
symmetric subunits that rely upon components of the host
 Nonsymmetric Capsids – complex forms cell to replicate - capable of replication
and are associated with certain only within a host cell.
bacterial viruses.  The cell acts as a factory, providing the
substrates, energy, and machinery
necessary for the synthesis of viral
proteins and replication of the genome
 VIRAL TROPISM - specificity of virus types
that only infect limited number of host
Phases of Viral Replication:
1. Early Phase
 Virus must recognize an
appropriate target cell, attach to
the cell, penetrate plasma
ENVELOPED VIRUSES
membrane and be taken up by
 Envelope is a membrane composed of the cell, release (uncoat) its
lipids, proteins, and glycoproteins genome into the cytoplasm, and
 Glycoproteins may extend through the deliver the genome to the
envelope away from the surface of the nucleus.
virion that can be observed as spikes. 2. Late Phase
 Modifies cell membrane during  Start of genome replication and
replication; released by budding (does viral macromolecular synthesis
not need to kill the cell to spread) and and proceeds through viral
cell lysis assembly and release.
 Membranous structure can be 3. Eclipse Period
maintained only in aqueous solutions.  Ends with the appearance of new
 Most cannot survive harsh condition - virions after virus assembly
ENVIRONMENTALLY LABILE 4. Latent Period
 Readily disrupted (inactivated) by  Includes the eclipse period and ends
drying, acidic conditions, detergents, with the release of new viruses
and solvents
 Must remain wet and are generally INFECTIOUS CYCLE- six steps of virus
transmitted in fluids, respiratory droplets, replication
blood, & tissue. 1. Attachment (Adsorption) - recognition of
 May need antibody and cell-mediated the target cell
immune response for protection and o Viral attachment proteins (VAPs)
control on enveloped viruses, or structures
 Elicits hypersensitivity and inflammation on the surface of the virion capsid
to cause immunopathogenesis binds to the receptors on the cell.
o Viruses that bind to receptors
expressed on specific cell types
may be restricted to certain
species (host range) or specific
cell type (viral tropism)

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2. Penetration (Virus Entry) - process by several complementary strands which serve as
which viruses enter the host cell mRNA
o Interactions between multiple 5. Viral Assembly - process by which
VAPs and cellular receptors structural proteins, genomes, and in
initiate the internalization of the some cases viral enzymes are assembled
virus into the cell. into virus particles.
o Mechanism of internalization o Site and mechanism of virion
depends on the virion structure & assembly in the cell depend on
cell type: where genome replication
- Most NONENVELOPED occurs and whether the final
viruses enter the cell by structure is a naked capsid or an
receptor-mediated enveloped virus.
endocytosis (phagocytosis o Capsid viruses may be
of host cell) or by viropexis assembled as empty structures
- ENVELOPED viruses (procapsids) to be filled with the
involved fusion of the viral genome or they may be
enveloped with the host assembled around the genome.
cells that can lead to fusion o Envelopes are acquired during
between the infected host viral "budding" from a host cell
cell and additional nearby membrane, commonly in the
host cell, forming nuclear endoplasmic
multinucleated cells called membranes. reticulum, and
syncitia cytoplasmic
3. Uncoating - process by which the capsid 6. Release - Viruses can be released from
is removed cells after lysis of the cell, by exocytosis,
o Release of the viral genome for or by budding from the plasma
delivery of the viral DNA or RNA to membrane.
its intracellular site of replication. o Enveloped viruses are released
 Genome of DNA viruses (except after BUDDING from the plasma
poxviruses) delivered to the NUCLEUS membrane without killing the cell.
 Most RNA viruses remain in the o Naked capsid viruses are
CYTOPLASM generally released after LYSIS of
4. Macromolecular Synthesis (transcription the cell (Lytic virus)
and translation)
EPIDEMIOLOGY OF VIRAL DISEASES
o Early mRNA and non-structural
proteins synthesis: genes for  Pandemic - emergence of a new viral
enzymes and nucleic acid- disease across a very large geographic
binding proteins region (worldwide) with prolonged
o Replication of the genome human-to-human transmission
o Late mRNA and structural protein  Genetic Shift - genetic re-assortment of
synthesis viral genes resulting to a completely new
o Post-translational modification of or "novel" virus, leading to the
proteins occurrence of pandemics.
Nucleic Acid: Positive (+) or Negative (-) sense  Antigenic Shift - MAJOR changes
✔ Positive-sense: Isolated RNA genomes which that result in a completely new o
functions as mRNA within the -infected cells; are "novel" viral antigens that are not
INFECTIOUS recognized by the host's immune
✓ Negative-sense: Isolated RNA is system; responsible for most of the
NONINFECTIOUS, virions usually carry RNA PANDEMIC infections.
polymerase that transcribes genomic RNA to  Antigenic Drift - MINOR changes that
occur infrequently as a result of

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mutation in the pathogen strains and facilitate 5. Replication in the target tissue - which
pathogen to avoid hast immune response; causes the characteristic disease signs
responsible for most EPIDEMIC infections. 6. Host responses that limit and contribute
(immunopathogenesis) to the disease
7. Virus production in a tissue that releases
the virus to other people for contagion
8. Resolution (convalescence) or persistent
infection/chronic disease
INFECTION OF THE TARGET TISSUE
 The virus gains entry into the body
 Viruses are transmitted from person to through breaks in the skin or across the
person by the respiratory, fecal-oral, and mucoepithelial membranes that line the
sexual contact routes; by trauma or orifices of the body.
injection with contaminated objects or  On entry into the body, the virus
needles; by tissue transplants (including replicates in cells that express viral
blood transfusions); by arthropod or receptors and have the appropriate
animal bites; and during gestation biosynthetic machinery.
(transplacental transmission).  Virus initially replicate at the site of entry
(i.e upper respiratory tract)
MECHANISM OF VIRAL PATHOGENESIS  Blood stream and lymphatic system are
 Process by which viruses produce predominant means of viral transfer and
disease in the host dissemination to other body tissues:
 Viruses cause disease when the breach  Blood stream (primary viremia)
in the host's physical barrier and natural  Within mononuclear phagocytes,
protective barriers lymphocytes, or endothelial cells
 Outcome of viral infection- determined (secondary viremia)
by the interaction between the virus and  Virus gains access to the CNS through:
the susceptible host.  the blood stream
 Immune response - the best treatment,  infection in the meninges or
but, it also contributes to the cerebrospinal fluid
pathogenesis of viral infections.  migration of infected
 Tissue target of virus (tropism) - defines macrophages
the nature of the disease and its  infection of the peripheral and
symptoms. olfactory neurons

BASIC STEPS IN VIRAL DISEASE
VIRAL CYTOPATHOGENESIS
 Viral disease in the body progresses
 Potential outcomes of a viral infection of
through defined steps:
a cell are as follows:
1. Acquisition - entry into the body
 Abortive Infection
2. Initiation of infection at a primary
 Persistent Infection
site
 Lytic Infection
3. Activation of innate protections
 Latent-recurrent Infection
4. Incubation period - when the virus
1. ABORTIVE INFECTION- failed infection
is amplified and may spread to a
 Viral Mutants, which cause
secondary site; may proceed
abortive infections, do not
without symptoms
multiply and disappear
(asymptomatic), or may produce
2. PERSISTENT INFECTION (Nonlytic
nonspecific early symptoms
Infection) – viral replication without cell
(prodrome)
death

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a. Chronic: non-lytic, productive initiated by antiviral the following
b. Latent: limited viral macromolecular but immunity. factors:
no virus synthesis  Flu-like symptoms
c. Recurrent: periods of latency then virus  Delayed-type 1. The
production hypersensitivity mechanism
d. Trasnsforming: immortalizing - and inflammation of exposure
ONCOGENIC VIRUSES  Immune complex and site of
disease infection
Nature of the infection is determined by the  Hemorrhagic 2. The
characteristics of the virus & target cell disease immune
o Nonpermissive cell – lacks receptor of  Post-infection status, age,
enzyme, or express antiviral prperties that cytolysis and general
will NOT ALLOW replication of virus.  Cytokine storm health of
o Permissive cell- provides the biosynthetic  Immunosuppresion the person
machinery to SUPPORT THE COMPLETE 3. The viral
REPLICATIVE CYCLE of the virus dose
o Semipermissive cell - very INEFFICIENT 4. The
REPLICATION or he cell may support genetics of
some but not all the steps in viral the virus and
replication the host
3. LYTIC INFECTION –results when virus
replication kills the target cell
 Viruses damage the cell &
prevent repair by inhibiting the
synthesis of cellular
macromolecules or producing
degradative enzymes & toxic
proteins.

HOST DEFENSES AGAINST VIRAL INFECTION
 Immune Response - best & in most cases
the only means of controlling viral
infection.
 Innate, humoral and cellular immune
responses are important for antiviral
immunity.
 The longer the viral replication, the
greater the dissemination of infection.
o Antigen-nonspecific (innate) host
defenses - Cell-mediated
immunity
o Antigen-specific immune
responses -Antibody-mediated
immunity
IMMUNOPATHOLOGY VIRAL DISEASE
Pathologic The relative
manifestations & susceptibility of a
symptoms of viral disease person and y the
caused by severity of the
hypersensitivity and disease depend on
inflammatory reactions

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