Medical Virology
Dept,of Medical Microbiology and Parasitology
Shanghai Second Medical University
Shanghai,China,
E.mail,( xkguo@shsmu.edu.cn )
General Virology
?Conception
?Viruses
?Virion
?Size and Shape
?Structure
?Replication
?Viral Variation
? Classification
Conception
? Virology is the bioscience for study of
viral nature,and the relationship
between viruses and hosts,Viruses
often cause serious diseases,relate to
some cancers and congenital
deformities,also can be used as tool
for genetic engineering,
? 3000BC
History
? Smallpox was endemic in
China by 1000BC,In response,
the practice of variolation was
developed,Recognizing that
survivors of smallpox
outbreaks were protected from
subsequent infection,
variolation involved inhalation
of the dried crusts from
smallpox lesions like snuff,or
in later modifications,
inoculation of the pus from a
lesion into a scratch on the
forearm of a child,
Definition of Virus
Viruses may be defined as acellular
organisms whose genomes consist of
nucleic acid,and which obligately
replicate inside host cells using host
metabolic machinery and ribosomes to
form a pool of components which assemble
into particles called VIRIONS,which serve
to protect the genome and to transfer it to
other cells
Viral Properties
? Viruses are inert (nucleoprotein ) filterable
Agents
? Viruses are obligate intracellular parasites
? Viruses cannot make energy or proteins
independent of a host cell
? Viral genome are RNA or DNA but not both,
? Viruses have a naked capsid or envelope with
attached proteins
? Viruses do not have the genetic capability to
multiply by division,
? Viruses are non-living entities
Consequences of Viral Properties
? Viruses are not living
? Viruses must be infectious to endure in nature
? Viruses must be able to use host cell processes
to produce their components (viral messenger
RNA,protein,and identical copies of the
genome)
? Viruses must encode any required processes
not provided by the cell
? Viral components must self-assemble
Challenges the way we define life
? viruses do not respire,
? nor do they display irritability应急性 ;
? they do not move
? they do not grow
? they do most certainly reproduce,and may
adapt to new hosts,
Size and Shape
? Methods
? Size of Viruses
? Shapes of Viruses
Methods of Analysis
Electron microscopy,
The resolution is 5nm (1nm = 10-9 m)
X-ray crystallography
Size of Viruses
A small virus has a diameter of
about 20nm,
Parvovirus
A large virus have a diameter of up
to 400nm,
Poxviruses
Shape of Viruses
? Spherical
? Rod-shaped
? Brick-shaped
? Tadpole-shaped
? Bullet-shaped
? Filament
Shapes of Viruses:Spherical
Shapes of Viruses,Rod-shaped
Shapes of Viruses,Brick-shaped
,
Tadpole-shaped
Shapes of Viruses,Bullet-shaped
Shapes of Viruses,Filament
Structure of Viruses
Virion
? the complete infectious unit of
virus particle
? Structurally mature,
extracellular virus particles,
Virion
Capsid
Viral core
envelope
Viral core
? Viral core
The viral nucleic acid genome,In the
center of the virion,,Control the viral
heredity and variation,responsible for
the infectivity,
Genome
? The genome of a virus can be either DNA
or RNA
? DNA-double stranded (ds),linear or
circular
Single stranded (ss), linear or
circular
? RNA- ss:segmented or non-segmented
ss:polarity+(sense) or polarity –
(non-sense)
ds,linear (only reovirus family)
DNA RNA
double-
stranded
single-
stranded
double-
stranded single-stranded
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Viral Capsid
? The protein shell,or coat,that
encloses the nucleic acid genome,
? Functions,a,Protect the viral
nucleic acid,b,Participate in the
viral infection,c,Share the
antigenicity
Nucleocapsid
? The core of a virus particle
consisting of the genome
plus a complex of proteins,
? complex of proteins = Structural
proteins +Non- Structural
proteins (Enzymes &Nucleic
acid binding proteins)
Symmetry of Nucleocapsid
? Helical
? Cubic /Icosahedral
? Complex
Helical symmetry
? Helical symmetry
How to
assemble
Helical
? California Encephalitis Virus
Coronavirus
Hantavirus
Influenza Virus (Flu Virus)
Measles Virus ( Rubeola)
Mumps Virus
Parainfluenza Virus
Rabies Virus
Respiratory Syncytial Virus(RSV)
Cubic or icosahedral symmetry
Icosahedral
? Adeno-associated Virus (AAV)
Adenovirus
B19
Coxsackievirus - A
Coxsackievirus - B
Cytomegalovirus (CMV)
Eastern Equine Encephalitis
Virus (EEEV)
Echovirus
Epstein-Barr Virus (EBV)
Hepatitis A Virus (HAV)
Hepatitis B Virus (HBV)
Hepatitis C Virus (HCV)
Hepatitis Delta Virus (HDV)
Hepatitis E Virus (HEV)
? Herpes Simplex Virus 1 (HHV1)
Herpes Simplex Virus 2 (HHV2)
Human Immunodeficiency Virus
(HIV)
Human T-lymphotrophic Virus
(HTLV)
Norwalk Virus
Papilloma Virus (HPV)
Polio virus
Rhinovirus
Rubella Virus
Saint Louis Encephalitis Virus
Varicella-Zoster Virus (HHV3)
Western Equine Encephalitis Virus
(WEEV)
Yellow Fever Virus
Complex Virus Structures
? A well known example is the tailed
bacteriophages such as T4,
? The head of these viruses is cubic
with a triangulation number of 7,This
is attached by a collar to a contractile
tail with helical symmetry,
T4 Bacteriophage
Properties of naked viruses
? Stable in hostile environment
? Not damaged by drying,acid,detergent,and heat
? Released by lysis of host cells
? Can sustain in dry environment
? Can infect the GI tract and survive the acid and
bile
? Can spread easily via hands,dust,fomites,etc
? Can stay dry and still retain infectivity
? Neutralizing mucosal and systemic antibodies are
needed to control the establishment of infection
Naked viruses( Non Enveloped )
? Adeno-associated Virus (AAV)
Adenovirus
B19
Coxsackievirus - A
Coxsackievirus - B
Echovirus
Hepatitis A Virus (HAV)
Hepatitis E Virus (HEV)
Norwalk Virus
Envelope
? A lipid-containing membrane
that surrounds some viral
particles,
? It is acquired during viral maturation by a
budding process through a cellular
membrane,Viruses-encoded
glycoproteins are exposed on the surface
of the envelope,
? Not all viruses have the envelope,and
viruses can be divided into 2 kinds,
enveloped virus and naked virus,
Functions of envelope
? Antigenicity
some viruses possess
neuraminidase
? Infectivity
? Resistance
Envelope
Properties of enveloped viruses
? Labile in dry,arid environment
? Damaged by drying,acid,detergent,
and heat
? Pick up new cell membrane during
multiplication
? Insert new virus-specific proteins
after assembly
? Virus is released by budding
Consequences of Properties for
enveloped viruses
? Must stay moist
? Must not infect the GI tract for survival
? Must be transmitted in the protective,
droplets,secretions,blood and body fluids
? Must reinfect another host cell to sustain
? Humoral and cell-mediated immunity are
needed to control the infection
Enveloped
? California Encephalitis Virus
? Coronavirus
? Cytomegalovirus (CMV)
? Eastern Equine Encephalitis
Virus (EEEV)
? Epstein-Barr Virus (EBV)
? Hantavirus
Hepatitis B Virus (HBV)
Hepatitis C Virus (HCV)
Hepatitis Delta Virus (HDV)
Herpes Simplex Virus 1 (HHV1)
? Rotavirus
? Rubella Virus
? Saint Louis Encephalitis Virus
Smallpox Virus (Variola)
Vaccinia Virus
? Herpes Simplex Virus 2
(HHV2)
Human Immunodeficiency
Virus (HIV)
Human T-lymphotrophic
Virus (HTLV)
Influenza Virus (Flu Virus)
Molluscum contagiosum
Papilloma Virus (HPV)
Polio virus
Rhinovirus
Varicella-Zoster Virus
(HHV3)
Venezuelan Equine
Encephal,Vir,(VEEV)
Western Equine
Encephalitis Virus (WEEV)
Yellow Fever Virus
Spike or Peplomere
summarize
Virion structure
? Nucleocapsid(Naked Virus) = DNA or RNA
+Structural proteins +Enzymes &Nucleic
acid binding proteins
? Enveloped Virus =Nucleocapsid+ Viral
specific glycoproteins and Host Membrane
Enveloped
Virus
Naked
Virus
Cubic Helical
CHEMICAL COMPOSITION
OF VIRUSES
? Viral Protein
? Viral Nucleic Acid
? Viral Lipids
? Viral carbohydrate
Viral Nucleic Acid
? DNA-double stranded (ds),linear or circular
Single stranded (ss), linear or circular
? RNA- ss:segmented or non-segmented
ss:polarity+(sense) or polarity –(non-sense)
ds,linear (only reovirus family)
Viral Protein
? Structural protein (Capsomere)
? Enzyme
? glycoproteins (spike/viral
attachment protein,VAP)
Culture of Viruses
System for the propagation of
viruses
? People
? Animals, cows;chickens; mice; rats; suckling
mice
? Embryonated eggs
? Organ and tissue culture
Organ culture
primary tissue culture
cell lines,diploid
Tumor or immortalized cell line
? Cytopathic effect,CPE
? Inclusion Bodies
CPE:Viral Cytopathological Effects
? Cell death
Cell rounding/Degeneration/Aggregation
Lass of attachments to substrate
? Inclusion bodies in the nucleus or cytoplasm,
margination of chromatin
? Syncytia,multinucleated giant cells caused by
virus-induced cell-cell fusion
? Cell surface changes
Viral antigen expression
Hemadsorption (hemagglutinin expression)
Normal cell and CPE
Inclusions
Negri body
TCD50,LD50,ID50
PFU,plaque forming units
Replication of Viruses
Replicative cycle
? As obligate intracellular parasites,Virus must
enter and replicate in living cells in order to
“reproduce” themselves,This,growth cycle”
involves specific attachment of virus,
penetration and uncoating,nucleic acid
transcription,protein synthesis,matureation
and assembly of the virions and their
subsequent release from the cell by budding
or lysis
Initiation Phase
? Attachment
? Penetration
? Uncoating
Attachment/Adsorption
? Virus attaches to the cell surface,Attachment is
via ionic interactions which are temperature-
independent,
? Viral attachment protein recognizes specific
receptors on the cell surface (These may be
protein or carbohydrate or lipid components of
the cell surface),
? Cells without the appropriate receptors are not
susceptible to the virus,
PENETRATION
(Virus enters the cell)
? Virions are either engulfed into vacuoles by
“endocytosis” or the virus envelope fuses
with the plasma membrane to facilitate entry
? Enveloped viruses
? Non-enveloped viruses
Fusing
? (A) Entry by fusing with
the plasma membrane,
Some enveloped viruses
fuse directly with the
plasma membrane,Thus,
the internal components of
the virion are immediately
delivered to the cytoplasm
of the cell,
HIV
Endocytosis
? (B) Entry via endosomes at the cell surface
influenza virus
Enveloped viruses
? Some enveloped viruses require an acid pH for
fusion to occur and are unable to fuse directly with
the plasma membrane,These viruses are taken up
by invagination of clathrin coated pits into
endosomes,As the endosomes become acidified,
the latent fusion activity of the virus proteins
becomes activated by the fall in pH and the virion
membrane fuses with the endosome membrane,
This results in delivery of the internal components
of the virus to the cytoplasm of the cell
Non-enveloped viruses
? Non-enveloped viruses may cross the plasma
membrane directly
? may be taken up via clathrin-coated pits into
endosomes,They then cross (or destroy) the
endosomal membrane,
UNCOATING
? Nucleic acid has to be sufficiently uncoated that
virus replication can begin at this stage,When
the nucleic acid is uncoated,infectious virus
particles cannot be recovered from the cell -
this is the start of the ECLIPSE phase - which
lasts until new infectious virions are made
? Uncoating is usually achieved by cellular
proteases,opening up” the capsid
BIOSYNTHESIS
?genome synthesis
?mRNA production
?protein synthesis
Flow of events during the
replication of Hepadna viruses
Flow of events during the
replication of herpesviruses
Flow of events during the
replication of reoviruses,
Flow of events during the
replication of togaviruses
Flow of events during the replication of
orthomyxoviruses and paramyxoviruses,
Flow of events during the replication
of retroviruses
Maturation assembly release
Maturation
? The stage of viral replication at which a virus
particle becomes infectious; nucleic acids and
capsids are assembled together,
ASSEMBLY
? The stage of replication during which all the
structural components come together at one
site in the cell and the basic structure of the
virus particle is formed,
RELEASE
? Disintegration, naked virus cause the host cell
lysis
? Budding,enveloped viruses
? Budding viruses do not necessarily kill the cell,
Thus,some budding viruses may be able to set
up persistence
Assembly
Products of viral replication
? Virion
? DEFECTIVE VIRUS
? ABORTIVE INFECTION
? integration
? DEFECTIVE VIRUS
deficiency in some aspects of replication,but
interfering the replication of normal viruses
? ABORTIVE INFECTION
When a virus infects a cell (or host),but cannot
complete the full replication cycle ( not
biosynthesize their components or not assemble
virions.),i.e,a non-productive infection,
INTERFERENCE
? Interferon,IFN
? Defective interfering particle,DIP
Viral Genetics
Genome
? The genome of a virus can be either
DNA or RNA
? DNA-double stranded (ds),linear or circular
Single stranded (ss), linear or circular
? RNA- ss:segmented or non-segmented
ss:polarity+(sense) or polarity –(non-sense)
ds,linear (only reovirus family)
Virus Genomes
The Structure & Complexity of Virus
Genomes
? The nucleic acid comprising the genome may be
single-stranded or double-stranded,& in a linear,
circular or segmented configuration,Single-
stranded virus genomes may be,
? positive (+)sense,i.e,of the same polarity
(nucleotide sequence) as mRNA
? negative (-)sense
? ambisense - a mixture of the two,
The Structure & Complexity of Virus Genomes
any virus genome will usually include the
following,
? Composition - DNA or RNA,single-stranded
or double-stranded,linear or circular,
? Size & number of segments,
? Terminal structures,
? Nucleotide sequence,
? Coding capacity - open reading frames,
? Regulatory signals - transcription enhancers,
promoters & terminators,
The Structure & Complexity of Virus Genomes
Transfection
? Infection of cells caused by nucleic acid alone
Variation
There are two important variation which
relate well with medical practices
? Antigenicity variation,In most viruse the
antigenicity is stable but in some viruses
such as influenze virus the antigenicity
may vary and cause the disease to
epidemic,
? Virulence variation(Virulent viruses),
Less virulent viruses always used in
prevention,
Mutation
?Mutant
?Variant
?temperature sensitive(ts)
mutant
Interactions
when two genetically distinct viruses infect a cell
3 different phenomena can ensue
? Recombination /Reassortment
? Complementation
? Phenotypic mixing
? Recombination
dsDNA viruses
? Reassortment ( segmented
genomes)
RNA viruses,influenza virus
Complementation
Phenotypic mixing
? The genome of virus A can be coated
with the surface protein of virus type B
Classification of Viruses
CLASSIFICATION OF VIRUSES
-------basis of classification
? Virion morphology
? Physicochemical properties of the virion
? Virus genome properties
? Virus protein proteries
? Genome organization and replication
? Antigenic properties
? Biologic properties
CLASSIFICATION OF VIRUSES
? By 1995
--71 families,11 subfamilies
--164 genera
? For humans and animals
--24 families,
--DNA,7; RNA,17 for humans
Survey of DNA-containing
Viruses
? Parvoviruses,human parvovirus B19
? Papovaviruses,papillomaviruses
? Adenoviruses,47 types infect humans
? Herpesviruses,human herpesvirus 1-8
? Poxviruses,smallpox; vaccinia
? Hepadnaviruses,HBV
Survey of RNA-containing
Viruses
? Picornaviruses
? Astroviruses
? Caliciviruses
? Reoviruses
? Arboviruses
? Togaviruses
? Flaviviruses
? Arenaviruses
? Coronaviruses,SARS
? Retroviruses
? Bunyaviruses
? Othomyxoviruses
? Paramyxoviruses,
? Rhabdoviruses:rabies virus
? Bornaviruses,BDV
? Filoviruses
? Other viruses
? Viroids
DNA and RNA Viruses
? 嗜肝病毒科 ( Headnasviridae)
? 逆转录病毒 ( Retroviridae )
Viroids(类病毒 )
? Viroids are small (200-400nt),circular
RNA molecules with a rod-like
secondary structure which possess no
capsid or envelope which are
associated with certain plant diseases,
Their replication strategy like that of
viruses - they are obligate intracellular
parasites,
Dependovirus /Virusoids卫星病毒
? Viroids are small (200-400nt),circular RNA
molecules with a rod-like secondary structure
which possess no capsid or envelope which are
associated with certain plant diseases,Their
replication strategy like that of viruses - they
are obligate intracellular parasites,
朊粒 (Prions)
? Prions are rather ill-defined infectious
agents believed to consist of a single type of
protein molecule with no nucleic acid
component,Confusion arises from the fact
that the prion protein & the gene which
encodes it are also found in normal
'uninfected' cells,These agents are
associated with diseases such as
Creutzfeldt-Jakob disease in humans,
scrapie in sheep & bovine spongiform
encephalopathy (BSE) in cattle,