Influenza A virus: Difference between revisions
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-Influenza A H5: | -Influenza A H5: | ||
nine subtypes are known, HPAI status currently circulating Asia and Europe | nine subtypes are known, HPAI status currently circulating Asia and Europe | ||
documented in humans (H5N1), causes severe illness or death. | documented in humans (H5N1), causes severe illness or death. | ||
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-Influenza A H7: | -Influenza A H7: | ||
nine subtypes are known, LPAI (H7N2,H7N7) and HPAI (H7N3,H7N7) status, | nine subtypes are known, LPAI (H7N2,H7N7) and HPAI (H7N3,H7N7) status, | ||
infections in humans are rare but can occur after direct contact contact | infections in humans are rare but can occur after direct contact contact | ||
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-Influenza A H9: | -Influenza A H9: | ||
nine subtypes are known, rarely infect humans and only in LPAI form. | nine subtypes are known, rarely infect humans and only in LPAI form. |
Revision as of 09:42, 9 April 2009
INTRODUCTION
Influenza virus family comprises of the three known types: Type A, B and C and it is called
Orthomyxoviridae. Only Type A is capable of infecting birds, but all three types are known
to infect humans. Influenza Type A also known as Avian flu comes in subtypes depending on
the surface glycoproteins hemagglutinin (HA) and neuraminidase (NA) and it further divides
into the specific strains depending on the levels of pathogenicity and structural variation
Wild birds are natural hosts of the virus and as opposed to the domesticated kind (chicken)
do not become sick when infected. Type A is also categorized into groups of low and high
pathogenicity called LPAI and HPAI accordingly. Most avian flu viruses are considered to be
LPAI and associated with very mild cases of disease in birds, while HPAI types cause severe
symptoms and death in those animals. LPAI type is capable of evolving into HPAI type.
THere are cases of HPAI virus such as H5N1 infect humans with severe symptoms and cause no
illness among ducks (host).
STRUCTURE
Influenza A virus uses RNA in its propagation, which is enclosed in the capsid. Inside of
the capsid the so called internal protein is residing in the form of transcriptase complex
(PB1, PB2, PA, NP) that would under favorable conditions lead to a formation of polymerase
enzyme for virus particle assembly. Matrix protein surrounds the nucleocapsid and is
responsible for maintaing virus' integrity by communicating with the external lipid
envelope. The lipid coat has a very important role because it carries the glycoproteins NA
(neuraminidase) and HA (hemagglutinin) which are necessary tools virus uses to enter its
host.
REPLICATION
The replication of the virus usually begins when particle finds receptors on the host cell
that are allowing attachment, Influenza A virus requires terminal sialic (neuraminic) acid
residues on the oligosaccharide chains of the infected cells. After the proper attachment
cell is stimulated to uptake the virus during the endocytosis. In this process the lipid
envelope and matrix is digested and lowering of the pH causes HA protein to transform in a
way that permits nucleocapsid with RNA and enzymatic proteins to travel to the host's
nucleus (Very low PH does not affect nucleocapsid). In the nucleus viral mRNA is produced
and introduced to the replicatory system of the host which after that event is factoring
viral progeny. In the next step nucleocapsids are reformed and it travels towards the
plasma membrane where NA and HA antigen proteins will be inserted. Release of the mature
virons by exocytosis occurs and new cells are infected.
EPIDEMIOLOGY
The major characteristic of the influenza A virus is its antigenic variability of
hemagglutinin HA and neuraminidase NA which means virus is in the process of dynamic and
continous evolvment which makes protection very difficult. Type A virus uses two ways of
change: antigenic shift and drift. During the drift specific point mutations cause
alterations in the HA and NA protein structures which make impossible for the host to build
immunity and use antibodies during the infection caused by the altered strain. The drift is
known to be more common for HA protein and shift for NA. During the antigenic shift the
major change like mixing of the subtypes or cross-species move (during the process of the
genetic reassortment), causes the formation of the completely novel subtype that carries
surface proteins derived from either or both "parent" subtypes. Because of that, new virus
may be able to invade new host it was not capable of invading previously. All studied world
influenza pandemics were demonstrated to be the result of the process of genetic
reassortment (shift and drift).
Virulence of the type A is multifactorial. HA protein variation and NS (non-structure)
protein variation plays a role. NS can inhibit host interferon induced anti viral
protection and also downregulate appoptosis (one of the known organism's way of protecting
itself) and prolonging viron production increasing the severity of infection.
CLASSIFICATION OF INFECTION
Influenza Type A can infect wide range of animals like birds, pigs, horses and also humans
among others. Those viruses are subdivided depending on their structure (hemagglutinin and
neuraminidase), for example H7N2 means that infection is caused by the strain containing
hemagglutinin with type 7 protein and neuraminidase type 2. Overall, there are 16 HA types
and 9 NA known so far, and they are animal specific. Influenza Type A that is capable of
infecting both humans and birds is classified as follows:
-Influenza A H5:
nine subtypes are known, HPAI status currently circulating Asia and Europe
documented in humans (H5N1), causes severe illness or death.
-Influenza A H7:
nine subtypes are known, LPAI (H7N2,H7N7) and HPAI (H7N3,H7N7) status,
infections in humans are rare but can occur after direct contact contact
with infected birds, upper respiratory symptoms mild to severe and fatal
in humans.
-Influenza A H9:
nine subtypes are known, rarely infect humans and only in LPAI form.