Immunisation - Vaccines.pdf

Transcript

IMMUNISATION VACCINES

Noman Naseem
VETS2007
[email protected]

Learning objective
Discuss the difference between passive and
active immunization
List the requirements of an ideal vaccine
Discuss the difference between infectious and
non-infectious vaccines
List some possible vaccine side-effects

IMMUNISATION
PASSIVE IMMUNISATION
• Transfer of antibodies
• Temporary immunity
E.g., tetanus antitoxin, antivenoms
ACTIVE IMMUNISATION
• Administration of an antigen >
development of an immune
response
• Immunity is not immediate
• Immunity is long-lasting and can
be re-stimulated
• Vaccine

ACTIVE
IMMUNISATION
No vaccine is perfect, but the ideal vaccine
should:
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•

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Be inexpensive
Be consistent in formulation
Be stable
Have a long shelf-life
Be able to induce the most appropriate
type of immune response
Incorporate a range of epitopes from the
target organism
Be able to induce a long-lived immune
response
Be able to induce memory
Have no adverse effects

Vaccines
Infectious vaccines
• Infecting an animal w/o producing
disease
• A single dose is effective
• Live virulent, live attenuated,
recombinant, marker
Non-infectious vaccines
• Less efficacious
• Requiring up to 3 doses (priming,
immunisation, boosting)
• Killed whole, subunit, naked DNA

INFECTIOUS VACCINES
LIVE VIRULENT VACCINES

• Injection of a live and virulent
infectious agent
• Quite uncommon (why?)
ORF (contagious ecthyma) in sheep

INFECTIOUS VACCINES

LIVE ATTENUATED VACCINES

• Most commonly used
• Intact and viable organism but with
reduced virulence (replication but no
disease)

Blue eye induced by CAV-1 vaccination in dogs

Means of
attenuation

Multiple
Passaging

Heating

Antigenically

Deletion of

similar organisms

virulence factor

INFECTIOUS VACCINES
What are the disadvantages?
• Reversion of virulence
• Wrong route of administration > disease
• Contamination
• Less stability
• Specialised storage conditions

INFECTIOUS VACCINES
RECOMBINANT ORGANISM VACCINES

Viral gene
Non-virulent virus

Recombinant virus
with inserted target
virus gene

E.g., canarypox virus used as a carrier for genes
derived from FeLV, CDV, rabies virus

Carrier virus
expressing
product of
inserted gene

After injection:
recombinant virus
entering DCs > activation
of the immune response

INFECTIOUS VACCINES
MARKER VACCINES
If serum antibodies in an animal are due to an actual infection
or secondary to vaccination?
Does the cow have
serum anti-GpE?

Natural IBR virus
expressing GpE
YES
Field
exposure/infection

Vaccine IBR strain
w/o GpE
NO
Seropositive due to
vaccine

NON-INFECTIOUS VACCINES
KILLED WHOLE ORGANISM VACCINES
Live attenuated vaccine
More effective immunity

Virus treated with
chemicals (formalin,
alcohol, alkylating agents)

Fewer doses required
More stability on storage
More risk of disease
Risk of spreading to other animals

Killing (but the
antigenicity is
preserved)

More risk of containing
contaminating organisms
More risk of reversion
Adjuvants required (with more
adverse effects)
Can be given by natural route
Easy storage conditions

No replication
and no pathology

Lower costs
Higher doses required

Killed vaccine

NON-INFECTIOUS VACCINES
SUBUNIT VACCINES
Not containing the entire organism, but only the immunogenic structural protein

Two methods of production

e.g. FeLV vaccine incorporating gp70

NON-INFECTIOUS VACCINES
NAKED DNA VACCINES
• Gene inserted into a bacterial plasmid
> direct injection into the animal

• Plasmid transfecting local host cells,
including

APCs

that

migrate

to

regional lymphoid tissue

• Ready access of the protein to the
antigen processing pathway (potent
immune response)

• E.g., experimental injection of the
plasmid containing the gene for rabies
glycoprotein G into the pinna of dogs

ADJUVANTS
Substances added to the vaccine to maximise its effectiveness

Advantages
• Increased speed or magnitude of the immune response
• Reduction of the amount of antigen or number of doses
• Establishment of long-term memory
Disadvantages: may cause tissue
irritation/lesion

Hallmarks of an ideal adjuvant

ADJUVANTS
(1) DEPOT ADJUVANTS
•

Aluminium salts (insoluble) mixed with the Ag > injection > formation of a
granuloma > slow leakage of the Ag into the body > prolonged antigenic stimulation

•

Freud’s incomplete adjuvant (water-in-oil emulsion) mixed with the Ag > local
chronic inflammation (granuloma or abscess)

(2) PARTICULATE ADJUVANTS
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Readily phagocytosable particles incorporating the Ag > more effective delivery to

APCs
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Emulsion, microparticles, liposomes

(3) IMMUNOSTIMULATORY ADJUVANTS

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Enhanced cytokine production and selective stimulation of Th1 or Th2 cells

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E.g., synthetic bacterial products

ADVERSE CONSEQUENCES
OF VACCINES
1)
2)
3)
4)

Transient pyrexia and lethargy (a few days
post-vaccination)
Type I hypersensitivity response
(pruritus, oedema)
Type II (IMHA) or III (vasculitis)
hypersensitivity reactions
Feline injection site sarcoma: especially
with FeLV and rabies vaccines; poor
prognosis

Feline injection site sarcoma
Rare (0.1-0.01%) side effect of vaccine injection, occurs most commonly
with killed vaccines (FeLV, Rabies) containing adjuvant
Increased risk with multiple injections
Adjuvant in induces of chronic inflammation, which may be linked to
the carcinogenesis of FISS
Injections of other drugs including meloxicam, cisplatin, long-acting
penicillin, methylprednisolone and lufenuron may also induce
sarcomas

A dog is developing the disease for
which was vaccinated: Why???

VACCINE FACTORS
• Improper storage of vaccine
• Improper administration
(wrong route, wrong dose)
• Reversal to virulence
• Using a vaccine past its
expiry date

HOST FACTORS
• The animal was incubating
disease at the time of
vaccination or was infected
immediately after vaccination
• Maternal antibody interference
• Immunosuppressed dog