Virus Recombinant Vaccines

Question 1

Goals of vaccination against viruses

Answer 1

Induce immunity in individual hosts that…
Prevent or eliminates viral disease
Causes no or minimal associated morbidity or mortality.

Induce “herd” immunity that …
Greatly restricts virus circulation in a given community
Protects vulnerable members of the community for whom the vaccine is proscribed

Virus eradication

Question 2

How do vaccines work?

Answer 2

Vaccine antigen introduced to body (Mucosal or Parenteral) -> Viral antigen taken up by APCs -> present antigen to B and T cells in correct conformation in LNs -> Clonal expansion of epiptope-specific memory B and T cells -> Accelerated response to virus upon infection -> protection from disease due to Tc cells and neutralising Abs

Question 3

Primary and memory Ig responses - basis of vaccination

Answer 3

1st infection/vaccination - 1º response
2nd exposure - anamnestic response

Question 4

What are epitopes?

Answer 4

Antigenic determinants of molecules that are bound by:
Antibodies (B cell epitopes) - Peptides, polysaccharides, lipids
T cell receptors (T cell epitopes) = Peptides

Dominant epitopes = Elicit strongest immune responses
Subdominant epitopes = Less immunogenic than dominant epitopes

Viruses direct immune system to dominant epitopes but AREN’T essential and there can be subdominant epitopes = essential (eg part of receptor binding site)

Question 5

B cell Epitopes can be

Answer 5

Linear peptides
Contiguous chain of amino acids within a protein
Antibodies can recognise primary structures

Conformational peptides
Non-contiguous chains of amino acids within a protein (3º structure)
Antibody recognition dependent of tertiary folding of protein

Question 6

Peptide scanning (pepscans) for linear B cell epitopes

Answer 6

Synthase overlapping peptides with 1 more peptide at end and 1 less at start. Add to wells and add antibodies to identify which peptides contain the epitope

Question 7

Examples of T cell Epitopes

Answer 7

T helper cells (CD4+)
- Linear peptides
- Presented by MHC class II

Cytotoxic T cells (CD8+)
- Linear peptides
- Presented by MHC class I

T regulatory cells (CD4+CD25+)
- dampen down response

Question 8

Antigen-Specific T and B cell maturation and function

Answer 8

Cytokines and chemokines induced following infection
APC interacts with Th0 cell to produce IL-2 - Th2 response - drives towards Th response
Th1 - drives towards t cytotoxic cell

Question 9

Current recombinant viral vaccine strategies

Answer 9

Live attenuated viruses
Recombinant subunit vaccines
Virus vectors expressing viral vaccine antigens
DNA vaccines
Edible plants expressing viral vaccine antigens

Question 10

Strategy and rationale of live attenuated viruses

Answer 10

Cold adapted, temperature sensitive:
Multiple passages at progressively lower temps
Restricted growth at 37ºC

Mucosal administration - Mucosal and systemic antibody and T cell responses
Restrict virus replication to upper respiratory tract
- Eliminate virus pathogenesis for lower respiratory tract by restricting growth at 37ºc

Eg Influenza virus and RSV

Question 11

Edible vaccines

Answer 11

Genetically modified plants expressing viral vaccine antigens
Consumption induces immune responses in intestine = mucosal immunity
- Processing of antigens through M cells

Question 12

Do edible vaccines work? 🥔

Answer 12

Potato expressing hepatitis B surface antigen (HBsAg)

Double blind placebo controlled trial

• Consumption by previously vaccinated individuals
  -Recombinant potatoes expressing HBsAg
  -Recombinant potatoes with no antigen
• Detection of boosts in anti-HBsAg titres in serum following vaccination.
  -Surrogate of protective immunity

Conclusions:
- consumption of HBsAg potatoe increases antibody titres
- edible vaccines have potential in humans

Question 13

Why continue research on influenza virus vaccines?

Answer 13

Current split/subunit vaccine
Limited heterosubtypic immunity
Vaccine efficacy based on antibody responses
- Antigenic drift = new vaccines required each year
- Antigenic shift may eliminate vaccine efficacy

Rationale:
Search for novel influenza vaccine antigens that
- Induce strong heterosubtypic immunity
- Both B and T cell based
- Reduce/eliminate necessity to change vaccine yearly

Question 14

Principle of DNA vaccines

Answer 14

Viral antigen expression from DNA plasmids delivered directly to host
Precision plasmid can be generated eg:
- vaccine antigen
- specific promoters
- codon optimisation
- immune enhancing genes
-cytokines/chemokines

Question 15

5 considerations(steps) in production of a DNA vaccine

Answer 15

Plasmid optimisation
Gene optimisation
Formulation adjuvants
Immune plasma adjuvants
Delivery

Question 16

Live attenuated RSV vaccines - strategy, alternative strategy and major obstacle

Answer 16

Cold adapted, temperature sensitive strategy:
Failure to find appropriate balance between immunogenicity and pathogenicity in infants
- Non-pathogenic with insufficient immunogenicity
- Unacceptable pathogenicity with reasonable immunogenicity

Alternative strategy = Remove virulence factors from virus
ΔNS1 +/- ΔNS2 +/- ΔSH genes
Re-entered clinical trials

Major obstacle = Natural infection does not induce long term immunity

Question 17

Do DNA vaccines work?

Answer 17

Yes. Proven in mice not humans.
Some died?

Question 18

Recombinant viral vectors (3)

Answer 18

Herpes viruses (HSV 1)
Alpha viruses (SFV,EEV)
Paramyxoviridae (Sendai virus)

Question 19

Production of rSeV

Answer 19

Reverse genetic system to produce cDNA and place in plasmid
Manipulate the genome
Insert RSVf
Express RSV F
Promoter pT7 drives transcription
Helper things - plasmids encoding L,N,P proteins (polymerase complex) responsible for nucleocapsid production

Question 20

3 steps of recombinant viral subunit vaccines

Answer 20

Identification of potential vaccine antigens
In silico T and B cell epitope candidate identification
Pepscan analysis for T cell proliferation and antibody ELISA reactivity

Antigen production
Bacteria, Eukaryotic cells, Recombinant baculovirus infection of insect cells, Yeast

Vaccine formulation
Antigen + adjuvant

Pre-clinical testing for induction of protective immunity
Rodents, Non-human primates

Question 21

Does rSeV/RSV F have vaccine potential against RSV?

Answer 21

YES = bivalent vaccine against RSV and hPIV1
Strong Ab response - RSVF?

Question 22

Protective/immunogenic responses to RSV proteins

Answer 22

F and G
M2 had epitope v good at inducing response
IDK

Question 23

Major problems with RSV vaccine models

Answer 23

Closer to humans - diminished
What happens to mouse not that similar to humans probably. Once again. Idk

Species specificity

Question 24

Recombinant viral subunit vaccine formulation has…

Answer 24

Very limited choice of adjuvants
Aluminium hydroxide
Aluminium phosphate
MF59

Major research efforts underway to identify new adjuvants
Pathogen recognition receptor agonists
-TLR agonists
- NLR agonists
- MDA5/RIG-I agonists

Question 25

Major problem and solution for HIV and HCV recombinant subunit vaccines

Answer 25

Massive strain variation
- major vaccine antigens highly variable

Solution = Vaccine strategies
- generation of recombinant subunit vaccines derived from multiple strains
- identification of vaccine antigens capable of inducing heterosubtypic immunity

Question 26

SARS-CoV-2 vaccine

Answer 26

20 years of research into mRNA vaccine
10 years into fusion proteins
Vaccine aims to stop conformational change of spike protein

Wasn’t a fun time- all you need to know x

• Holly Drummond, SARS-CoV-2 survivor and expert in all things biomedical, especially biomedical science. (Not a biomedical scientist at time of publication)

Question 27

How to decide which vaccines to recombinate?

Answer 27

Safety
Live attenuated most effective but may be less safe compared to ones containing inactive viruses or part of a virus

Question 28

Kids breathe through their_____.

Answer 28

👃

Question 29

Production of mRNA vaccine

Answer 29

Remove ability to stimulate immune response
Mutate to make it more stable
Labile
-> produce delivery package - liposome encapsulates RNA

Protects against severe disease and diminishes transmission

Question 30

MAb against SARS-CoV-2

Answer 30

Virus mutated to make these ineffective
New MAb was able to neutralise all variants
-> therefore one epiptope
=> hopeful for vaccine