What drives antigenic drift in a single influenza season?

Maciej F. BoniStanford University

Department of Biological Sciences

DIMACS Workshop on Evolutionary Considerations in Vaccine UseRutgers University, June 29, 2005

Antigenic drift

Defined as the accumulation of point mutations in influenza surface proteins (haemagglutinin and neuraminidase)

Antigenic drift enables influenza to escape host immunity and re-infect populations with previously acquired immunity

Russell Kightley Media rkm.com.au

HA1 987nt

Flu epidemics and antigenic drift

1996 1997 1998

weekly illnesses/10,000 inhabitants (NL)

NOV APR

epidemic strain

de Jong et al (2000)

Strains have accumulated mutations. But how many?

mean pairwise distance out of 329 amino acids (4%)

max pwd (7%)

HA1 polymorphism – within-year

HA1 polymorphism – local datasets

Coiras et al, Arch. Vir. (2001)

Schweiger et al, Med. Microbiol. Immunol. (2002)

Pyhälä et al, J. Med. Virol. (2004)

Neutral Epidemic Model

Number of infections with epidemic-originating strain

Number of infections with a strain k mutations away

Neutral Epidemic Model

Exiting a population class via mutation

Strain frequencies are Poisson-distributed

Frequency of strain k :

Mean number of mutations per virus moves forward in time according to a molecular clock

Modeling antigenic drift and immunity

the epidemic-originating strain

-2 -1 0 1 2 3 4

you may have conferred immunity from a previous season to one of these strains.

Modeling antigenic drift and immunity

the epidemic-originating strain

-2 -1 0 1 2 3 4

Distance between immunizing strain and challenging strain determines level of cross-immunity.

We model this as an infectivity reduction and say it wanes exponentially with distance:

Non-neutral model

Amino-acid replacements in influenza surface proteins confer a fitness benefit via increased transmissibility

Hosts have some immunity structure from vaccination or previous infections

( need both )

Keeping track of hosts

q0 completely immune ( to I0 )

q30 completely naive

j+k is distance between immunizing and challenging (infecting) strain

Keeping track of variables

infectivity reduction by previous infectionwith a strain j amino acids away

force of infection of strain k

total force of infection

Equations

cross-immunity between strains m amino acids apart

total immunity in population

Equations

fitness of strain k

mean fitness of strain population: W

Population genetics

Define mean antigenic drift in virus population as:

Fisher’s Fundamental Theorem

This is the Price Equation, thus, the basic influenza population dynamicscan be viewed in a standard population genetic framework.

Under neutrality

Takes 7 aa-changes to escape 50% immunity

Define the excess antigenic drift as:

How do you know when the epidemic ends?

slow immune escape

medium immune escape

fast immune escape

Very few mutations required to escape immunity, so little drift occurs

Little immune escape per mutation, thus little fitness variation for natural selection to act on.

In general, how do the parameters affect the model results?

Partial correlations

immunity :

immune-escape/mutation :

immunity :

controllable by vaccination

When sampling from parameter space …

1. if goal is to map out a parameter space, choice of distribution does not matter

2. be careful summarizing relationships between parameters, because choice of distribution may be quite significant

3. non-monotonicity may make PCCs meaningless (e.g. PCC=0 does not imply independence)

4. PCCs assume linear relationships between parameters (PRCCs do not)

5. Remember that you are calculating statistics on deterministic quantities

Host immunity drives antigenic drift

Public health implications

Vaccination strategies: under-vaccination or imperfect vaccination may cause much excess antigenic drift.

Pandemic implications: need to consider the effects of vaccination during the 2nd year after a pandemic, and their effects on the 3rd year after a pandemic.

Thanks

Marcus W. FeldmanStanford University, Department of Biological Sciences

Julia R. GogCambridge University, Department of Zoology

Viggo AndreasenUniversity of Roskilde, Department of Mathematics and Physics

Freddy B. ChristiansenUniversity of Aarhus, Department of Biology

( and for funding to NIH grant GM28016, NSF, and Stanford University )

What drives antigenic drift in a single influenza season?

Documents

Transcript of What drives antigenic drift in a single influenza season?

Antigenic Drift of Inﬂuenza A - DIMACSdimacs.rutgers.edu/Workshops/VaccineUse/slides/mylius.pdf · Antigenic Drift of Inﬂuenza A related to vaccination and pandemic planning Sido

Antigenic characterization of influenza and SARS-CoV-2 viruses

State of New Hampshire(antigenic drift) may result in epidemics, since incomplete protection remains from past exposure to State of New Hampshire Influenza Pandemic Public Health ,

Prediction, dynamics, and visualization of antigenic ...bedford.io/pdfs/papers/neher-titers.pdfPrediction, dynamics, and visualization of antigenic phenotypes of seasonal influenza

The global antigenic diversity of swine influenza A viruses · The antigenic diversity of recent swine flu viruses resembles the diversity of H1 and H3 viruses observed in humans

What drives antigenic drift in a single influenza season?

Edinburgh Research Explorer · The evolutionary interaction between influenza A virus and the human immune system, manifest as ‘antigenic drift’ of the viral haemagglutinin, is

Computationally Optimized Broadly Reactive Antigen (COBRA ......Influenza Viruses Nature Reviews Microbiology. 2005. 3:591. Occasionally emerge (10-50 yrs) Genetic reassortment Antigenic

Mapping the Antigenic and Genetic Evolution of Influenza Virus · Row B: when an influenza virus is added to the RBC solution, the virus’ hemagglutinin (HA) will bind to RBCs, forming

Influenza - University of Colorado Denver · Learning Objectives • Understand the mechanisms by which antigenic shift and antigenic drift occur in influenza viruses and the epidemiologic

Gradual & Punctuated antigenic drift for inﬂuenza evolutioncamacho/PhD/Welcome_files/cmpd3.pdf · The SIRX model: N clusters • History based model with two levels of immunity

Antigenic mapping of an H9N2 avian influenza virus reveals two … · 2016. 3. 10. · Antigenic mapping of an H9N2 avian influenza virus reveals two discrete antigenic sites and

Antigenic and genetic characteristics of zoonotic influenza … · 26 September 2013 Page 1 of 12. Antigenic and genetic characteristics of zoonotic influenza viruses and development

StatesHHS Public Access of Canine Influenza A(H3N2 ...Assessment of Molecular, Antigenic, and Pathological Features of Canine Influenza A(H3N2) Viruses That Emerged in the United States

Insights into the antigenic advancement of influenza A ... · Insights into the antigenic advancement of influenza A(H3N2) viruses, 2011-2018 Patricia A. Jorquera a,b,*, Vasiliy P.

Announcements - med.navy.mil · Announcements Register for the ... Immunity-related Changes: Antigenic Drift/Shift IV. 2015-2016 Vaccine V. 2014-2015 Influenza Vaccine Facts II. Influenza

Detection of influenza antigenic variants directly from ... · neuraminidase glycoproteins cause antigenic drift. Meanwhile, antigenic shift is caused by the replacement of a new

William Atkinson, MD, MPH Influenza Update August 18, 2016health.mo.gov/living/wellness/immunizations/pdf/whatsnewflu81816.pdf · Influenza Antigenic Changes •Antigenic Shift –major

Epidemiologic Study of Human Influenza Virus Infection in ...previously proposed that an antigenic drift variant of epidemi-ological importance usually requires changes of at least

Laboratory Diagnosis of Viral Infections affect the Lower ...iacld.ir/DL/modavan/viruses/laboratorydiagnosisofviralinfections... · antigenic shift and drift. ... Antigenic Shift