disease evolution brian o’meara eeb464 fall 2015
TRANSCRIPT
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Disease evolution
Brian O’MearaEEB464 Fall
2015
http://www.youtube.com/watch?v=Rpj0emEGShQ
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Learning objectives
Connect ideas about symbiosis and game theory to disease evolution
Understand natural history of disease
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Susceptible Infectious Recovered
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Virus A Virus B Virus C
Kills host in a day
Kills host in a month
Kills host in a year
2 pt each row:
which disease
will increase at the fastest rate?
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Virus A Virus B Virus C
Kills host in a day
Kills host in a month
Kills host in a year
Each host infects 1
person on average
Each host infects 40 people on average
Each host infects 100 people on average
2 pt each row:
which disease
will increase at the fastest rate?
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Virus A Virus B Virus C
Kills host in a day
Kills host in a month
Kills host in a year
Each host infects 1
person on average
Each host infects 40 people on average
Each host infects 100 people on average
1/1=1.0 40/30 = 1.3 100/365 = 0.3
2 pt each row:
which disease
will increase at the fastest rate?
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Virulence: ability of an organism to cause disease
Virus A Virus B Virus C
Kills host in a day
Kills host in a month
Kills host in a year
Each host infects 1 person
on average
Each host infects 40 people on average
Each host infects 100 people on average
1/1=1.0 40/30 = 1.3 100/365 = 0.3
Why not just evolve to be less virulent?
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Effect on virulence of:Change from horizontal to vertical transmission
Unprotected sex Sharing needles From parent (typically mother)
HIV horizontal HIV vertical
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Effect on virulence of:Increased number of sexual partners
Bearman et al 2004
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Effect on virulence of:Spatial structure
Unstructured Structured
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Effect on virulence of:Vaccination
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Effect on virulence of:Vaccination
Gandon et al. 2001 Nature
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Effect on virulence of:Vaccination
Gandon et al. 2001 Nature
Blue = anti-infection vaccineGreen = transmission-blocking vaccineRed solid = anti-growth rate vaccine (slow parasite growth)Red dashed = anti-toxin immunity (make parasite less harmful w/o affecting transmission and growth rates)
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Effect on virulence of:Number of innocula
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Origins of virus
Origins of a particular virus (SARS, HIV, flu)
Origins of viruses as a biological entity
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Gao et al. 1999
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Origins of viruses as a biological entityThree hypotheses
Virus-first
Reduction
Escape
Forterre 2006
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Forterre 2006
Virus-first: Viruses evolve, use the prebiotic soup for replication, later parasitize cells
Not favored: requires ribosomes (protein synthesis for coats), other complex structures,
need Darwinian evolution for that
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Forterre 2006
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Forterre 2006
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• Cows (Bovine spongiform encephalopathy, aka “mad cow”)
• Sheep (Scrapie)
• Mink
• Cats
• Deer (chronic wasting disease)
• Humans (kuru; variant Creutzfeldt-Jakob Disease (vCJD))