Host genetic diversity Genome-wide approaches. Affected sib analysis Take full sibs, preferably of the same sex should share many environmental variables.

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Presentation transcript:

Host genetic diversity Genome-wide approaches

Affected sib analysis Take full sibs, preferably of the same sex should share many environmental variables Usual design; both sibs affected marker should segregate with disease can use for candidate loci or for mapping anonymous markers across the genome

Leprosy (Mycobacterium leprae) in India Siddiqui et al (2001) Nat. Gen. 27:

Genome wide association studies (GWAS) Genotype pool of unrelated cases versus controls for very high number of loci (500,000 SNPs) Rely on linkage disequilibrium between marker and trait (i.e. disease resistance)

GWAS of malaria resistance ~1000 cases and ~ 1400 controls from the Gambia Type ~ ½ million SNPs using Affy chip Described as proof of principle Jallow et al (2009) Genome-wide signals of association with severe malaria Nature Genetics 41,

GWAS study of malaria

Finer-scale analysis of haemoglobin-beta

GWAS of malaria resistance Difficulties include –Population structure –Genotype chips designed for caucasian populations –Low linkage disequibrium between markers Struggles to detect even HbS, the sickle cell anaemia polymorphism and misses many other known resistance loci entirely

MHC Clear case of variation at a locus that underlies differences in susceptibility to disease Malaria, nematodes, leprosy, HIV progression, Hepatitis B & C persistence, etc.

Nramp1, resistance to mycobacteria, salmonella and Leishmania Buer & Balling, 2003; Nature Review Genetics 4:

Finding candidate genes Knock out mice, esp. for cytokines Tells you what happens when protein function lost Is this representative of natural variation?

Selection and infectious disease CCR5 encodes a chemokine receptor Can be used by HIV to gain entry into macrophages Polymorphic, Caucasians 32bp deletion associated with protection against HIV Dean et al (1996) Science 273:

CCR5 and HIV entry

CCR5-  32 homozygotes protected against HIV infection +/+ +/  32  32 /  32 Total HIV HIV Total

CCR5 heterozygotes slow progression to AIDS

Selection on CCR5 Selection is determined by the environment Not constant through time or space CCR5 protective during HIV epidemic Strongest selection in sub-Saharan Africa –Up to 10-30% of population infected in places

(World Bank; World Development Indicators, 2004)

Frequency of  32-CCR5 allele q+/+ +/  32  32/  32 Caucasian African

Age of CCR5-  32 polymorphism  32 * *** Mutations will probably arise once, therefore associated with one haplotype. Over time, markers within this haplotype will be broken up by recombination and mutation (r). Probability that haplotype does not change from its ancestor is P = (1 - r) G G ≈ -ln(P)/r Stephens (1998) Am J Hum Genet 62:

Haplotype frequencies Haplotype% CCR5-GAAT-AFMB      Estimate r as 0.006, plug into G = -ln(P)/r G = -ln(0.85)/0.006 = 27.5 years/generation = 688 years (although CI = ,800 yrs)

Black death (Yersinia pestis) % of Europe killed

Problems with bubonic plague hypothesis Episodic selection - isolated bouts of very fierce selection - difficult to increase allele frequency at very beginning & no selection after 1750 KO CCR5 mice show no protection against Yersinia pestis Smallpox provides a more constant selection pressure, poxviruses also gain entry by chemokine receptors Galvani & Slatkin (2003) PNAS 100: