David Burgner scite author profile

SUMMARY Following their discovery in the early 1970s, classical human leukocyte antigen (HLA) loci have been the prototypical candidates for genetic susceptibility to infectious disease. Indeed, the original hypothesis for the extreme variability observed at HLA loci (H-2 in mice) was the major selective pressure from infectious diseases. Now that both the human genome and the molecular basis of innate and acquired immunity are understood in greater detail, do the classical HLA loci still stand out as major genes that determine susceptibility to infectious disease? This review looks afresh at the evidence supporting a role for classical HLA loci in susceptibility to infectious disease, examines the limitations of data reported to date, and discusses current advances in methodology and technology that will potentially lead to greater understanding of their role in infectious diseases in the future.

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Infection-induced inflammation and cerebral injury in preterm infants

Strunk

Inder

Wang

et al. 2014

The Lancet Infectious Diseases

245

219

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Summary Preterm birth and infectious diseases are the most common causes of neonatal and early childhood deaths worldwide. The rates of preterm birth have increased over recent decades and currently account for 11% of all births globally. Preterm infants are at significant risk of severe infection in early life and throughout childhood. Bacteraemia and/or inflammation during the neonatal period in preterm infants is associated with adverse outcomes, including death, chronic lung disease and neurodevelopmental impairment. Recent studies suggest that bacteraemia may trigger cerebral injury even without penetration of viable bacteria into the central nervous system. Here we review available evidence that supports the concept of a strong association between bacteraemia, inflammation and cerebral injury in preterm infants, with an emphasis on the underlying biological mechanisms, clinical correlates and translational opportunities.

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Genome-wide association study identifies FCGR2A as a susceptibility locus for Kawasaki disease

Khor¹,

Dávila²,

Breunis³

et al. 2011

Nat Genet

311

220

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Kawasaki disease is a systemic vasculitis of unknown etiology, with clinical observations suggesting a substantial genetic contribution to disease susceptibility. We conducted a genome-wide association study and replication analysis in 2,173 individuals with Kawasaki disease and 9,383 controls from five independent sample collections. Two loci exceeded the formal threshold for genome-wide significance. The first locus is a functional polymorphism in the IgG receptor gene FCGR2A (encoding an H131R substitution) (rs1801274; P = 7.35 × 10(-11), odds ratio (OR) = 1.32), with the A allele (coding for histadine) conferring elevated disease risk. The second locus is at 19q13, (P = 2.51 × 10(-9), OR = 1.42 for the rs2233152 SNP near MIA and RAB4B; P = 1.68 × 10(-12), OR = 1.52 for rs28493229 in ITPKC), which confirms previous findings(1). The involvement of the FCGR2A locus may have implications for understanding immune activation in Kawasaki disease pathogenesis and the mechanism of response to intravenous immunoglobulin, the only proven therapy for this disease.

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David Burgner

HLA and Infectious Diseases

Infection-induced inflammation and cerebral injury in preterm infants

Genome-wide association study identifies FCGR2A as a susceptibility locus for Kawasaki disease

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