PLoS ONE (Jan 2011)

Statistical epistasis and functional brain imaging support a role of voltage-gated potassium channels in human memory.

  • Angela Heck,
  • Christian Vogler,
  • Leo Gschwind,
  • Sandra Ackermann,
  • Bianca Auschra,
  • Klara Spalek,
  • Björn Rasch,
  • Dominique de Quervain,
  • Andreas Papassotiropoulos

DOI
https://doi.org/10.1371/journal.pone.0029337
Journal volume & issue
Vol. 6, no. 12
p. e29337

Abstract

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Despite the current progress in high-throughput, dense genome scans, a major portion of complex traits' heritability still remains unexplained, a phenomenon commonly termed "missing heritability." The negligence of analytical approaches accounting for gene-gene interaction effects, such as statistical epistasis, is probably central to this phenomenon. Here we performed a comprehensive two-way SNP interaction analysis of human episodic memory, which is a heritable complex trait, and focused on 120 genes known to show differential, memory-related expression patterns in rat hippocampus. Functional magnetic resonance imaging was also used to capture genotype-dependent differences in memory-related brain activity. A significant, episodic memory-related interaction between two markers located in potassium channel genes (KCNB2 and KCNH5) was observed (P(nominal combined)=0.000001). The epistatic interaction was robust, as it was significant in a screening (P(nominal)=0.0000012) and in a replication sample (P(nominal)=0.01). Finally, we found genotype-dependent activity differences in the parahippocampal gyrus (P(nominal)=0.001) supporting the behavioral genetics finding. Our results demonstrate the importance of analytical approaches that go beyond single marker statistics of complex traits.