Cell Reports (Dec 2021)

14-3-3 proteins stabilize LGI1-ADAM22 levels to regulate seizure thresholds in mice

  • Norihiko Yokoi,
  • Yuko Fukata,
  • Kei Okatsu,
  • Atsushi Yamagata,
  • Yan Liu,
  • Makoto Sanbo,
  • Yuri Miyazaki,
  • Teppei Goto,
  • Manabu Abe,
  • Hidetoshi Kassai,
  • Kenji Sakimura,
  • Dies Meijer,
  • Masumi Hirabayashi,
  • Shuya Fukai,
  • Masaki Fukata

Journal volume & issue
Vol. 37, no. 11
p. 110107

Abstract

Read online

Summary: What percentage of the protein function is required to prevent disease symptoms is a fundamental question in genetic disorders. Decreased transsynaptic LGI1-ADAM22 protein complexes, because of their mutations or autoantibodies, cause epilepsy and amnesia. However, it remains unclear how LGI1-ADAM22 levels are regulated and how much LGI1-ADAM22 function is required. Here, by genetic and structural analysis, we demonstrate that quantitative dual phosphorylation of ADAM22 by protein kinase A (PKA) mediates high-affinity binding of ADAM22 to dimerized 14-3-3. This interaction protects LGI1-ADAM22 from endocytosis-dependent degradation. Accordingly, forskolin-induced PKA activation increases ADAM22 levels. Leveraging a series of ADAM22 and LGI1 hypomorphic mice, we find that ∼50% of LGI1 and ∼10% of ADAM22 levels are sufficient to prevent lethal epilepsy. Furthermore, ADAM22 function is required in excitatory and inhibitory neurons. These results suggest strategies to increase LGI1-ADAM22 complexes over the required levels by targeting PKA or 14-3-3 for epilepsy treatment.

Keywords