Kruppel Mediates the Selective Rebalancing of Ion Channel ExpressionJay Z. Parrish, Charles C. Kim, Lamont Tang, Sharon Bergquist, Tingting Wang, Joseph L. DeRisi, Lily Yeh Jan, Yuh Nung Jan, and Graeme W. Davis
Neuron, 2014Abstract: Ion channel gene expression can vary substantially
among neurons of a given type, even though
neuron-type-specific firing properties remain stable
and reproducible. The mechanisms that modulate
ion channel gene expression and stabilize neural
firing properties are unknown. In Drosophila, we
demonstrate that loss of the Shal potassium channel
induces the compensatory rebalancing of ion channel
expression including, but not limited to, the
enhanced expression and function of Shaker and
slowpoke. Using genomic and network modeling
approaches combined with genetic and electrophysiological
assays, we demonstrate that the transcription
factor Kru¨ppel is necessary for the homeostatic
modulation of Shaker and slowpoke expression.
Remarkably, Kru¨ppel induction is specific to the
loss of Shal, not being observed in five other potassium
channel mutants that cause enhanced neuronal
excitability. Thus, homeostatic signaling systems
responsible for rebalancing ion channel expression
can be selectively induced after the loss or impairment
of a specific ion channel.
