Journal article
Merlin links to the cAMP neuronal signaling pathway by anchoring the RI Chi subunit of protein kinase A



Publication Details
Authors:
Gronholm, M.; Vossebein, L.; Carlson, C.; Kuja-Panula, J.; Teesalu, T.; Alfthan, K.; Vaheri, A.; Rauvala, H.; Herberg, F.; Tasken, K.; Carpén, O.
Publication year:
2003
Journal:
Journal of Biological Chemistry
Pages range:
41167-41172
Volume number:
278
Start page:
41167
End page:
41172
ISSN:
0021-9258

Abstract
The cAMP-protein kinase A (PKA) pathway, important in neuronal signaling, is regulated by molecules that bind and target PKA regulatory subunits. Of four regulatory subunits, RIbeta is most abundantly expressed in brain. The RIbeta knockout mouse has defects in hippocampal synaptic plasticity, suggesting a role for RIbeta in learning and memory-related functions. Molecules that interact with or regulate RIbeta are still unknown. We identified the neurofibromatosis 2 tumor suppressor protein merlin (schwannomin), a molecule related to the ezrin-radixin-moesin family of membrane-cytoskeleton linker proteins, as a binding partner for RIbeta. Merlin and RIbeta demonstrated a similar expression pattern in central nervous system neurons and an overlapping subcellular localization in cultured hippocampal neurons and transfected cells. The proteins were coprecipitated from brain lysates by cAMP-agarose and coimmunoprecipited from cellular lysates with specific antibodies. In vitro binding studies verified that the interaction is direct. The interaction appeared to be under conformational regulation and was mediated via the alpha-helical region of merlin. Sequence comparison between merlin and known PKA anchoring proteins identified a conserved alpha-helical PKA anchoring protein motif in merlin. These results identify merlin as the first neuronal binding partner for PKA-RIbeta and suggest a novel function for merlin in connecting neuronal cytoskeleton to PKA signaling.

Last updated on 2019-01-11 at 16:05