PSD-95 and SAP97 exhibit distinct mechanisms for regulating K(+) channel surface expression and clustering.

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© The Rockefeller University Press, 0021-9525/2000//147 $5.00
The Journal of Cell Biology, Volume 148, Number 1, , 2000 147-158

Research Support, U.S. Gov't, P.H.S.

PSD-95 and SAP97 exhibit distinct mechanisms for regulating K(+) channel surface expression and clustering.

A M Tiffany, L N Manganas, E Kim, Y P Hsueh, M Sheng, and J S Trimmer

Mechanisms of ion channel clustering by cytoplasmic membrane-associatedguanylate kinases such as postsynaptic density 95 (PSD-95) andsynapse-associated protein 97 (SAP97) are poorly understood.Here, we investigated the interaction of PSD-95 and SAP97 withvoltage-gated or Kv K(+) channels. Using Kv channels with differentsurface expression properties, we found that clustering by PSD-95depended on channel cell surface expression. Moreover, PSD-95-inducedclusters of Kv1 K(+) channels were present on the cell surface.This was most dramatically demonstrated for Kv1.2 K(+) channels,where surface expression and clustering by PSD-95 were coincidentallypromoted by coexpression with cytoplasmic Kvbeta subunits. Consistentwith a mechanism of plasma membrane channel-PSD-95 binding,coexpression with PSD-95 did not affect the intrinsic surfaceexpression characteristics of the different Kv channels. Incontrast, the interaction of Kv1 channels with SAP97 was independentof Kv1 surface expression, occurred intracellularly, and preventedfurther biosynthetic trafficking of Kv1 channels. As such, SAP97binding caused an intracellular accumulation of each Kv1 channeltested, through the accretion of SAP97 channel clusters in large(3-5 microm) ER-derived intracellular membrane vesicles. Together,these data show that ion channel clustering by PSD-95 and SAP97occurs by distinct mechanisms, and suggests that these channel-clusteringproteins may play diverse roles in regulating the abundanceand distribution of channels at synapses and other neuronalmembrane specializations.

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