Paralemmin, a Prenyl-Palmitoyl-anchored Phosphoprotein Abundant in Neurons and Implicated in Plasma Membrane Dynamics and Cell Process Formation

doi:10.1083/jcb.143.3.795

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J. Cell Biol., Volume 143, Number 3, November 2, 1998 795-813

Paralemmin, a Prenyl-Palmitoyl-anchored Phosphoprotein Abundant in Neurons and Implicated in Plasma Membrane Dynamics and Cell Process Formation

Christian Kutzleb,^* Gabriele Sanders,^* Raina Yamamoto,^* Xiaolu Wang,^* Beate Lichte,^* Elisabeth Petrasch-Parwez, and Manfred W. Kilimann^*

^* Institut für Physiologische Chemie, and Institut für Anatomie, Ruhr-Universität Bochum, D-44780 Bochum, Germany

We report the identification and initial characterization of paralemmin, a putative new morphoregulatory protein associatedwith the plasma membrane. Paralemmin is highly expressed in thebrain but also less abundantly in many other tissues and celltypes. cDNAs from chicken, human, and mouse predict acidic proteinsof 42 kD that display a pattern of sequence cassettes with highinter-species conservation separated by poorly conserved linkersequences. Prenylation and palmitoylation of a COOH-terminal clusterof three cysteine residues confers hydrophobicity and membraneassociation to paralemmin. Paralemmin is also phosphorylated,and its mRNA is differentially spliced in a tissue-specific anddevelopmentally regulated manner. Differential splicing, lipidation,and phosphorylation contribute to electrophoretic heterogeneitythat results in an array of multiple bands on Western blots, mostnotably in brain. Paralemmin is associated with the cytoplasmicface of the plasma membranes of postsynaptic specializations,axonal and dendritic processes and perikarya, and also appearsto be associated with an intracellular vesicle pool. It does notline the neuronal plasmalemma continuously but in clusters andpatches. Its molecular and morphological properties are reminiscentof GAP-43, CAP-23, and MARCKS, proteins implicated in plasma membranedynamics. Overexpression in several cell lines shows that paralemminconcentrates at sites of plasma membrane activity such as filopodiaand microspikes, and induces cell expansion and process formation.The lipidation motif is essential for this morphogenic activity.We propose a function for paralemmin in the control of cell shape,e.g., through an involvement in membrane flow or in membrane-cytoskeletoninteraction.

Key words: farnesylation; lipidation; cortical cytoskeleton; membrane traffic; synapse

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