The cellular and developmental expression of hrs-2 in rat.

The molecular events underlying vesicular trafficking probably involve the formation and dissolution of protein complexes between integral components of the vesicle and its target membrane. SNAP-25 is associated with the plasma membrane and is a component of a core protein complex thought to be essential for neurotransmitter release. We have previously characterized a protein, hrs-2, that interacts with SNAP-25 and inhibits secretion from permeabilized PC12 cells. The cellular localization and developmental expression patterns of a number of proteins involved in the secretion machinery have been documented. To understand more about the possible cellular role of hrs-2, we have examined hrs-2 distribution, developmental expression and subcellular localization in rat tissues and cell lines. We show herein that the distribution of hrs-2 in brain and periphery parallels that of SNAP-23/25, and that recombinant hrs-2 binds to both SNAP-23 and SNAP-25. Hrs-2 mRNA and protein are found almost ubiquitously in neurons in the brain. Hrs-2 mRNA is expressed in the neural tube at E10 and thereafter mRNA and protein levels remain relatively constant in the whole brain through adulthood. In cultured PC12 cells, endogenous hrs-2 is expressed in the cytoplasm and on the limiting membranes of multivesicular bodies. Overexpression of hrs-2 in mammalian cells results in the appearance of large intracellular compartments that are labelled with hrs-2 antibodies. The wide distribution, the interaction with SNAP-23 and the localization on multivesicular body membranes suggest a general role for hrs-2 in cellular machinery.