Abstract
Small GTPase Rab functions as a molecular switch that drives membrane trafficking through specific interaction with its effector molecule. Thus, identification of its specific effector domain is crucial to revealing the molecular mechanism that underlies Rab-mediated membrane trafficking. Because of the large numbers of Rab isoforms in higher eukaryotes, however, the effector domains of most of the vertebrate- or mammalian-specific Rabs have yet to be determined. In this study we screened for effector molecules of Rab36, a previously uncharacterized Rab isoform that is largely conserved in vertebrates, and we succeeded in identifying nine Rab36-binding proteins, including RILP (Rab interacting lysosomal protein) family members. Sequence comparison revealed that five of nine Rab36-binding proteins, i.e. RILP, RILP-L1, RILP-L2, and JIP3/4, contain a conserved coiled-coil domain. We identified the coiled-coil domain as a RILP homology domain (RHD) and characterized it as a common Rab36-binding site. Site-directed mutagenesis of the RHD of RILP revealed the different contributions by amino acids in the RHD to binding activity toward Rab7 and Rab36. Expression of RILP in melanocytes, but not expression of its Rab36 binding-deficient mutants, induced perinuclear aggregation of melanosomes, and this effect was clearly attenuated by knockdown of endogenous Rab36 protein. Moreover, knockdown of Rab36 in Rab27A-deficient melanocytes, which normally exhibit perinuclear melanosome aggregation because of increased retrograde melanosome transport activity, caused dispersion of melanosomes from the perinucleus to the cell periphery, but knockdown of Rab7 did not. Our findings indicated that Rab36 mediates retrograde melanosome transport in melanocytes through interaction with RILP.
Highlights
Rab36 is an uncharacterized small GTPase that is largely conserved in vertebrates
The Rab binding specificity of the Rab interacting lysosomal protein (RILP) homology domain (RHD) differs slightly among the RILP family members and JIP3/4: RILP interacts with Rab7, Rab34, and Rab36; RILP-L1 interacts with Rab12, Rab34, and Rab36; RILP-L2 interacts with Rab34 and Rab36; JIP3/4 interacts with Rab36 alone
RILP has been extensively characterized as a Rab7 effector that regulates lysosomal trafficking in various cell lines [28, 29, 34, 35], phagosome maturation in RAW264.7 cells [36], and lytic granule movement in cytotoxic T-lymphocytes [37], our results clearly indicated that RILP regulates retrograde melanosome transport in melanocytes through interaction mutants, but not of Rab36-binding-deficient monomeric strawberry (mStr)-RILP mutants, together with enhanced green fluorescent protein (EGFP)-Rab36 in melan-a cells efficiently induced perinuclear melanosome aggregation
Summary
Rab is an uncharacterized small GTPase that is largely conserved in vertebrates. Results: RILP family members and JIP3/4 contain a conserved RILP homology domain (RHD) that functions as an effector domain of Rab. Small GTPase Rab functions as a molecular switch that drives membrane trafficking through specific interaction with its effector molecule. In this study we screened for effector molecules of Rab, a previously uncharacterized Rab isoform that is largely conserved in vertebrates, and we succeeded in identifying nine Rab36-binding proteins, including RILP (Rab interacting lysosomal protein) family members. The expansion of Rab isoforms in mammals is often regarded as being attributable to the acquisition of specialized membrane trafficking events in the specialized cell types of higher eukaryotes, but because of their large numbers, the precise function of most mammalian Rabs, especially of the mammalian-specific or vertebrate-specific Rabs, is largely unknown. We discovered that Rab and its interaction with RILP are required for retrograde melanosome transport along microtubules in melanocytes Based on these findings, we propose that Rab regulates movements of Rab36-bearing vesicles/organelles through interaction with the RHD-containing proteins
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