The human
body comprises a great many cells, each of which contains many subcellular
units known as organelles (e.g., nucleus, the Golgi apparatus, and endoplasmic
reticulum).@ Signals are exchanged
frequently between cells and between organelles through gmembrane
traffich, in which membrane-wrapped substances
are transported.@ However, much remains
unknown about this process.@ Our
laboratory focuses on the secretory phenomena (i.e., transport of secretory
vesicles in neurons and endocrine cells) and on the melanin transport in
melanocytes and tries to identify gkey moleculesh
responsible for the secretion events and melanin transport.@ The aim of our research is to elucidate the
molecular mechanism of membrane traffic by use of molecular biology, cell
biology, biochemistry, and molecular imaging techniques.
We
previously showed that an abundant synaptic vesicle protein synaptotagmin I (Syt I) regulates synaptic vesicle
exocytosis (i.e., neurotransmitter release) and endocytosis in neurons.@ Syt I consists of a single N-terminal
transmembrane domain and C-terminal tandem C2 calcium/phospholipid-binding
domains (named C2A domain and C2B domain).@
These two C2 domains are functional domains of Syt I, because
functionally blocking antibody against the C2A domain (or the C2B domain)
inhibited synaptic vesicle fusion step (or synaptic vesicle recycling step) (PNAS, 2000; PNAS, 2004).
We have
identified novel synaptotagmin-related molecules that contain tandem C2 domains
at the C terminus (named Slp, synaptotagmin-like
protein) and their related protein Slac2
(Slp homologue lacking C2 domains).@
Both Slp and Slac2 contain the conserved domain (named SHD, Slp homology
domain) at their N terminus, and we found that the SHD functions as an effector
domain for small GTPase Rab27A, which is specifically present on melanosomes in
mammalian skin melanocytes (JBC,
2002).@ We further found that two Rab27A
effectors, Slac2-a (also called melanophilin) and Slp2-a, are abundantly
expressed on melanosomes and sequentially regulate melanosome transport in
melanocytes (Nature Cell Biol.,
2004).@ Slac2-a simultaneously interacts
with Rab27A on the melanosome and with an actin-based motor myosin Va, and the
resultant tripartite protein complex (Rab27A-Slac2-a-myosin Va) mediates
actin-based melanosome transport (MCB,
2003).@ After actin-dependent melanosome
transport, the second Rab27A effector Slp2-a promotes the anchoring of
melanosomes to the plasma membrane of melanocytes through direct interaction of
the C2A domain with phosphatidylserine (PS).@
Moreover, we found that some other Rab27A effectors (e.g., Slp4-a and
rabphilin) promote docking of Rab27-bound organelles (e.g., secretory granules)
to the plasma membrane (JBC, 2005; MBC, 2006; JCS, 2006), the
same as the role of Slp2-a in anchoring of melanosomes to the to the plasma
membrane.
Currently,
we are focusing on the function of gRab small
GTPasesh, key regulators in membrane traffic in
all eukaryotes.@ Approximately 60 Rab
members are present in mammals and they are thought to be involved in specific step
or specific type of membrane traffic.@
However, because of their large numbers the precise function of most
mammalian Rab isoforms is still unknown.@
We recently developed new tools for comprehensive analysis of the
mammalian Rab family (named gRab panelsh), and
their development has paved the way for systematic investigation of the
involvement of mammalian Rab isoforms in specialized membrane trafficking
events (MCP, 2008; Traffic, 2010; Traffic, 2011), including melanosome
biogenesis/transport (MBC, 2009; JBC, 2011), autophagy (MBC, 2008; JCB, 2011), and neuronal polarity
formation (JBC, 2012).