Rab8 is a GTPase involved in membrane trafficking. In photoreceptor cells, rab8 is proposed to participate in the late stages of delivery of rhodopsin-containing post-Golgi membranes to the plasma membrane near the base of the connecting cilium. To test the function of rab8 in vivo, we generated transgenic Xenopus laevis expressing wild-type, constitutively active (Q67L), and dominant negative (T22N) forms of canine rab8 in their rod photoreceptors as green fluorescent protein (GFP) fusion proteins. Wild-type and constitutively active GFP-rab8 proteins were primarily associated with Golgi and post-Golgi membranes, whereas the dominant negative protein was primarily cytoplasmic. Expression of wild-type GFP-rab8 had minimal effects on cell survival and intracellular structures. In contrast, GFP-rab8T22N caused rapid retinal degeneration. In surviving peripheral rods, tubulo-vesicular structures accumulated at the base of the connecting cilium. Expression of GFP-rab8Q67L induced a slower retinal degeneration in some tadpoles. Transgene effects were transmitted to F1 offspring. Expression of the GFP-rab8 fusion proteins appears to decrease the levels of endogenous rab8 protein. Our results demonstrate a role for rab8 in docking of post-Golgi membranes in rods, and constitute the first report of a transgenic X. laevis model of retinal degenerative disease.
INTRODUCTIONVertebrate rod photoreceptors are highly polarized neurons. They possess a light-detecting organelle, the rod outer segment (OS), which is separated from the cell body (the inner segment [IS]) by a connecting cilium (CC) and is composed of a stack of rhodopsin-containing membranous disks. OS membranes are continuously renewed (Young and Droz, 1968). Amphibian rods synthesize photosensitive membranes at an extremely high rate, estimated at 3.2 m 2 /min/ cell for Xenopus laevis (Besharse et al., 1977;Besharse, 1986). Amphibian rods are an excellent system for studying neuronal membrane transport, because the components involved are likely to be hypertrophied to accommodate high synthetic rates. Furthermore, rods are sensitive to trafficking disruptions; mutations in the rhodopsin gene that disrupt a sorting signal result in IS accumulation of rhodopsin and cause retinitis pigmentosa (Berson 1993;Sung et al., 1994;Deretic et al., 1998;Tam et al., 2000).Eukaryotic cells possess complex mechanisms to control membrane trafficking between intracellular compartments. Rab proteins are highly conserved GTPases involved in trafficking, although their role is obscure. The human genome contains genes encoding at least 60 rab family members (Bock et al., 2001), each of which may participate in a different trafficking pathway (Novick and Zerial, 1997). Rab8 and rab6, as well as other GTP-binding proteins, are associated with rhodopsin-containing post-Golgi membranes isolated from frog photoreceptors (Deretic et al., 1995;Deretic and Papermaster, 1993). Peptides derived from the effector region of rab6 (Deretic, 1998) and the C terminus of rhodopsin inhibit the format...
