There are three
phases in hermaphrodite distal tip
cell migration in
Caenorhabditis elegans which are distinguished by the
orientation of their movements which alternate between
anteroposterior and
dorsoventral axes. Experimentation has shown that UNC-5 is coincident with the second migration phase and that premature expression will result in turning in a UNC-6 dependent manner. This also demonstrates the mechanism that regulates UNC-5 is critical for UNC-6 netrin guidance cue responsiveness. Although it normally guides axons along the
dorsoventral axis, UNC-40 can be co-opted with SAX-3 to affect cell migrations along the anterior posterior axis. VAB-8 protein is identified as an upstream
regulator for UNC-40 and identifies the mechanism for
polarity in axon and cell
migration.
Formation ;Growth An experiment was performed to determine if UNC-5 is required for
localization of
presynaptic components in DA9. When testing the effect of unc-5::intron::unc-5 transgene on a
mislocalization defect in UNC-5 mutant animals at 25 °C a significant rescue of the mislocalization defect was observed. In mutant animals,
ventral and
dorsal migrations are disrupted but
longitudinal movements are unaffected. They discovered that this rescue does not occur at 16 °C because the transgene fails to produce UNC-5 at that temperature. This is relevant because is shows that the
mislocalization defect is due to a change in temperature at the L4
larval stage which occurs after DA9 is fully developed. This suggests that UNC-5 is only required for the early outgrowth phase to guide axons. UNC-5 presents a novel function in maintaining
polarized localization of GFP::RAB-3 independently of early polarization and guidance. When testing directly for whether UNC-6 netrin provides information for localization of
presynaptic components an interesting discovery was made. The egl-20::unc-6 transgene creates an enlarged asynaptic zone of the DA9 dorsal axon. They further observed that the enlarged asynaptic
domain is restored partly in UNC-5 which demonstrates that UNC-5 acts cell autonomously in DA9 in order to mediate ectopic UNC-6 exclusion of presynaptic components. The UNC-6 gradient is high ventrally and low
dorsally and encompasses the
dendrite and
ventral axon of DA9. UNC-6 was recently found to cause the initial polarization of the
C. elegans hermaphrodite specific neuronal
cell body. The findings of this experiment suggest that UNC-6 and UNC-5 coordinate two different functions in DA9 and that the netrin is expressed after axon guidance is complete. Extracellular cues such as Wnt
fibroblast growth factor can promote
synapse formation, contradicting the traditional view of
synapse formation from contact between
synaptic partners to trigger the assembly of synaptic components.
Inhibitory factors such as UNC-5 play essential roles in the formation and maintenance of synaptic components. ;Adult expression In a study done in rat
spinal cords, increased netrin-1, UNC-5
homologue levels were observed compared to lower levels measured in the
embryo. From this study multiple
mRNA transcripts were detected by
northern blot analysis. This finding suggests that
netrin receptors could be encoded by alternatively spliced mRNAs. During
embryonic development only one
splice variant is detected while there are two in the adult model. The results of these findings suggest that UNC-5 homologues make up a primary method of netrin-1 signal transduction in the adult
spinal cord. This shows that netrin-1 plays a major role in the adult brain and has the potential for
therapeutic applications.
Plasticity Similar to growth cone guidance,
synapse formation is cued by UNC-5 through a UNC-6 gradient that repels the dorsal
axon migration. Dendritic
filopodia extend from the
dendritic shaft during synaptogenesis and appear as though they are reaching out for a
presynaptic axon. Despite the appearance of attaching to an axon, cell signaling is still required for complete synaptic formation. An experiment was performed to determine the role of UNC-5 in axonal growth after spinal cord injury. The
netrin is expressed by
neurons in the corticospinal and rubrospinal projections, and by intrinsic
neurons of the
spinal cord both before and after the injury. When testing
in vitro UNC-5 receptor bodies are taken from the
spinal cord to neutralize netrin-1 in myelin. This increases the neurite outgrowth from UNC-5 expressing spinal
motor neurons.
UNC-129 UNC-129 is a
ligand in the transforming growth factor family in
C. elegans which encodes transforming growth factor β (TGF-β). Like UNC-6 it guides
pioneer axons along the
dorsoventral axis of C. elegans. TGF-β is expressed only in dorsal rows of body wall muscles and not ventral. Ectotopic expression of UNC-129 from the muscle results in disrupted growth cone and
cell migrations. This shows that UNC-129 is responsible for mediating expression of
dorsoventral polarity required for
axon guidance. Recent findings have shown that UNC-129 is also responsible for long range
repulsive guidance of UNC-6. This mechanism enhances UNC-40 signaling while inhibiting UNC-5 alone. This causes an increase in sensitivity in
growth cones to UNC-6 as they travel up the UNC-129 gradient. UNC-129 mediates expression of
dorsoventral polarity information required for axon guidance and guided cell migrations in
Caenorhabditis elegans.
Dendritic self avoidance Recently it was found that
dendrites do not overlap and actively avoid each other because cell specific
membrane proteins trigger mutual
repulsion (genetics). In the absence of UNC-6 signaling however,
dendrites failed to repel each other. This finding supports the idea that UNC-6 is critical for axon and
dendritic guidance in the
developmental stage. It is also known that self avoidance requires UNC-6 but not a UNC-6 graded signal. A
ventral to dorsal UNC-6
gradient is not required for expression and dendritic self avoidance is independent of such a
gradient. UNC-6 that binds to UNC-40 takes on different properties and functions as a short range guidance cue.
Vertebrate laminins Netrins share the same
terminal structure with
vertebrate laminins but appear minimally related. The
basement membrane assembly across species, Vertebrate laminin-1 (α1β1γ1) and laminin-10 (α5β1γ1), like the two
Caenorhabditis elegans laminins, are
embryonically expressed and are essential for basement membrane assembly. During the basement assembly process
laminins anchor to the cell surface through their G domains after
polymerizing through their LN domains. Netrins are involved in
heterotropic LN domain interactions during this process which suggests that although similar in structure, the functions of the two families are different. == Applications ==