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Query: UMLS:C0268596 (
EMA
)
2,520
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neurons innervate multiple targets by sprouting axon branches from a primary axon shaft. We show here that the ventral guidance factor unc-6 (Netrin), its receptor unc-40 (DCC), and the gene madd-2 stimulate ventral axon branching in C. elegans chemosensory and mechanosensory neurons. madd-2 also promotes attractive axon guidance to
UNC-6
and assists unc-6- and unc-40-dependent ventral recruitment of the actin regulator MIG-10 in nascent axons.
MADD
-2 is a tripartite motif protein related to MID-1, the causative gene for the human developmental disorder Opitz syndrome.
MADD
-2 and UNC-40 proteins preferentially localize to a ventral axon branch that requires their function; genetic results indicate that
MADD
-2 potentiates UNC-40 activity. Our results identify
MADD
-2 as an UNC-40 cofactor in axon attraction and branching, paralleling the role of UNC-5 in repulsion, and provide evidence that targeting of a guidance factor to specific axonal branches can confer differential responsiveness to guidance cues.
...
PMID:The tripartite motif protein MADD-2 functions with the receptor UNC-40 (DCC) in Netrin-mediated axon attraction and branching. 2062 77
miR-125 microRNAs, such as lin-4 in Caenorhabditis elegans, were among the first microRNAs discovered, are phylogenetically conserved, and have been implicated in regulating developmental timing. Here, we showed that loss-of-function mutations in lin-4 microRNA increased axon attraction mediated by the netrin homolog
UNC-6
. The absence of lin-4 microRNA suppressed the axon guidance defects of anterior ventral microtubule (AVM) neurons caused by loss-of-function mutations in slt-1, which encodes a repulsive guidance cue. Selective expression of lin-4 microRNA in AVM neurons of lin-4-null animals indicated that the effect of lin-4 on AVM axon guidance was cell-autonomous. Promoter reporter analysis suggested that lin-4 was likely expressed strongly in AVM neurons during the developmental time frame that the axons are guided to their targets. In contrast, the lin-4 reporter was barely detectable in anterior lateral microtubule (ALM) neurons, axon guidance of which is insensitive to netrin. In AVM neurons, the transcription factor LIN-14, a target of lin-4 microRNA, stimulated
UNC-6
-mediated ventral guidance of the AVM axon. LIN-14 promoted attraction of the AVM axon through the
UNC-6
receptor UNC-40 [the worm homolog of vertebrate Deleted in Colorectal Cancer (DCC)] and its cofactor
MADD
-2, which signals through both the UNC-34 (Ena) and the CED-10 (Rac1) downstream pathways. LIN-14 stimulated
UNC-6
-mediated axon attraction in part by increasing UNC-40 abundance. Our study indicated that lin-4 microRNA reduced the activity of LIN-14 to terminate
UNC-6
-mediated axon guidance of AVM neurons.
...
PMID:The lin-4 microRNA targets the LIN-14 transcription factor to inhibit netrin-mediated axon attraction. 2269 24
Mutations in the human Mid1 gene cause Opitz G/BBB syndrome, which is characterized by various midline closure defects. The Caenorhabditis elegans homolog of Mid1, madd-2, positively regulates signaling by the unc-40 Netrin receptor during the extension of muscle arms to the midline and in axon guidance and branching. During uterine development, a specialized cell called anchor cell (AC) breaches the basal laminae separating the uterus from the epidermis and invades the underlying vulval tissue. AC invasion is guided by an
UNC-6
Netrin signal from the ventral nerve cord and an unknown guidance signal from the vulval cells. Using genetic epistasis analysis, we show that madd-2 regulates AC invasion downstream of or in parallel with the Netrin signaling pathway. Measurements of AC shape, polarity and dynamics indicate that
MADD
-2 prevents the formation of ectopic AC protrusions in the absence of guidance signals. We propose that
MADD
-2 represses the intrinsic invasive capacity of the AC, while the Netrin and vulval guidance cues locally overcome this inhibitory activity of
MADD
-2 to guide the AC ventrally into the vulval tissue. Therefore, developmental cell invasion depends on a precise balance between pro- and anti-invasive factors.
...
PMID:The Caenorhabditis elegans homolog of the Opitz syndrome gene, madd-2/Mid1, regulates anchor cell invasion during vulval development. 2320 76
We recently discovered a secreted and diffusible midline cue called
MADD
-4 (an ADAMTSL) that guides migrations along the dorsoventral axis of the nematode Caenorhabditis elegans. We showed that the transmembrane receptor, UNC-40 (DCC), whose canonical ligand is the
UNC-6
(netrin) guidance cue, is required for extension towards
MADD
-4. Here, we demonstrate that
MADD
-4 interacts with an EVA-1/UNC-40 co-receptor complex to attract cell extensions. EVA-1 is a conserved transmembrane protein with predicted galactose-binding lectin domains. EVA-1 functions in the same pathway as
MADD
-4, physically interacts with both
MADD
-4 and UNC-40, and enhances UNC-40's sensitivity to the
MADD
-4 cue. This enhancement is especially important in the presence of
UNC-6
. In EVA-1's absence,
UNC-6
interferes with UNC-40's responsiveness to
MADD
-4; in
UNC-6
's absence, UNC-40's responsiveness to
MADD
-4 is less dependent on EVA-1. By enabling UNC-40 to respond to
MADD
-4 in the presence of
UNC-6
, EVA-1 may increase the precision by which UNC-40-directed processes can reach their
MADD
-4-expressing targets within a field of the
UNC-6
guidance cue.
...
PMID:EVA-1 functions as an UNC-40 Co-receptor to enhance attraction to the MADD-4 guidance cue in Caenorhabditis elegans. 2512 90
The receptor deleted in colorectal cancer (DCC) directs dynamic polarizing activities in animals toward its extracellular ligand netrin. How DCC polarizes toward netrin is poorly understood. By performing live-cell imaging of the DCC orthologue UNC-40 during anchor cell invasion in Caenorhabditis elegans, we have found that UNC-40 clusters, recruits F-actin effectors, and generates F-actin in the absence of
UNC-6
(netrin). Time-lapse analyses revealed that UNC-40 clusters assemble, disassemble, and reform at periodic intervals in different regions of the cell membrane. This oscillatory behavior indicates that UNC-40 clusters through a mechanism involving interlinked positive (formation) and negative (disassembly) feedback. We show that endogenous
UNC-6
and ectopically provided
UNC-6
orient and stabilize UNC-40 clustering. Furthermore, the UNC-40-binding protein
MADD
-2 (a TRIM family protein) promotes ligand-independent clustering and robust UNC-40 polarization toward
UNC-6
. Together, our data suggest that
UNC-6
(netrin) directs polarized responses by stabilizing UNC-40 clustering. We propose that ligand-independent UNC-40 clustering provides a robust and adaptable mechanism to polarize toward netrin.
...
PMID:UNC-6 (netrin) stabilizes oscillatory clustering of the UNC-40 (DCC) receptor to orient polarity. 2551 71
Genetic and molecular studies have provided considerable insight into how various tissue progenitors are specified in early embryogenesis, but much less is known about how those progenitors create three-dimensional tissues and organs. The C. elegans intestine provides a simple system for studying how a single progenitor, the E blastomere, builds an epithelial tube of 20 cells. As the E descendants divide, they form a primordium that transitions between different shapes over time. We used cell contours, traced from confocal optical z-stacks, to build a 3D graphic reconstruction of intestine development. The reconstruction revealed several new aspects of morphogenesis that extend and clarify previous observations. The first 8 E descendants form a plane of four right cells and four left cells; the plane arises through oriented cell divisions and VANG-1/Van Gogh-dependent repositioning of any non-planar cells. LIN-12/Notch signaling affects the left cells in the E8 primordium, and initiates later asymmetry in cell packing. The next few stages involve cell repositioning and intercalation events that shuttle cells to their final positions, like shifting blocks in a Rubik's cube. Repositioning involves breaking and replacing specific adhesive contacts, and some of these events involve EFN-4/Ephrin, MAB-20/semaphorin-2a, and SAX-3/Robo. Once cells in the primordium align along a common axis and in the correct order, cells at the anterior end rotate clockwise around the axis of the intestine. The anterior rotation appears to align segments of the developing lumen into a continuous structure, and requires the secreted ligand
UNC-6
/netrin, the receptor UNC-40/DCC, and an interacting protein called
MADD
-2. Previous studies showed that rotation requires a second round of LIN-12/Notch signaling in cells on the right side of the primordium, and we show that
MADD
-2-GFP appears to be downregulated in those cells.
...
PMID:Morphogenesis of the C. elegans Intestine Involves Axon Guidance Genes. 2719 49
Directional migration of neurons and neuronal precursor cells is a central process in nervous system development. In the nematode
Caenorhabditis elegans
, the two Q neuroblasts polarize and migrate in opposite directions along the anteroposterior body axis. Several key regulators of Q cell polarization have been identified, including MIG-21, DPY-19/DPY19L1, the netrin receptor UNC-40/DCC, the Fat-like cadherin CDH-4 and CDH-3/Fat, which we describe in this study. How these different transmembrane proteins act together to direct Q neuroblast polarization and migration is still largely unknown. Here, we demonstrate that MIG-21 and DPY-19, CDH-3 and CDH-4, and UNC-40 define three distinct pathways that have partially redundant roles in protrusion formation, but also separate functions in regulating protrusion direction. Moreover, we show that the MIG-21, DPY-19 and Fat-like cadherin pathways control the localization and clustering of UNC-40 at the leading edge of the polarizing Q neuroblast, and that this is independent of the UNC-40 ligands
UNC-6
/netrin and
MADD
-4. Our results provide insight into a novel mechanism for ligand-independent localization of UNC-40 that directs the activity of UNC-40 along the anteroposterior axis.
...
PMID:Partially overlapping guidance pathways focus the activity of UNC-40/DCC along the anteroposterior axis of polarizing neuroblasts. 3148 62
