CDB20:0002917 SLIT3 — ROBO1
Experimentally validated in Human, Mouse; Orthology-inferred in Human, Rat, Frog, Zebrafish, Chicken, Macaque, Pig, Dog, Cow, Chimp, Horse, Marmoset, Sheep, Mouse
Title
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Abstract
Repulsive axon guidance molecule Slit3 is a novel angiogenic factor.
Blood, 2009; PubMed, Homo sapiens SLIT3 — Homo sapiens ROBO1
ABSTRACT: Slits are large, secreted repulsive axon guidance molecules. Recent genetic studies revealed that the Slit3 is dispensable for neural development but required for non-neuron-related developmental processes, such as the genesis of the diaphragm and kidney. Here we report that Slit3 potently promotes angiogenesis, a process essential for proper organogenesis during embryonic development. We observed that Slit3 is expressed and secreted by both endothelial cells and vascular smooth muscle cells in vasculature and that the Slit cognate receptors Robo1 and Robo4 are universally expressed by endothelial cells, suggesting that Slit3 may act in paracrine and autocrine manners to regulate endothelial cells. Cellular function studies revealed that Slit3 stimulates endothelial-cell proliferation, promotes endothelial-cell motility and chemotaxis via interaction with Robo4, and accelerates endothelial-cell vascular network formation in vitro with a specific activity comparable with vascular endothelial growth factor. Furthermore, Slit3 stimulates neovessel sprouting ex vivo and new blood vessel growth in vivo. Consistent with these observations, the Slit3 knockout mice display disrupted angiogenesis during embryogenesis. Taken together, our studies reveal that the repulsive axon guidance molecule Slit3 is a novel and potent angiogenic factor and functions to promote angiogenesis in coordinating organogenesis during embryonic development.
Osteoclast-secreted SLIT3 coordinates bone resorption and formation.
The Journal of clinical investigation, 2018; PubMed, Mus Musculus Slit3 — Mus Musculus Robo1
ABSTRACT: Coupling is the process that links bone resorption to bone formation in a temporally and spatially coordinated manner within the remodeling cycle. Several lines of evidence point to the critical roles of osteoclast-derived coupling factors in the regulation of osteoblast performance. Here, we used a fractionated secretomic approach and identified the axon-guidance molecule SLIT3 as a clastokine that stimulated osteoblast migration and proliferation by activating β-catenin. SLIT3 also inhibited bone resorption by suppressing osteoclast differentiation in an autocrine manner. Mice deficient in Slit3 or its receptor, Robo1, exhibited osteopenic phenotypes due to a decrease in bone formation and increase in bone resorption. Mice lacking Slit3 specifically in osteoclasts had low bone mass, whereas mice with either neuron-specific Slit3 deletion or osteoblast-specific Slit3 deletion had normal bone mass, thereby indicating the importance of SLIT3 as a local determinant of bone metabolism. In postmenopausal women, higher circulating SLIT3 levels were associated with increased bone mass. Notably, injection of a truncated recombinant SLIT3 markedly rescued bone loss after an ovariectomy. Thus, these results indicate that SLIT3 plays an osteoprotective role by synchronously stimulating bone formation and inhibiting bone resorption, making it a potential therapeutic target for metabolic bone diseases.