ϒ-secretase and LARG mediate distinct RGMa activities to control appropriate layer targeting within the optic tectum.

While a great deal of progress has been made in understanding the molecular mechanisms that regulate retino-tectal mapping, the determinants that target retinal projections to specific layers of the optic tectum remain elusive. Here we show that two independent RGMa-peptides, C- and N-RGMa, activate two distinct intracellular pathways to regulate axonal growth. C-RGMa utilizes a Leukemia-associated RhoGEF (LARG)/Rho/Rock pathway to inhibit axonal growth. N-RGMa on the other hand relies on ϒ-secretase cleavage of the intracellular portion of Neogenin to generate an intracellular domain (NeICD) that uses LIM-only protein 4 (LMO4) to block growth. In the developing tectum (E18), overexpression of C-RGMa and dominant-negative LARG (LARG-PDZ) induced overshoots in the superficial tectal layer but not in deeper tectal layers. In younger embryos (E12), C-RGMa and LARG-PDZ prevented ectopic projections toward deeper tectal layers, indicating that C-RGMa may act as a barrier to descending axons. In contrast both N-RGMa and NeICD overexpression resulted in aberrant axonal-paths, all of which suggests that it is a repulsive guidance molecule. Thus, two RGMa fragments activate distinct pathways resulting in different axonal responses. These data reveal how retinal projections are targeted to the appropriate layer in their target tissue.

Therapeutic effects of a combinatorial treatment of simvastatin and bone marrow stromal cells on experimental embolic stroke.

In this study, we investigated the therapeutic effects of simvastatin administered in combination with bone marrow stromal cells (BMSCs) following experimentally induced embolic stroke in rats. Effects on infarct volume, brain oedema and neurological deficits were examined. Focal ischaemic brain injury was induced by emblazing a preformed clot into the middle cerebral artery in rats. Animals were administered simvastatin (40 mg/kg) at 1 hr after stroke, or BMSCs (3 × 10(6)) at 24 hr after stroke or a combination of these two treatments. Rats receiving a dose of simvastatin in combination with BMSC administration demonstrated a significant reduction in neurological deficits, a significant reduction in infarct volume and a significant decrease in brain oedema. Our data show that combining simvastatin administration with BMSCs has an additive effect on improving functional outcome in this thromboembolic stroke model.