Journal article
Decreased anti-regenerative effects after spinal cord injury in spry4-/- mice
Y Goldshmit, F Frisca, J Kaslin, AR Pinto, JKKY Tang, A Pébay, R Pinkas-Kramarski, PD Currie
Neuroscience | Published : 2015
Abstract
Previously, we have demonstrated a role for fibroblast growth factor (Fgf) in spinal cord regeneration in both zebrafish and mouse. We have shown that exogenous Fgf2 treatment attenuates astrocytic gliosis and induces glia cells to become progenitors that undergo neurogenesis as well as differentiating into bipolar astrocytes that support axonal regeneration (Goldshmit et al., 2012, 2014). One of the downstream signaling target genes of Fgf is spry4, which acts as a feedback inhibitor for Fgf signaling. In this study we examined the effects of increased endogenous Fgf signaling, in spry4-/- mice, on the early events that occur after spinal cord injury (SCI). We demonstrate that in spry4-/- m..
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Funding Acknowledgements
This work was supported by a National Health and Medical Research Council of Australia Principal Research Fellowship to P.D.C. The Australian Regenerative Medicine Institute is supported by funds from the State Government of Victoria and the Australian Federal Government.