Your search keyword '"Yimin Zou"' showing total 4 results

1. Sonic hedgehog induces response of commissural axons to Semaphorin repulsion during midline crossing.

Author

Parra, Liseth M. and Yimin Zou

Subjects

*HEDGEHOG signaling proteins, *AXONAL transport, *SEMAPHORINS, *MONOCLONAL antibodies, *PROTEIN kinases, *MORPHOGENESIS, *NEUROPILINS

Abstract

Pathfinding axons change responses to guidance cues at intermediate targets. During midline crossing, spinal cord commissural axons acquire responsiveness to class 3 Semaphorins and Slits, which regulate their floor plate exit and restrict their post-crossing trajectory into a longitudinal pathway. We found that Sonic Hedgehog (Shh) could activate the repulsive response of pre-crossing axons to Semaphorins. Blocking Shh function with a monoclonal antibody to Shh, 5E1, in 'open-book' explants or by expressing a dominant-negative form of Patched-1, Ptch1Δloop2, or a Smoothened (Smo) shRNA construct in commissural neurons resulted in severe guidance defects, including stalling and knotting inside the floor plate, recrossing, randomized anterior-posterior projection and overshooting after crossing, reminiscent of Neuropilin-2 mutant embryos. Enhancing protein kinase A activity in pre-crossing axons diminished Shh-induced Semaphorin repulsion and caused profound midline stalling and overshooting/wandering of post-crossing axons. Therefore, a morphogen, Shh, can act as a switch of axon guidance responses. [ABSTRACT FROM AUTHOR]

Published

2010

2. Wnt–Ryk signalling mediates medial–lateral retinotectal topographic mapping.

Author

Schmitt, Adam M., Shi, Jun, Wolf, Alex M., Chin-Chun Lu, King, Leslie A., and Yimin Zou

Subjects

TOPOGRAPHIC maps, GENE mapping, GENE expression, PROTEINS, RETINAL ganglion cells, AXONS

Abstract

Computational modelling has suggested that at least two counteracting forces are required for establishing topographic maps. Ephrin-family proteins are required for both anterior–posterior and medial–lateral topographic mapping, but the opposing forces have not been well characterized. Wnt-family proteins are recently discovered axon guidance cues. We find that Wnt3 is expressed in a medial–lateral decreasing gradient in chick optic tectum and mouse superior colliculus. Retinal ganglion cell (RGC) axons from different dorsal–ventral positions showed graded and biphasic response to Wnt3 in a concentration-dependent manner. Wnt3 repulsion is mediated by Ryk, expressed in a ventral-to-dorsal decreasing gradient, whereas attraction of dorsal axons at lower Wnt3 concentrations is mediated by Frizzled(s). Overexpression of Wnt3 in the lateral tectum repelled the termination zones of dorsal RGC axons in vivo. Expression of a dominant-negative Ryk in dorsal RGC axons caused a medial shift of the termination zones, promoting medially directed interstitial branches and eliminating laterally directed branches. Therefore, a classical morphogen, Wnt3, acting as an axon guidance molecule, plays a role in retinotectal mapping along the medial–lateral axis, counterbalancing the medial-directed EphrinB1–EphB activity. [ABSTRACT FROM AUTHOR]

Published

2006

3. Ryk-mediated Wnt repulsion regulates posterior-directed growth of corticospinal tract.

Author

Yaobo Liu, Jun Shi, Lu, Chin-Chun, Zheng-Bei Wang, Lyuksyutova, Anna I., Xuejun Song, and Yimin Zou

Subjects

CENTRAL nervous system diseases, SOMATOSENSORY evoked potentials, PYRAMIDAL tract, HEMOSPASIA, COLLOIDS, AXONS

Abstract

Guidance cues along the longitudinal axis of the CNS are poorly understood. Wnt proteins attract ascending somatosensory axons to project from the spinal cord to the brain. Here we show that Wnt proteins repel corticospinal tract (CST) axons in the opposite direction. Several Wnt genes were found to be expressed in the mouse spinal cord gray matter, cupping the dorsal funiculus, in an anterior-to-posterior decreasing gradient along the cervical and thoracic cord. Wnts repelled CST axons in collagen gel assays through a conserved high-affinity receptor, Ryk, which is expressed in CST axons. Neonatal spinal cord secretes diffusible repellent(s) in an anterior-posterior graded fashion, with anterior cord being stronger, and the repulsive activity was blocked by antibodies to Ryk (anti-Ryk). Intrathecal injection of anti-Ryk blocked the posterior growth of CST axons. Therefore, Wnt proteins may have a general role in anterior-posterior guidance of multiple classes of axons. [ABSTRACT FROM AUTHOR]

Published

2005

4. Corrigendum: Ryk-mediated Wnt repulsion regulates posterior-directed growth of corticospinal tract.

Author

Yaobo Liu, Jun Shi, Chin-Chun Lu, Zheng-Bei Wang, Lyuksyutova, Anna I., Xuejun Song, and Yimin Zou

Subjects

PERIODICALS

Abstract

A correction to the article "Ryk-Mediated Wnt Repulsion Regulates Posterior-Directed Growth of Corticospinal Tract" in the previous issue of the journal.

Published

2006