This may represent a latent capacity of self-defence, evoked unde

This may represent a latent capacity of self-defence, evoked under certain circumstances. It is likely that these properties substantially help the tumors thrive and expand. “
“Transplanted bone marrow stromal cells (BMSC) promote functional recovery after spinal

cord injury (SCI) through multiple mechanisms. A Rho kinase inhibitor, Fasudil also LY294002 enhances axonal regeneration. This study was aimed to evaluate whether combination therapy of BMSC transplantation and Fasudil further enhances axonal regeneration and functional recovery in rats subjected to SCI. Fasudil or vehicle was injected for 2 weeks. BMSC or vehicle transplantation into the rostral site of SCI was performed at 7 days after injury. Neurological symptoms were assessed throughout the experiments. Fluoro-Ruby

was injected into the dorsal funiculus of the rostral site of SCI at 63 days after injury. The fate of the transplanted BMSC was examined using immunohistochemistry. BMSC transplantation significantly increased the number of Fluoro-Ruby -labeled fibers of the dorsal corticospinal tracts at the caudal site of SCI, enhancing functional recovery of the hind limbs. Some of the engrafted BMSC were positive for Fluoro-Ruby, neuronal specific nuclear protein Cobimetinib clinical trial and microtubule-associated protein-2, suggesting that they acquired neuronal phenotypes and built synaptic connection with the host’s neural circuits. Fasudil treatment also improved axonal continuity, but did not promote functional recovery. Combination therapy dramatically increased the number of Fluoro-Ruby-labeled fibers

of the dorsal corticospinal tracts at the caudal site of SCI, but did not further boost the therapeutic effects on locomotor function by BMSC transplantation. The findings suggest that BMSC transplantation and Fasudil provide synergistic effects on axon regeneration after SCI, although further studies would be necessary to further enhance functional recovery. “
“J. Satoh, H. Tabunoki, T. Ishida, Y. Saito and K. Arima (2012) Neuropathology and Applied Neurobiology38, 132–141 Immunohistochemical characterization of γ-secretase activating protein expression in Alzheimer’s disease brains Aims: A recent study very showed that γ-secretase activating protein (GSAP), derived from a C-terminal fragment of pigeon homolog (PION), increases amyloid-β (Aβ) production by interacting with presenilin-1 (PS1) and the β-secretase-cleaved C-terminal fragment of amyloid precursor protein (APP-CTF). In the study, knockdown of GSAP reduces production of Aβ and plaque formation in the brain of APPswe and PS1ΔE9 double transgenic mice without affecting the Notch-dependent pathway. Therefore, GSAP is an ideal target for designing γ-secretase modulators with least side effects in Alzheimer’s disease (AD). However, at present, the precise distribution of GSAP in AD brains remains to be characterized.

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