Kf So
Jinan University
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Publication
Featured researches published by Kf So.
Nature Medicine | 2007
Sha Mi; Bing Hu; Kyungmin Hahm; Yi Luo; Edward S. Hui; Qiuju Yuan; Wai-Man Wong; Li Wang; Huanxing Su; Tak-Ho Chu; Jiasong Guo; Wenming Zhang; Kf So; Blake Pepinsky; Zhaohui Shao; Christilyn Graff; Ellen Garber; Vincent Jung; Wutian Wu
Demyelinating diseases, such as multiple sclerosis, are characterized by the loss of the myelin sheath around neurons, owing to inflammation and gliosis in the central nervous system (CNS). Current treatments therefore target anti-inflammatory mechanisms to impede or slow disease progression. The identification of a means to enhance axon myelination would present new therapeutic approaches to inhibit and possibly reverse disease progression. Previously, LRR and Ig domain–containing, Nogo receptor–interacting protein (LINGO-1) has been identified as an in vitro and in vivo negative regulator of oligodendrocyte differentiation and myelination. Here we show that loss of LINGO-1 function by Lingo1 gene knockout or by treatment with an antibody antagonist of LINGO-1 function leads to functional recovery from experimental autoimmune encephalomyelitis. This is reflected biologically by improved axonal integrity, as confirmed by magnetic resonance diffusion tensor imaging, and by newly formed myelin sheaths, as determined by electron microscopy. Antagonism of LINGO-1 or its pathway is therefore a promising approach for the treatment of demyelinating diseases of the CNS.
Brain Research | 1985
Kf So; Albert J. Aguayo
Ganglion cell axons regrew to approximately their normal length (2 cm) when autologous peripheral nerve segments were inserted into the retina of adult rats for 4-18 weeks. Retrograde labeling from the graft with HRP or combinations of two different fluorescent dyes applied to the optic tract and graft demonstrate that axons growing into the nerve transplants originated from axotomized ganglion cells rather than by sprouting of undamaged neurons. Axonal injury and graft proximity to neuronal somata appear as requisites for the elongation of these fibers.
Neurotoxicology | 2009
Yt Cheung; Way Kwok-Wai Lau; Man-Shan Yu; Cora Sau-Wan Lai; Sze-Chun Yeung; Kf So; Raymond Chuen-Chung Chang
Human neuroblastoma SH-SY5Y is a dopaminergic neuronal cell line which has been used as an in vitro model for neurotoxicity experiments. Although the neuroblastoma is usually differentiated by all-trans-retinoic acid (RA), both RA-differentiated and undifferentiated SH-SY5Y cells have been used in neuroscience research. However, the changes in neuronal properties triggered by RA as well as the subsequent responsiveness to neurotoxins have not been comprehensively studied. Therefore, we aim to re-evaluate the differentiation property of RA on this cell line. We hypothesize that modulation of signaling pathways and neuronal properties during RA-mediated differentiation in SH-SY5Y cells can affect their susceptibility to neurotoxins. The differentiation property of RA was confirmed by showing an extensive outgrowth of neurites, increased expressions of neuronal nuclei, neuron specific enolase, synaptophysin and synaptic associated protein-97, and decreased expression of inhibitor of differentiation-1. While undifferentiated SH-SY5Y cells were susceptible to 6-OHDA and MPP+, RA-differentiation conferred SH-SY5Y cells higher tolerance, potentially by up-regulating survival signaling, including Akt pathway as inhibition of Akt removed RA-induced neuroprotection against 6-OHDA. As a result, the real toxicity cannot be revealed in RA-differentiated cells. Therefore, undifferentiated SH-SY5Y is more appropriate for studying neurotoxicity or neuroprotection in experimental Parkinsons disease research.
Molecular and Cellular Neuroscience | 2003
Qi Cui; Henry K. Yip; Robert Chunhua Zhao; Kf So; Alan R. Harvey
In vitro, cyclic AMP (cAMP) elevation alters neuronal responsiveness to diffusible growth factors and myelin-associated inhibitory molecules. Here we used an established in vivo model of adult central nervous system injury to investigate the effects of elevated cAMP on neuronal survival and axonal regeneration. We studied the effects of intraocular injections of neurotrophic factors and/or a cAMP analogue (CPT-cAMP) on the regeneration of axotomized rat retinal ganglion cell (RGC) axons into peripheral nerve autografts. Elevation of cAMP alone did not significantly increase RGC survival or the number of regenerating RGCs. Ciliary neurotrophic factor increased RGC viability and axonal regrowth, the latter effect substantially enhanced by coapplication with CPT-cAMP. Under these conditions over 60% of surviving RGCs regenerated their axons. Neurotrophin-4/5 injections also increased RGC viability, but there was reduced long-distance axonal regrowth into grafts, an effect partially ameliorated by cAMP elevation. Thus, cAMP can act cooperatively with appropriate neurotrophic factors to promote axonal regeneration in the injured adult mammalian central nervous system.
Cellular and Molecular Neurobiology | 2008
Raymond Chuen-Chung Chang; Kf So
Lycium barbarum (Gouqizi, Fructus Lycii, Wolfberry) is well known for nourishing the liver, and in turn, improving the eyesight. However, many people have forgotten its anti-aging properties. Valuable components of L. barbarum are not limited to its colored components containing zeaxanthin and carotene, but include the polysaccharides and small molecules such as betaine, cerebroside, β-sitosterol, p-coumaric, and various vitamins. Despite the fact that L. barbarum has been used for centuries, its beneficial effects to our bodies have not been comprehensively studied with modern technology to unravel its therapeutic effects at the biochemical level. Recently, our laboratory has demonstrated its neuroprotective effects to counter neuronal loss in neurodegenerative diseases. Polysaccharides extracted from L. barbarum can protect neurons against β-amyloid peptide toxicity in neuronal cell cultures, and retinal ganglion cells in an experimental model of glaucoma. We have even isolated the active component of polysaccharide which can attenuate stress kinases and pro-apoptotic signaling pathways. We have accumulated scientific evidence for its anti-aging effects that should be highlighted for modern preventive medicine. This review is to provide background information and a new direction of study for the anti-aging properties of L. barbarum. We hope that new findings for L. barbarum will pave a new avenue for the use of Chinese medicine in modern evidence-based medicine.
European Journal of Neuroscience | 2004
Jianzhong Ji; Wassim Elyaman; Henry K. Yip; Vincent Wing-hong Lee; Leung Wah Yick; Jacques Hugon; Kf So
We examined the neuroprotective effect of ciliary neurotrophic factor (CNTF) on retinal ganglion cells (RGCs) in a rat glaucoma model with increased intraocular pressure (IOP) and studied the CNTF‐mediated activation of Janus kinase/signal transducer and activator of transcription (JAK‐STAT) pathway. Elevated IOP was induced by laser photocoagulation of the episcleral and limbal veins. The survival of RGCs was studied using Fluoro‐Gold labelled in ocular hypertensive eyes with or without CNTF intravitreal injection. Immunochemical staining and immunoblot analysis for CNTF and phosphorylated STAT3 (pSTAT3) were performed. There was a significant and progressive loss of RGCs in the retinas following the induction of elevated IOP. A single intravitreal injection of 2 µg in 2 µL CNTF significantly protected RGCs up to 4 weeks. pSTAT3 was only transiently expressed in ocular hypertensive eyes. However, in eyes treated with CNTF, pSTAT3 was observed up to 2 weeks after the induction of elevated IOP. In ocular hypertensive eyes, CNTF‐positive cells were found in the inner nuclear layer (INL), and there was a transient increase in the pSTAT3 cells in the ganglion cell layer and INL. Immunoblots showed that STAT3 was transiently phosphorylated after IOP increase, but with an injection of CNTF, pSTAT3 protein was observed up to 2 weeks after hypertensive glaucoma induction. Laser‐induced chronic ocular hypertension in rats resulted in the death of RGCs and a transient activation of STAT3 in the retina. Intravitreal injection of CNTF showed a significant protection of RGCs, and the JAK‐STAT signalling could be one of the important pathways that underlie the mechanism of CNTF neuroprotection in this rat glaucoma model.
Experimental Gerontology | 2005
Man-Shan Yu; Sarana Ka-Yan Leung; Sau-Wan Lai; Chi-Ming Che; Sze-Yong Zee; Kf So; Wh Yuen; Raymond Chuen-Chung Chang
As aged population dramatically increases in these decades, efforts should be made on the intervention for curing age-associated neurodegenerative diseases such as Alzheimers disease (AD). Natural plant extracts of Lycium barbarum are well-known to exhibit anti-aging effects. We therefore hypothesized that they exhibit neuroprotective effects against toxins in aging-related neurodegenerative diseases. In this study, we aimed to investigate whether extracts from L. barbarum have neuroprotective effects against toxicity of fibrillar Abeta(1-42) and Abeta(25-35) fragments. Primary rat cortical neurons exposed to Abeta peptides resulted in apoptosis and necrosis. Pre-treatment with extract isolated from L. barbarum significantly reduced the release of lactate dehydrogenase (LDH). In addition, it attenuated Abeta peptide-activated caspases-3-like activity. The extract elicited a typical dose-dependent neuroprotective effect. Effective dosage of this extract was wider than that of a well-known western neuroprotective medicine lithium chloride (LiCl). We have further examined the underlying mechanisms of the neuroprotective effects. In agreement with other laboratories, Abeta peptides induce a rapid activation of c-Jun N-terminal kinase (JNK) by phosphorylation. Pre-treatment of aqueous extract markedly reduced the phosphorylation of JNK-1 (Thr183/Tyr185) and its substrates c-Jun-I (Ser 73) and c-Jun-II (Ser 63). Taken together, we have proved our hypothesis by showing neuroprotective effects of the extract from L. barbarum. Study on anti-aging herbal medicine like L. barbarum may open a new therapeutic window for the prevention of AD.
Neuroreport | 2000
Leung-Wah Yick; Wutian Wu; Kf So; Henry K. Yip; Daisy Kwok-Yan Shum
We examined whether enzymatic digestion of chondroitin sulfate (CS) promoted the axonal regeneration of neurons in Clarkes nucleus (CN) into a peripheral nerve (PN) graft following injury of the spinal cord. After hemisection at T11, a segment of PN graft was implanted at the lesion site. Either vehicle, brain-derived neurotrophic factor (BDNF) or chondroitinase ABC was applied at the implantation site. The postoperative survival period was 4 weeks. Treatment with vehicle or BDNF did not promote the axonal regeneration of CN neurons into the PN graft. Application of 2.5 unit/ml chondroitinase ABC resulted in a significant increase (12.8%) in the number of regenerated CN neurons. Double labeling with Fluoro-Gold and NADPH-diaphorase histochemistry showed that the regenerated CN neurons did not express nitric oxide synthase (NOS). Our results suggest that CS is inhibitory to the regeneration of CN neurons following injury of the spinal cord.
Molecular and Cellular Neuroscience | 2006
Benxiu Ji; Mingwei Li; Wutian Wu; Leung-Wah Yick; Xinhua Lee; Zhaohui Shao; Joy Wang; Kf So; R. Blake Pepinsky; Sha Mi; Jane Relton
LINGO-1 is a CNS-specific protein and a functional component of the NgR1/p75/LINGO-1 and NgR1/TAJ(TROY)/LINGO-1 signaling complexes that mediate inhibition of axonal outgrowth. These receptor complexes mediate the axonal growth inhibitory effects of Nogo, myelin-associated glycoprotein (MAG) and oligodendrocyte-myelin glycoprotein (OMgp) via RhoA activation. Soluble LINGO-1 (LINGO-1-Fc), which acts as an antagonist of these pathways by blocking LINGO-1 binding to NgR1, was administered to rats after dorsal or lateral hemisection of the spinal cord. LINGO-1-Fc treatment significantly improved functional recovery, promoted axonal sprouting and decreased RhoA activation and increased oligodendrocyte and neuronal survival after either rubrospinal or corticospinal tract transection. These experiments demonstrate an important role for LINGO-1 in modulating axonal outgrowth in vivo and that treatment with LINGO-1-Fc can significantly enhance recovery after spinal cord injury.
Nature Methods | 2013
Linli Wang; Wenhao Huang; Huanxing Su; Yanting Xue; Zhenghui Su; Baojian Liao; Hao Wang; Xichen Bao; Dajiang Qin; Jufang He; Wutian Wu; Kf So; Guangjin Pan; Duanqing Pei
Human neural stem cells hold great promise for research and therapy in neural disease. We describe the generation of integration-free and expandable human neural progenitor cells (NPCs). We combined an episomal system to deliver reprogramming factors with a chemically defined culture medium to reprogram epithelial-like cells from human urine into NPCs (hUiNPCs). These transgene-free hUiNPCs can self-renew and can differentiate into multiple functional neuronal subtypes and glial cells in vitro. Although functional in vivo analysis is still needed, we report that the cells survive and differentiate upon transplant into newborn rat brain.