Neuronal glycosylation differentials in normal, injured and chondroitinase-treated environments

Kilcoyne, Michelle; Sharma, Shashank; McDevitt, Niamh; O’Leary, Claire; Joshi, Lokesh; McMahon, Siobhán S.

doi:10.1016/j.bbrc.2012.03.047

Cited by 17 publications

(17 citation statements)

References 33 publications

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“…Only targeting the intracellular IF protein could suppress the GFAP expression and reduce physical obstacles, but the newborn axons would stop growing once meeting the ECM [21,22]. Also, only inhibiting the extracellular CSPG expression may result in a fragile capacity of newborn axon growth, rendering them unable to pass through dense scar tissue and thus limiting neurologic recovery [23,24]. In our previous research, we reported that the use of antisense vimentin complementary DNA and chondroitinase ABC for treating SCI can effectively inhibit glial scar and shrink the cystic cavities area.…”

Section: Discussionmentioning

confidence: 98%

Curcumin improves neural function after spinal cord injury by the joint inhibition of the intracellular and extracellular components of glial scar

Yuan

Zou

Xiang

et al. 2015

Journal of Surgical Research

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Section: Discussionmentioning

confidence: 98%

Curcumin improves neural function after spinal cord injury by the joint inhibition of the intracellular and extracellular components of glial scar

Yuan

Zou

Xiang

et al. 2015

Journal of Surgical Research

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“…SSEA-3 and -4 glycolipids used to identify human embryonic stem cells 23 24 . Cell surface glycosylation alters temporally and spatially during differentiation, development and disease 24 25 26 and reflects the cell phenotypic and tissue biological status 27 . Glycosylation has numerous biological roles, including cellular homing and trafficking, signalling, cell-cell and cell-ECM communication and adhesion 24 26 28 .…”

mentioning

confidence: 99%

“…Cell surface glycosylation alters temporally and spatially during differentiation, development and disease 24 25 26 and reflects the cell phenotypic and tissue biological status 27 . Glycosylation has numerous biological roles, including cellular homing and trafficking, signalling, cell-cell and cell-ECM communication and adhesion 24 26 28 . Glycans exert their biological effects in vivo via lectins, carbohydrate-binding proteins 24 26 .…”

mentioning

confidence: 99%

“…Glycosylation has numerous biological roles, including cellular homing and trafficking, signalling, cell-cell and cell-ECM communication and adhesion 24 26 28 . Glycans exert their biological effects in vivo via lectins, carbohydrate-binding proteins 24 26 . As glycan cell surface and ECM composition is altered depending on the tissue and cell type and its status, correct IVD ECM composition and cell health are inextricably linked.…”

mentioning

confidence: 99%

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Unique glycosignature for intervertebral disc and articular cartilage cells and tissues in immaturity and maturity

Collin

Kilcoyne

White

et al. 2016

Sci Rep

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In this study, on/off markers for intervertebral disc (IVD) and articular cartilage (AC) cells (chondrocytes) and distinct glycoprofiles of cell and tissue-types were identified from immaturity to maturity. Three and eleven month-old ovine IVD and AC tissues were histochemically profiled with a panel of lectins and antibodies. Relationships between tissue and cell types were analysed by hierarchical clustering. Chondroitin sulfate (CS) composition of annulus fibrosus (AF), nucleus pulposus (NP) and AC tissues was determined by HPLC analysis. Clear on/off cell type markers were identified, which enabled the discrimination of chondrocytes, AF and NP cells. AF and NP cells were distinguishable using MAA, SNA-I, SBA and WFA lectins, which bound to both NP cells and chondrocytes but not AF cells. Chondrocytes were distinguished from NP and AF cells with a specific binding of LTA and PNA lectins to chondrocytes. Each tissue showed a unique CS composition with a distinct switch in sulfation pattern in AF and NP tissues upon disc maturity while cartilage maintained the same sulfation pattern over time. In conclusion, distinct glycoprofiles for cell and tissue-types across age groups were identified in addition to altered CS composition and sulfation patterns for tissue types upon maturity.

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“…NG2 has been reported to be involved in inhibition of axonal regeneration after SCI [40][41][42]. The use of ChABC enzymes to digest the glycosaminoglycan chains of NG2 and related proteoglycans promoted neurite outgrowth and axonal growth [43][44][45][46]. Transduction with a lentiviral vector encoding ChABC has been shown to promote functional recovery in the forelimb post-SCI by reducing chondroitin sulphate chains and enhancing axonal growth after a cervical contusion injury [22].…”

Section: Introductionmentioning

confidence: 99%

Ex Vivo Rat Transected Spinal Cord Slices as a Model to Assess Lentiviral Vector Delivery of Neurotrophin-3 and Short Hairpin RNA against NG2

Patar

Dockery

McMahon

et al. 2020

Biology

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The failure of the spinal cord to regenerate can be attributed both to a lack of trophic support for regenerating axons and to upregulation of inhibitory factors such as chondroitin sulphate proteoglycans including NG2 following injury. Lentiviral vector-mediated gene therapy is a possible strategy for treating spinal cord injury (SCI). This study investigated the effect of lentiviral vectors expressing Neurotrophin-3 (NT-3) and short-hairpin RNA against NG2 (NG2 sh) to enhance neurite outgrowth in in vitro and ex vivo transection injury models. Conditioned medium from cells transduced with NT-3 or shNG2 lentiviruses caused a significant increase in neurite length of primary dorsal root ganglia neurons compared to the control group in vitro. In an ex vivo organotypic slice culture (OSC) transduction with Lenti-NT-3 promoted axonal growth. Transducing OSCs with a combination of Lenti-NT-3/NG2 sh lead to a further increase in axonal growth but only in injured slices and only within the region adjacent to the site of injury. These findings suggest that the combination of lentiviral NT-3 and NG2 sh reduced NG2 levels and provided a more favourable microenvironment for neuronal regeneration after SCI. This study also shows that OSCs may be a useful platform for studying glial scarring and potential SCI treatments.

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Neuronal glycosylation differentials in normal, injured and chondroitinase-treated environments

Cited by 17 publications

References 33 publications

Curcumin improves neural function after spinal cord injury by the joint inhibition of the intracellular and extracellular components of glial scar

Curcumin improves neural function after spinal cord injury by the joint inhibition of the intracellular and extracellular components of glial scar

Unique glycosignature for intervertebral disc and articular cartilage cells and tissues in immaturity and maturity

Ex Vivo Rat Transected Spinal Cord Slices as a Model to Assess Lentiviral Vector Delivery of Neurotrophin-3 and Short Hairpin RNA against NG2

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