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Literature DB >> 21904786

Neurotrophins: potential therapeutic tools for the treatment of spinal cord injury.

Abstract

Spinal cord injury permanently disrupts neuroanatomical circuitry and can result in severe functional deficits. These functional deficits, however, are not immutable and spontaneous recovery occurs in some patients. It is highly likely that this recovery is dependent upon spared tissue and the endogenous plasticity of the central nervous system. Neurotrophic factors are mediators of neuronal plasticity throughout development and into adulthood, affecting proliferation of neuronal precursors, neuronal survival, axonal growth, dendritic arborization and synapse formation. Neurotrophic factors are therefore excellent candidates for enhancing axonal plasticity and regeneration after spinal cord injury. Understanding growth factor effects on axonal growth and utilizing them to alter the intrinsic limitations on regenerative growth will provide potent tools for the development of translational therapeutic interventions for spinal cord injury.

Entities: Disease Species

Mesh：

Substances：
Nerve Growth Factors

Year: 2011 PMID： 21904786 PMCID： PMC3250295 DOI： 10.1007/s13311-011-0074-9

Source DB: PubMed Journal: Neurotherapeutics ISSN： 1878-7479 Impact factor: 7.620

137 in total

1. Regeneration of sensory axons within the injured spinal cord induced by intraganglionic cAMP elevation.

Authors: Simona Neumann; Frank Bradke; Marc Tessier-Lavigne; Allan I Basbaum
Journal: Neuron Date: 2002-06-13 Impact factor: 17.173

2. Neurotrophism without neurotropism: BDNF promotes survival but not growth of lesioned corticospinal neurons.

Authors: P Lu; A Blesch; M H Tuszynski
Journal: J Comp Neurol Date: 2001-08-06 Impact factor: 3.215

3. Electrical stimulation of intact peripheral sensory axons in rats promotes outgrowth of their central projections.

Authors: Esther Udina; Matthew Furey; Sarah Busch; Jerry Silver; Tessa Gordon; Karim Fouad
Journal: Exp Neurol Date: 2007-11-22 Impact factor: 5.330

Review 4. Stem cells and spinal cord regeneration.

Authors: Sharyn L Rossi; Hans S Keirstead
Journal: Curr Opin Biotechnol Date: 2009-10 Impact factor: 9.740

5. Axons from CNS neurons regenerate into PNS grafts.

Authors: P M Richardson; U M McGuinness; A J Aguayo
Journal: Nature Date: 1980-03-20 Impact factor: 49.962

6. PTEN modulates cell cycle progression and cell survival by regulating phosphatidylinositol 3,4,5,-trisphosphate and Akt/protein kinase B signaling pathway.

Authors: H Sun; R Lesche; D M Li; J Liliental; H Zhang; J Gao; N Gavrilova; B Mueller; X Liu; H Wu
Journal: Proc Natl Acad Sci U S A Date: 1999-05-25 Impact factor: 11.205

7. Endogenous brain-derived neurotrophic factor and neurotrophin-3 antagonistically regulate survival of axotomized corticospinal neurons in vivo.

Authors: K M Giehl; S Röhrig; H Bonatz; M Gutjahr; B Leiner; I Bartke; Q Yan; L F Reichardt; C Backus; A A Welcher; K Dethleffsen; P Mestres; M Meyer
Journal: J Neurosci Date: 2001-05-15 Impact factor: 6.167

8. Combinatorial therapy with neurotrophins and cAMP promotes axonal regeneration beyond sites of spinal cord injury.

Authors: Paul Lu; Hong Yang; Leonard L Jones; Marie T Filbin; Mark H Tuszynski
Journal: J Neurosci Date: 2004-07-14 Impact factor: 6.167

9. Intracerebroventricular infusion of nerve growth factor in three patients with Alzheimer's disease.

Authors: M Eriksdotter Jönhagen; A Nordberg; K Amberla; L Bäckman; T Ebendal; B Meyerson; L Olson; M Shigeta; E Theodorsson; M Viitanen; B Winblad; L O Wahlund
Journal: Dement Geriatr Cogn Disord Date: 1998 Sep-Oct Impact factor: 2.959

10. Grafts of BDNF-producing fibroblasts rescue axotomized rubrospinal neurons and prevent their atrophy.

Authors: Yi Liu; B Timothy Himes; Marion Murray; Alan Tessler; Itzhak Fischer
Journal: Exp Neurol Date: 2002-12 Impact factor: 5.330

26 in total

Review 1. Molecular and Cellular Mechanisms of Axonal Regeneration After Spinal Cord Injury.

Authors: Erna A van Niekerk; Mark H Tuszynski; Paul Lu; Jennifer N Dulin
Journal: Mol Cell Proteomics Date: 2015-12-22 Impact factor: 5.911

Review 2. Axon Guidance Molecules and Neural Circuit Remodeling After Spinal Cord Injury.

Authors: Edmund R Hollis
Journal: Neurotherapeutics Date: 2016-04 Impact factor: 7.620

Review 3. Central nervous system regenerative failure: role of oligodendrocytes, astrocytes, and microglia.

Authors: Jerry Silver; Martin E Schwab; Phillip G Popovich
Journal: Cold Spring Harb Perspect Biol Date: 2014-12-04 Impact factor: 10.005

4. Intramuscular scAAV9-SMN injection mediates widespread gene delivery to the spinal cord and decreases disease severity in SMA mice.

Authors: Sofia Benkhelifa-Ziyyat; Aurore Besse; Marianne Roda; Sandra Duque; Stéphanie Astord; Romain Carcenac; Thibaut Marais; Martine Barkats
Journal: Mol Ther Date: 2013-01-08 Impact factor: 11.454

5. Diffusion tensor imaging predicting neurological repair of spinal cord injury with transplanting collagen/chitosan scaffold binding bFGF.

Authors: Xiao-Yin Liu; Jun Liang; Yi Wang; Lin Zhong; Chang-Yu Zhao; Meng-Guang Wei; Jing-Jing Wang; Xiao-Zhe Sun; Ke-Qiang Wang; Jing-Hao Duan; Chong Chen; Yue Tu; Sai Zhang; Dong Ming; Xiao-Hong Li
Journal: J Mater Sci Mater Med Date: 2019-11-04 Impact factor: 3.896

6. Transplantation of neural progenitor cells in chronic spinal cord injury.

Authors: Y Jin; J Bouyer; J S Shumsky; C Haas; I Fischer
Journal: Neuroscience Date: 2016-02-04 Impact factor: 3.590

7. Post-natal Deletion of Neuronal cAMP Responsive-Element Binding (CREB)-1 Promotes Pro-inflammatory Changes in the Mouse Hippocampus.

Authors: Elisa Marchese; Valentina Di Maria; Daniela Samengo; Giovambattista Pani; Fabrizio Michetti; Maria Concetta Geloso
Journal: Neurochem Res Date: 2017-04-04 Impact factor: 3.996