Literature DB >> 23303920

Oral administration of a small molecule targeted to block proNGF binding to p75 promotes myelin sparing and functional recovery after spinal cord injury.

Chhavy Tep1, Tae Hee Lim, Pyung On Ko, Sami Getahun, Jae Cheon Ryu, Virginia M Goettl, Stephen M Massa, Michele Basso, Frank M Longo, Sung Ok Yoon.   

Abstract

The lack of effective therapies for spinal cord injury points to the need for identifying novel targets for therapeutic intervention. Here we report that a small molecule, LM11A-31, developed to block proNGF-p75 interaction and p75-mediated cell death crosses the blood-brain barrier efficiently when delivered orally. Administered starting 4 h postinjury, LM11A-31 promotes functional recovery without causing any toxicity or increased pain in a mouse model of spinal contusion injury. In both weight-bearing open-field tests and nonweight-bearing swim tests, LM11A-31 was effective in improving motor function and coordination. Such functional improvement correlated with a >50% increase in the number of surviving oligodendrocytes and myelinated axons. We also demonstrate that LM11A-31 indeed inhibits proNGF-p75 interaction in vivo, thereby curtailing the JNK3-mediated apoptotic cascade. These results thus highlight p75 as a novel therapeutic target for an orally delivered treatment for spinal cord injury.

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Year:  2013        PMID: 23303920      PMCID: PMC3710149          DOI: 10.1523/JNEUROSCI.0399-12.2013

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  51 in total

1.  Suppression of p75NTR does not promote regeneration of injured spinal cord in mice.

Authors:  Xing-Yun Song; Jin-hua Zhong; Xin Wang; Xin-Fu Zhou
Journal:  J Neurosci       Date:  2004-01-14       Impact factor: 6.167

2.  Growth factor treatment and genetic manipulation stimulate neurogenesis and oligodendrogenesis by endogenous neural progenitors in the injured adult spinal cord.

Authors:  Yasuo Ohori; Shin-ichi Yamamoto; Motoshi Nagao; Michiya Sugimori; Naoya Yamamoto; Kozo Nakamura; Masato Nakafuku
Journal:  J Neurosci       Date:  2006-11-15       Impact factor: 6.167

3.  Skin-derived precursors generate myelinating Schwann cells that promote remyelination and functional recovery after contusion spinal cord injury.

Authors:  Jeff Biernaskie; Joseph S Sparling; Jie Liu; Casey P Shannon; Jason R Plemel; Yuanyun Xie; Freda D Miller; Wolfram Tetzlaff
Journal:  J Neurosci       Date:  2007-09-05       Impact factor: 6.167

4.  Induction of apoptotic program in cell-free extracts: requirement for dATP and cytochrome c.

Authors:  X Liu; C N Kim; J Yang; R Jemmerson; X Wang
Journal:  Cell       Date:  1996-07-12       Impact factor: 41.582

5.  Synergistic effects of transplanted adult neural stem/progenitor cells, chondroitinase, and growth factors promote functional repair and plasticity of the chronically injured spinal cord.

Authors:  Soheila Karimi-Abdolrezaee; Eftekhar Eftekharpour; Jian Wang; Desiree Schut; Michael G Fehlings
Journal:  J Neurosci       Date:  2010-02-03       Impact factor: 6.167

6.  Basso Mouse Scale for locomotion detects differences in recovery after spinal cord injury in five common mouse strains.

Authors:  D Michele Basso; Lesley C Fisher; Aileen J Anderson; Lyn B Jakeman; Dana M McTigue; Phillip G Popovich
Journal:  J Neurotrauma       Date:  2006-05       Impact factor: 5.269

7.  Aberrant sensory responses are dependent on lesion severity after spinal cord contusion injury in mice.

Authors:  Emily L Hoschouer; Michele D Basso; Lyn B Jakeman
Journal:  Pain       Date:  2009-12-22       Impact factor: 6.961

8.  Effect of NGF and anti-NGF on neuropathic pain in rats following chronic constriction injury of the sciatic nerve.

Authors:  L S Ro; S T Chen; L M Tang; J M Jacobs
Journal:  Pain       Date:  1999-02       Impact factor: 6.961

9.  Limited minocycline neuroprotection after balloon-compression spinal cord injury in the rat.

Authors:  Kamila Saganová; Judita Orendácová; Dása Cízková; Ivo Vanický
Journal:  Neurosci Lett       Date:  2008-01-20       Impact factor: 3.046

10.  Toxicity of familial ALS-linked SOD1 mutants from selective recruitment to spinal mitochondria.

Authors:  Jian Liu; Concepción Lillo; P Andreas Jonsson; Christine Vande Velde; Christopher M Ward; Timothy M Miller; Jamuna R Subramaniam; Jeffery D Rothstein; Stefan Marklund; Peter M Andersen; Thomas Brännström; Ole Gredal; Philip C Wong; David S Williams; Don W Cleveland
Journal:  Neuron       Date:  2004-07-08       Impact factor: 17.173
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  43 in total

1.  A Rehabilomics framework for personalized and translational rehabilitation research and care for individuals with disabilities: Perspectives and considerations for spinal cord injury.

Authors:  Amy K Wagner
Journal:  J Spinal Cord Med       Date:  2014-07-16       Impact factor: 1.985

2.  Targeting p75 neurotrophin receptors ameliorates spinal cord injury-induced detrusor sphincter dyssynergia in mice.

Authors:  Irina V Zabbarova; Youko Ikeda; Evan J Carder; Peter Wipf; Amanda S Wolf-Johnston; Lori A Birder; Naoki Yoshimura; Samuel E Getchell; Khalifa Almansoori; Pradeep Tyagi; Christopher H Fry; Marcus J Drake; Anthony J Kanai
Journal:  Neurourol Urodyn       Date:  2018-05-28       Impact factor: 2.696

Review 3.  Dynamic nature of the p75 neurotrophin receptor in response to injury and disease.

Authors:  Rick Meeker; Kimberly Williams
Journal:  J Neuroimmune Pharmacol       Date:  2014-09-20       Impact factor: 4.147

4.  Electrical and neurotrophin enhancement of neurite outgrowth within a 3D collagen scaffold.

Authors:  Robert D Adams; Sara R Rendell; Lauren R Counts; Jason B Papke; Rebecca K Willits; Amy B Harkins
Journal:  Ann Biomed Eng       Date:  2014-04-08       Impact factor: 3.934

5.  Acute administration of the small-molecule p75(NTR) ligand does not prevent hippocampal neuron loss or development of spontaneous seizures after pilocarpine-induced status epilepticus.

Authors:  H L Grabenstatter; J Carlsen; Y H Raol; T Yang; D Hund; Y Cruz Del Angel; A M White; M I Gonzalez; F M Longo; S J Russek; A R Brooks-Kayal
Journal:  J Neurosci Res       Date:  2014-05-07       Impact factor: 4.164

6.  VGF (TLQP-62)-induced neurogenesis targets early phase neural progenitor cells in the adult hippocampus and requires glutamate and BDNF signaling.

Authors:  Smita Thakker-Varia; Joseph Behnke; David Doobin; Vidhi Dalal; Keya Thakkar; Farah Khadim; Elizabeth Wilson; Alicia Palmieri; Hanna Antila; Tomi Rantamaki; Janet Alder
Journal:  Stem Cell Res       Date:  2014-03-26       Impact factor: 2.020

7.  The Neurotrophic Factor Receptor p75 in the Rat Dorsolateral Striatum Drives Excessive Alcohol Drinking.

Authors:  Emmanuel Darcq; Nadege Morisot; Khanhky Phamluong; Vincent Warnault; Jerome Jeanblanc; Frank M Longo; Stephen M Massa; Dorit Ron
Journal:  J Neurosci       Date:  2016-09-28       Impact factor: 6.167

8.  Unique Sensory and Motor Behavior in Thy1-GFP-M Mice before and after Spinal Cord Injury.

Authors:  Timothy D Faw; Jessica K Lerch; Tyler T Thaxton; Rochelle J Deibert; Lesley C Fisher; D Michele Basso
Journal:  J Neurotrauma       Date:  2018-06-05       Impact factor: 5.269

Review 9.  Spinal cord injury pharmacotherapy: Current research & development and competitive commercial landscape as of 2015.

Authors:  Jason R Guercio; Jason E Kralic; Eric J Marrotte; Michael L James
Journal:  J Spinal Cord Med       Date:  2018-02-27       Impact factor: 1.985

10.  Necroptosis, a novel type of programmed cell death, contributes to early neural cells damage after spinal cord injury in adult mice.

Authors:  Ming Liu; Wei Wu; Hua Li; Song Li; Li-tian Huang; Yi-qing Yang; Qing Sun; Chun-xi Wang; Zhuang Yu; Chun-hua Hang
Journal:  J Spinal Cord Med       Date:  2014-06-26       Impact factor: 1.985
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