Literature DB >> 28935700

Mitochondrial-Based Therapeutics for the Treatment of Spinal Cord Injury: Mitochondrial Biogenesis as a Potential Pharmacological Target.

Natalie E Scholpa1, Rick G Schnellmann2.   

Abstract

Spinal cord injury (SCI) is characterized by an initial trauma followed by a progressive cascade of damage referred to as secondary injury. A hallmark of secondary injury is vascular disruption leading to vasoconstriction and decreased oxygen delivery, which directly reduces the ability of mitochondria to maintain homeostasis and leads to loss of ATP-dependent cellular functions, calcium overload, excitotoxicity, and oxidative stress, further exacerbating injury. Restoration of mitochondria dysfunction during the acute phases of secondary injury after SCI represents a potentially effective therapeutic strategy. This review discusses the past and present pharmacological options for the treatment of SCI as well as current research on mitochondria-targeted approaches. Increased antioxidant activity, inhibition of the mitochondrial permeability transition, alternate energy sources, and manipulation of mitochondrial morphology are among the strategies under investigation. Unfortunately, many of these tactics address single aspects of mitochondrial dysfunction, ultimately proving largely ineffective. Therefore, this review also examines the unexplored therapeutic efficacy of pharmacological enhancement of mitochondrial biogenesis, which has the potential to more comprehensively improve mitochondrial function after SCI. U.S. Government work not protected by U.S. copyright.

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Year:  2017        PMID: 28935700      PMCID: PMC5676296          DOI: 10.1124/jpet.117.244806

Source DB:  PubMed          Journal:  J Pharmacol Exp Ther        ISSN: 0022-3565            Impact factor:   4.030


  175 in total

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Journal:  Nat Genet       Date:  2004-04-04       Impact factor: 38.330

Review 2.  Targeting mitochondrial function for the treatment of acute spinal cord injury.

Authors:  Melanie L McEwen; Patrick G Sullivan; Alexander G Rabchevsky; Joe E Springer
Journal:  Neurotherapeutics       Date:  2011-04       Impact factor: 7.620

3.  A critical appraisal of the reporting of the National Acute Spinal Cord Injury Studies (II and III) of methylprednisolone in acute spinal cord injury.

Authors:  W P Coleman; D Benzel; D W Cahill; T Ducker; F Geisler; B Green; M R Gropper; J Goffin; P W Madsen; D J Maiman; S L Ondra; M Rosner; R C Sasso; G R Trost; S Zeidman
Journal:  J Spinal Disord       Date:  2000-06

Review 4.  Development of lipophilic cations as therapies for disorders due to mitochondrial dysfunction.

Authors:  M P Murphy
Journal:  Expert Opin Biol Ther       Date:  2001-09       Impact factor: 4.388

5.  Acute effects of intravenous glucocorticoid pretreatment on the in vitro peroxidation of cat spinal cord tissue.

Authors:  E D Hall; J M Braughler
Journal:  Exp Neurol       Date:  1981-07       Impact factor: 5.330

6.  PGC-1α regulates normal and pathological angiogenesis in the retina.

Authors:  Magali Saint-Geniez; Aihua Jiang; Stephanie Abend; Laura Liu; Harry Sweigard; Kip M Connor; Zoltan Arany
Journal:  Am J Pathol       Date:  2012-11-07       Impact factor: 4.307

Review 7.  Glucocorticoids may enhance oxygen radical-mediated neurotoxicity.

Authors:  L J McIntosh; R M Sapolsky
Journal:  Neurotoxicology       Date:  1996 Fall-Winter       Impact factor: 4.294

8.  Cyclosporin A toxicity, and more: vascular endothelial growth factor (VEGF) steps forward.

Authors:  Carlos Caramelo; M Victoria Alvarez-Arroyo; Susana Yagüe; Yusuke Suzuki; M Angeles Castilla; Lara Velasco; F Roman Gonzalez-Pacheco; Alberto Tejedor
Journal:  Nephrol Dial Transplant       Date:  2004-02       Impact factor: 5.992

9.  Comparison of the effects of acetyl L-carnitine and amantadine for the treatment of fatigue in multiple sclerosis: results of a pilot, randomised, double-blind, crossover trial.

Authors:  Valentina Tomassini; Carlo Pozzilli; Emanuela Onesti; Patrizio Pasqualetti; Fabiana Marinelli; Angela Pisani; Cesare Fieschi
Journal:  J Neurol Sci       Date:  2004-03-15       Impact factor: 3.181

10.  Comparative neuroprotective effects of cyclosporin A and NIM811, a nonimmunosuppressive cyclosporin A analog, following traumatic brain injury.

Authors:  Lamin H A N Mbye; Indrapal N Singh; Kimberly M Carrico; Kathryn E Saatman; Edward D Hall
Journal:  J Cereb Blood Flow Metab       Date:  2008-08-20       Impact factor: 6.200
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  32 in total

1.  Restoring Cellular Energetics Promotes Axonal Regeneration and Functional Recovery after Spinal Cord Injury.

Authors:  Qi Han; Yuxiang Xie; Josue D Ordaz; Andrew J Huh; Ning Huang; Wei Wu; Naikui Liu; Kelly A Chamberlain; Zu-Hang Sheng; Xiao-Ming Xu
Journal:  Cell Metab       Date:  2020-03-03       Impact factor: 27.287

2.  5-hydroxytryptamine 1F Receptor Agonist Induces Mitochondrial Biogenesis and Promotes Recovery from Spinal Cord Injury.

Authors:  Epiphani C Simmons; Natalie E Scholpa; Kristan H Cleveland; Rick G Schnellmann
Journal:  J Pharmacol Exp Ther       Date:  2019-11-27       Impact factor: 4.030

3.  Nanoparticles with antioxidant enzymes protect injured spinal cord from neuronal cell apoptosis by attenuating mitochondrial dysfunction.

Authors:  Syed Suhail Andrabi; Jun Yang; Yue Gao; Youzhi Kuang; Vinod Labhasetwar
Journal:  J Control Release       Date:  2019-12-02       Impact factor: 9.776

Review 4.  Mitochondrial biogenesis as a therapeutic target for traumatic and neurodegenerative CNS diseases.

Authors:  Epiphani C Simmons; Natalie E Scholpa; Rick G Schnellmann
Journal:  Exp Neurol       Date:  2020-04-11       Impact factor: 5.330

5.  MicroRNA-139-5p Promotes Functional Recovery and Reduces Pain Hypersensitivity in Mice with Spinal Cord Injury by Targeting Mammalian Sterile 20-like Kinase 1.

Authors:  Panfeng Wang; Yuntong Zhang; Yan Xia; Dayuan Xu; Hongrui Wang; Dong Liu; Shuogui Xu; Yongming Sun
Journal:  Neurochem Res       Date:  2020-11-19       Impact factor: 3.996

6.  Pharmacological Stimulation of Mitochondrial Biogenesis Using the Food and Drug Administration-Approved β2-Adrenoreceptor Agonist Formoterol for the Treatment of Spinal Cord Injury.

Authors:  Natalie E Scholpa; Hannah Williams; Wenxue Wang; Daniel Corum; Aarti Narang; Stephen Tomlinson; Patrick G Sullivan; Alexander G Rabchevsky; Rick G Schnellmann
Journal:  J Neurotrauma       Date:  2018-11-16       Impact factor: 5.269

Review 7.  Aiming for the target: Mitochondrial drug delivery in traumatic brain injury.

Authors:  Andrew M Lamade; Elizabeth M Kenny; Tamil S Anthonymuthu; Elif Soysal; Robert S B Clark; Valerian E Kagan; Hülya Bayır
Journal:  Neuropharmacology       Date:  2018-07-30       Impact factor: 5.250

8.  β2-adrenergic receptor-mediated mitochondrial biogenesis improves skeletal muscle recovery following spinal cord injury.

Authors:  Natalie E Scholpa; Epiphani C Simmons; Douglas G Tilley; Rick G Schnellmann
Journal:  Exp Neurol       Date:  2019-09-13       Impact factor: 5.330

9.  c-Jun N-terminal Kinase Mediates Ligand-independent p75NTR Signaling in Mesencephalic Cells Subjected to Oxidative Stress.

Authors:  Bradley R Kraemer; Rachel T Clements; Cassandra M Escobedo; Kendall S Nelson; Carter D Waugh; Andrew S Elliott; Wesley C Hall; Montana T Schemanski
Journal:  Neuroscience       Date:  2020-11-28       Impact factor: 3.590

10.  CD157 in bone marrow mesenchymal stem cells mediates mitochondrial production and transfer to improve neuronal apoptosis and functional recovery after spinal cord injury.

Authors:  Jing Li; Heyangzi Li; Simin Cai; Shi Bai; Huabo Cai; Xiaoming Zhang
Journal:  Stem Cell Res Ther       Date:  2021-05-17       Impact factor: 6.832
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