Literature DB >> 26895253

Advances in the Development of Disease-Modifying Treatments for Amyotrophic Lateral Sclerosis.

Diane Moujalled1, Anthony R White2.   

Abstract

Amyotrophic lateral sclerosis (ALS) is a progressive adult-onset, neurodegenerative disease characterized by the degeneration of upper and lower motor neurons. Over recent years, numerous genes ha ve been identified that promote disease pathology, including SOD1, TARDBP, and the expanded hexanucleotide repeat (GGGGCC) within C9ORF72. However, despite these major advances in identifying genes contributing to ALS pathogenesis, there remains only one currently approved therapeutic: the glutamate antagonist, riluzole. Seminal breakthroughs in the pathomechanisms and genetic factors associated with ALS have heavily relied on the use of rodent models that recapitulate the ALS phenotype; however, while many therapeutics have proved to be significant in animal models by prolonging life and rescuing motor deficits, they have failed in human clinical trials. This may be due to fundamental differences between rodent models and human disease, the fact that animal models are based on overexpression of mutated genes, and confounding issues such as difficulties mimicking the dosing schedules and regimens implemented in mouse models to humans. Here, we review the major pathways associated with the pathology of ALS, the rodent models engineered to test efficacy of candidate drugs, the advancements being made in stem cell therapy for ALS, and what strategies may be important to circumvent the lack of successful translational studies in the clinic.

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Year:  2016        PMID: 26895253     DOI: 10.1007/s40263-016-0317-8

Source DB:  PubMed          Journal:  CNS Drugs        ISSN: 1172-7047            Impact factor:   5.749


  126 in total

1.  Mesenchymal stromal cell transplantation in amyotrophic lateral sclerosis: a long-term safety study.

Authors:  Letizia Mazzini; Katia Mareschi; Ivana Ferrero; Massimo Miglioretti; Alessandro Stecco; Serena Servo; Alessandro Carriero; Francesco Monaco; Franca Fagioli
Journal:  Cytotherapy       Date:  2011-09-28       Impact factor: 5.414

2.  Selective loss of glial glutamate transporter GLT-1 in amyotrophic lateral sclerosis.

Authors:  J D Rothstein; M Van Kammen; A I Levey; L J Martin; R W Kuncl
Journal:  Ann Neurol       Date:  1995-07       Impact factor: 10.422

3.  Minocycline inhibits cytochrome c release and delays progression of amyotrophic lateral sclerosis in mice.

Authors:  Shan Zhu; Irina G Stavrovskaya; Martin Drozda; Betty Y S Kim; Victor Ona; Mingwei Li; Satinder Sarang; Allen S Liu; Dean M Hartley; Du Chu Wu; Steven Gullans; Robert J Ferrante; Serge Przedborski; Bruce S Kristal; Robert M Friedlander
Journal:  Nature       Date:  2002-05-02       Impact factor: 49.962

4.  Knockout of glutamate transporters reveals a major role for astroglial transport in excitotoxicity and clearance of glutamate.

Authors:  J D Rothstein; M Dykes-Hoberg; C A Pardo; L A Bristol; L Jin; R W Kuncl; Y Kanai; M A Hediger; Y Wang; J P Schielke; D F Welty
Journal:  Neuron       Date:  1996-03       Impact factor: 17.173

5.  Efficacy of minocycline in patients with amyotrophic lateral sclerosis: a phase III randomised trial.

Authors:  Paul H Gordon; Dan H Moore; Robert G Miller; Julaine M Florence; Joseph L Verheijde; Carolyn Doorish; Joan F Hilton; G Mark Spitalny; Robert B MacArthur; Hiroshi Mitsumoto; Hans E Neville; Kevin Boylan; Tahseen Mozaffar; Jerry M Belsh; John Ravits; Richard S Bedlack; Michael C Graves; Leo F McCluskey; Richard J Barohn; Rup Tandan
Journal:  Lancet Neurol       Date:  2007-11-05       Impact factor: 44.182

Review 6.  Riluzole for amyotrophic lateral sclerosis (ALS)/motor neuron disease (MND).

Authors:  R G Miller; J D Mitchell; M Lyon; D H Moore
Journal:  Amyotroph Lateral Scler Other Motor Neuron Disord       Date:  2003-09

7.  Amyotrophic lateral sclerosis and structural defects in Cu,Zn superoxide dismutase.

Authors:  H X Deng; A Hentati; J A Tainer; Z Iqbal; A Cayabyab; W Y Hung; E D Getzoff; P Hu; B Herzfeldt; R P Roos
Journal:  Science       Date:  1993-08-20       Impact factor: 47.728

8.  The AMPA receptor antagonist NBQX prolongs survival in a transgenic mouse model of amyotrophic lateral sclerosis.

Authors:  Philip Van Damme; Maarten Leyssen; Geert Callewaert; Wim Robberecht; Ludo Van Den Bosch
Journal:  Neurosci Lett       Date:  2003-06-05       Impact factor: 3.046

9.  Entorhinal cortical neurons are the primary targets of FUS mislocalization and ubiquitin aggregation in FUS transgenic rats.

Authors:  Cao Huang; Jianbin Tong; Fangfang Bi; Qinxue Wu; Bo Huang; Hongxia Zhou; Xu-Gang Xia
Journal:  Hum Mol Genet       Date:  2012-07-23       Impact factor: 6.150

10.  Elevated expression of TDP-43 in the forebrain of mice is sufficient to cause neurological and pathological phenotypes mimicking FTLD-U.

Authors:  Kuen-Jer Tsai; Chun-Hung Yang; Yen-Hsin Fang; Kuan-Hung Cho; Wei-Lin Chien; Wei-Ting Wang; Tzu-Wei Wu; Ching-Po Lin; Wen-Mei Fu; Che-Kun James Shen
Journal:  J Exp Med       Date:  2010-07-26       Impact factor: 14.307
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  9 in total

Review 1.  From animal models to human disease: a genetic approach for personalized medicine in ALS.

Authors:  Vincent Picher-Martel; Paul N Valdmanis; Peter V Gould; Jean-Pierre Julien; Nicolas Dupré
Journal:  Acta Neuropathol Commun       Date:  2016-07-11       Impact factor: 7.801

Review 2.  Delivering Bad News in Amyotrophic Lateral Sclerosis: Proposal of Specific Technique ALS ALLOW.

Authors:  Wesleigh F Edwards; Sahana Malik; Jonathan Peters; Ivy Chippendale; John Ravits
Journal:  Neurol Clin Pract       Date:  2021-12

Review 3.  Exploring the genetics and non-cell autonomous mechanisms underlying ALS/FTLD.

Authors:  Hongbo Chen; Mark W Kankel; Susan C Su; Steve W S Han; Dimitry Ofengeim
Journal:  Cell Death Differ       Date:  2018-02-19       Impact factor: 15.828

Review 4.  Cytokine Therapies in Neurological Disease.

Authors:  Shila Azodi; Steven Jacobson
Journal:  Neurotherapeutics       Date:  2016-07       Impact factor: 7.620

5.  Amyotrophic Lateral Sclerosis Modifiers in Drosophila Reveal the Phospholipase D Pathway as a Potential Therapeutic Target.

Authors:  Mark W Kankel; Anindya Sen; Lei Lu; Marina Theodorou; Douglas N Dimlich; Alexander McCampbell; Christopher E Henderson; Neil A Shneider; Spyros Artavanis-Tsakonas
Journal:  Genetics       Date:  2020-04-28       Impact factor: 4.562

6.  Tissue-enhanced plasma proteomic analysis for disease stratification in amyotrophic lateral sclerosis.

Authors:  Irene Zubiri; Vittoria Lombardi; Michael Bremang; Vikram Mitra; Giovanni Nardo; Rocco Adiutori; Ching-Hua Lu; Emanuela Leoni; Ping Yip; Ozlem Yildiz; Malcolm Ward; Linda Greensmith; Caterina Bendotti; Ian Pike; Andrea Malaspina
Journal:  Mol Neurodegener       Date:  2018-11-07       Impact factor: 14.195

Review 7.  Advances in nanotechnology-based strategies for the treatments of amyotrophic lateral sclerosis.

Authors:  G Y Wang; S L Rayner; R Chung; B Y Shi; X J Liang
Journal:  Mater Today Bio       Date:  2020-05-04

Review 8.  Emerging Roles for Phase Separation of RNA-Binding Proteins in Cellular Pathology of ALS.

Authors:  Katarina Milicevic; Branislava Rankovic; Pavle R Andjus; Danijela Bataveljic; Dragomir Milovanovic
Journal:  Front Cell Dev Biol       Date:  2022-02-17

Review 9.  Molecular mechanisms of cell death in neurological diseases.

Authors:  Diane Moujalled; Andreas Strasser; Jeffrey R Liddell
Journal:  Cell Death Differ       Date:  2021-06-07       Impact factor: 15.828
  9 in total

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