BACKGROUND: Mice with trangenes that express mutations in the gene for cytosolic copper/zinc superoxide dismutase (SOD1) develop motor neuron degeneration resembling human ALS. Neurophilin ligands are small molecules that promote neurite outgrowth. OBJECTIVE: To test the hypothesis that treatment with two neurophilin ligands increases survival in these ALS mice by slowing the loss of motor neurons and increasing the sizes of motor units. METHODS: Transgenic mice hemizygous for the G93A mutation were untreated or treated from 30 days of age with one of two doses of two neurophilin ligands (V-13,670; V-10,367, Vertex Pharmaceuticals, Boston, MA). Onset of behavioral abnormalities and survival were recorded. Motor unit number estimation (MUNE) was performed every 21 days starting at age 60 days. RESULTS: In control animals, disease onset occurred at 77.0 days of age and death occurred at 137 days of age. Neither neurophilin ligand affected the disease course. In control animals, MUNE declined with time beginning before behavioral abnormalities were noted, and motor unit size increased concomitantly. There was no effect of drug on motor unit loss as assessed by MUNE; however, motor unit size increased more rapidly and to a greater degree in animals treated with V-13,670. CONCLUSION: As in human ALS, the transgenic ALS mice show physiologic changes in the motor unit prior to the development of clinical signs: MUNE declines as motor unit size increases. Although neither neurophilin ligand significantly affected survival, one produced an increase in motor unit size. The fact that survival was not altered by the increase in motor unit size may reflect the rapid disease course in this animal model.
BACKGROUND:Mice with trangenes that express mutations in the gene for cytosolic copper/zinc superoxide dismutase (SOD1) develop motor neuron degeneration resembling humanALS. Neurophilin ligands are small molecules that promote neurite outgrowth. OBJECTIVE: To test the hypothesis that treatment with two neurophilin ligands increases survival in these ALSmice by slowing the loss of motor neurons and increasing the sizes of motor units. METHODS:Transgenic mice hemizygous for the G93A mutation were untreated or treated from 30 days of age with one of two doses of two neurophilin ligands (V-13,670; V-10,367, Vertex Pharmaceuticals, Boston, MA). Onset of behavioral abnormalities and survival were recorded. Motor unit number estimation (MUNE) was performed every 21 days starting at age 60 days. RESULTS: In control animals, disease onset occurred at 77.0 days of age and death occurred at 137 days of age. Neither neurophilin ligand affected the disease course. In control animals, MUNE declined with time beginning before behavioral abnormalities were noted, and motor unit size increased concomitantly. There was no effect of drug on motor unit loss as assessed by MUNE; however, motor unit size increased more rapidly and to a greater degree in animals treated with V-13,670. CONCLUSION: As in humanALS, the transgenic ALSmice show physiologic changes in the motor unit prior to the development of clinical signs: MUNE declines as motor unit size increases. Although neither neurophilin ligand significantly affected survival, one produced an increase in motor unit size. The fact that survival was not altered by the increase in motor unit size may reflect the rapid disease course in this animal model.
Authors: Nizar Souayah; Joseph G Potian; Carmen C Garcia; Natalia Krivitskaya; Christine Boone; Vanessa H Routh; Joseph J McArdle Journal: Am J Physiol Endocrinol Metab Date: 2009-07-14 Impact factor: 4.310
Authors: Yi Zhang; Anna Cook; Jinho Kim; Sergei V Baranov; Jiying Jiang; Karen Smith; Kerry Cormier; Erik Bennett; Robert P Browser; Arthur L Day; Diane L Carlisle; Robert J Ferrante; Xin Wang; Robert M Friedlander Journal: Neurobiol Dis Date: 2013-03-26 Impact factor: 5.996
Authors: Elijah W Stommel; Jeffrey A Cohen; Camilo E Fadul; Christopher H Cogbill; David J Graber; Linda Kingman; Todd Mackenzie; Jacqueline Y Channon Smith; Brent T Harris Journal: Amyotroph Lateral Scler Date: 2009 Oct-Dec
Authors: Nizar Souayah; Anna Sharovetskaya; Michael P Kurnellas; Matthew Myerson; Jeffrey S Deitch; Stella Elkabes Journal: Exp Neurol Date: 2008-09-19 Impact factor: 5.330
Authors: Christopher G Wier; Alexander E Crum; Anthony B Reynolds; Chitra C Iyer; Deepti Chugh; Marilly S Palettas; Patrick L Heilman; David M Kline; W David Arnold; Stephen J Kolb Journal: Muscle Nerve Date: 2018-12-21 Impact factor: 3.217