Degeneration of cocultures of spinal muscular atrophy muscle cells and rat spinal cord explants is not due to secreted factors and cannot be prevented by neurotrophins

被引:0
作者
Braun, S
Croizat, B
Lagrange, MC
Poindron, P
Warter, JM
机构
[1] UNIV LOUIS PASTEUR STRASBOURG 1,UFR SCI PHARMACEUT,DEPT IMMUNOL IMMUNOPHARMACOL & PATHOL,F-67401 ILLKIRCH GRAFFENS,FRANCE
[2] COLL FRANCE,F-75231 PARIS,FRANCE
[3] ASSOC FRANCAISE MYOPATHIES,PARIS,FRANCE
来源
MUSCLE & NERVE | 1997年 / 20卷 / 08期
关键词
neurotrophins; neurite outgrowth; in vitro; rat; human; spinal muscular atrophy;
D O I
10.1002/(SICI)1097-4598(199708)20:8<953::AID-MUS4>3.0.CO;2-5
中图分类号
R74 [神经病学与精神病学];
学科分类号
摘要
We have shown recently that cocultures of muscle cells from infantile spinal muscular atrophy (SMA) patients innervated by motoneurons of normal rat spinal cord explants undergo a degeneration process, suggesting that muscle may play a role in this atrophy, which previously has been considered to be a pure motoneuron disease. Conditional media of SMA cocultures did not affect control healthy nerve muscle cocultures. Conversely, conditioned media of control cocultures were unable to prevent degeneration of SMA cocultures. Moreover, neurotrophic factors, thought to be of help in motoneuron disease treatment, did not protect SMA cocultures from premature death. Our results suggest that the abnormal phenotype observed in nerve-muscle coculture (1) is not due to the release of a toxic factor nor to the lack of a secreted survival factor; and (2) does not respond to neurotrophin treatment. (C) 1997 John Wiley & Sons, Inc.
引用
收藏
页码:953 / 960
页数:8
相关论文
共 32 条
[1]   CAN NEUROTROPHIC FACTORS PREVENT OR REVERSE MOTONEURON INJURY IN AMYOTROPHIC-LATERAL-SCLEROSIS [J].
APPEL, SH ;
SMITH, RG .
EXPERIMENTAL NEUROLOGY, 1993, 124 (01) :100-102
[2]   DENOVO NEUROMUSCULAR-JUNCTION FORMATION ON HUMAN-MUSCLE FIBERS CULTURED IN MONOLAYER AND INNERVATED BY FETAL-RAT SPINAL-CORD - ULTRASTRUCTURAL AND ULTRASTRUCTURAL-CYTOCHEMICAL STUDIES [J].
ASKANAS, V ;
KWAN, H ;
ALVAREZ, RB ;
ENGEL, WK ;
KOBAYASHI, T ;
MARTINUZZI, A ;
HAWKINS, EF .
JOURNAL OF NEUROCYTOLOGY, 1987, 16 (04) :523-537
[3]   SYNERGISTIC INFLUENCE OF POLYPEPTIDE GROWTH-FACTORS ON CULTURED HUMAN-MUSCLE [J].
ASKANAS, V ;
GALLEZHAWKINS, G .
ARCHIVES OF NEUROLOGY, 1985, 42 (08) :749-752
[4]   NEW PROGRAM FOR INVESTIGATING ADULT HUMAN SKELETAL-MUSCLE GROWN ANEURALLY IN TISSUE-CULTURE [J].
ASKANAS, V ;
ENGEL, WK .
NEUROLOGY, 1975, 25 (01) :58-67
[5]  
Askanas V., 1992, HDB CLIN NEUROL, V18, P85
[6]   CONSTITUTIVE MUSCULAR ABNORMALITIES IN CULTURE IN SPINAL MUSCULAR-ATROPHY [J].
BRAUN, S ;
CROIZAT, B ;
LAGRANGE, MC ;
WARTER, JM ;
POINDRON, P .
LANCET, 1995, 345 (8951) :694-695
[7]   Neurotrophins increase motoneurons' ability to innervate skeletal muscle fibers in rat spinal cord-human muscle cocultures [J].
Braun, S ;
Croizat, B ;
Lagrange, MC ;
Warter, JM ;
Poindron, P .
JOURNAL OF THE NEUROLOGICAL SCIENCES, 1996, 136 (1-2) :17-23
[8]   DIFFERENT DEGRADATION RATES OF JUNCTIONAL AND EXTRAJUNCTIONAL ACETYLCHOLINE-RECEPTORS OF HUMAN MUSCLE CULTURED IN MONOLAYER AND INNERVATED BY FETAL-RAT SPINAL-CORD NEURONS [J].
BRAUN, S ;
ASKANAS, V ;
ENGEL, WK .
INTERNATIONAL JOURNAL OF DEVELOPMENTAL NEUROSCIENCE, 1992, 10 (01) :37-44
[9]   DISTINCT NEUROTROPHIC RESPONSES OF AXOTOMIZED MOTOR-NEURONS TO BDNF AND CNTF IN ADULT-RATS [J].
CHIU, AY ;
CHEN, EW ;
LOERA, S .
NEUROREPORT, 1994, 5 (06) :693-696
[10]   GENOMIC REARRANGEMENTS IN CHILDHOOD SPINAL MUSCULAR-ATROPHY - LINKAGE DISEQUILIBRIUM WITH A NULL ALLELE [J].
DANIELS, RJ ;
CAMPBELL, L ;
RODRIGUES, NR ;
FRANCIS, MJ ;
MORRISON, KE ;
MCLEAN, M ;
MACKENZIE, A ;
IGNATIUS, J ;
DUBOWITZ, V ;
DAVIES, KE .
JOURNAL OF MEDICAL GENETICS, 1995, 32 (02) :93-96
1234