Apoptotic, injury-induced cell death in cultured mouse murine motor neurons

In order to develop in vitro models of CNS injury, astrocytes have been mechanically injured in culture to study reactive astrocytosis. However, scratch injury models of pure neuronal cultures have not yet been exploited to study programmed cell death (PCD). For this study, we examined model motor n...

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Bibliographic Details
Published in:Neuroscience letters 1997-07, Vol.230 (1), p.25-28
Main Authors: Citron, Bruce A, Zhang, Sherri X, Smirnova, Irina V, Festoff, Barry W
Format: Article
Language:English
Subjects:
Ageing, cell death
Amyloid beta-Protein Precursor
Animals
Apoptosis
Azacitidine - pharmacology
Benzimidazoles
Biological and medical sciences
Carrier Proteins - analysis
Carrier Proteins - biosynthesis
Cell death
Cell Line
Cell Nucleus - ultrastructure
Cell physiology
Choline O-Acetyltransferase - analysis
Chromatin - ultrastructure
Culture model
Fundamental and applied biological sciences. Psychology
Injury
Mice
Molecular and cellular biology
Motor neuron
Motor Neurons - drug effects
Motor Neurons - pathology
Motor Neurons - physiology
NSC19
Polymerase Chain Reaction
Protease Nexins
Receptors, Cell Surface
RNA, Messenger - biosynthesis
Serine Proteinase Inhibitors - biosynthesis
Transcription, Genetic
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Summary:In order to develop in vitro models of CNS injury, astrocytes have been mechanically injured in culture to study reactive astrocytosis. However, scratch injury models of pure neuronal cultures have not yet been exploited to study programmed cell death (PCD). For this study, we examined model motor neurons (NSC19 cells) in culture and found time-dependent cell death in proximity (within 2.5 mm) to a physical scratch injury. Injury-induced cell death was apoptotic verified by positively-stained nuclei using both the in situ end-labeling (ISEL) procedure and Hoechst 33342. Unexpectedly, cells proximal to the injury site were not affected by the injury until 3 days later suggesting that adjacent motor neuron loss was dependent on a `death signal' produced by direct injury to sister neurons. `Executioners' in apoptosis include free radicals, cell cycle kinases and cysteine proteases (caspases). Extracellular serine proteases, such as thrombin and granzyme B, may activate such intracellular pathways and several inhibitors (serpins), such as CrmA, are effective in blocking apoptosis. Since protease nexin I (PNI), a serpin homologous with CrmA, prevents apoptosis of lumbar motor neurons and is increased after nerve injury, we examined mRNA by RT-PCR for PNI expression. Of interest, although we were unable to find significant levels of PNI message in NSC19 cells, we did detect it in the parent neuroblastoma.
ISSN:0304-3940
1872-7972
DOI:10.1016/S0304-3940(97)00468-0