[Spinal muscular atrophy: disappearance of RNA fluorescence of degenerating motor neurons. An acridine orange study].

The histochemical distribution of nucleic acids has been studied in degenerating motor neurons of 9 children who died with spinal muscular atrophy, using the fluorochrome acridine orange. Ribonucleic acid (RNA) fluorescence disappeared abruptly from involved motor neurons without chromatolysis, attenuation of intensity, or other intermediate transitions that follow axotomy or hypoxic insults. We found a nearly identical pattern in 3 adults with amyotrophic lateral sclerosis. The findings in older subjects are complicated, however, by the presence of cytoplasmic lipofuscin. The autofluorescence of this pigment is inhibited by acridine orange. Our results support the hypothesis that spinal muscular atrophy is a disturbance of the genetically coded mechanism that arrests the programmed physiological death of surplus motor neuroblasts after a certain time in embryonic life, so that the normal lethal developmental process becomes pathological by persisting postnatally. A failure of RNA transcription seems to be primary and results in a failure of synthesis of neurotransmitters, of enzymes, and of cytoplasmic proteins. Consequent inanition leads to cell death.