Changes in Morphology and Spatial Position of Coiled Bodies during NGF-induced Neuronal Differentiation of PC12 Cells:
1997
SUMMARY Interphase nuclei are organized into structural and functional domains. The coiled body, a nuclear organelle of unknown function, exhibits cell type-specific changes in number and morphology. Its association with nucleoli and with small nuclear ribonucleoproteins (snRNPs) indicates that it functions in RNA processing. In cycling cells, coiled bodies are round structures not associated with nucleoli. In contrast, in neurons, they frequently present as nucleolar “caps.” To test the hypothesis that neuronal differentiation is accompanied by changes in the spatial association of coiled bodies with nucleoli and in their morphology, PC12 cells were differentiated into a neuronal phenotype with nerve growth factor (NGF) and coiled bodies detected by immunocytochemical localization of p80-coilin and snRNPs. The fraction of cells that showed coiled bodies as nucleolar caps increased from 1.6 6 0.9% (mean 6 SEM) in controls to 16.5 6 1.6% in NGF-differentiated cultures. The fraction of cells with ring-like coiled bodies increased from 17.2 6 5.0% in controls to 57.8 6 4.4% in differentiated cells. This was accompanied by a decrease, from 81.2 6 5.7% to 25.7 6 3.1%, in the fraction of cells with small, round coiled bodies. SnRNPs remained associated with typical coiled bodies and with ring-like coiled bodies during NGF-induced recruitment of snRNPs to the nuclear periphery. Together with the observation that coiled bodies are also present as nucleolar caps in sensory neurons, the results indicate that coiled bodies alter their morphology and increase their association with nucleoli during NGF-induced neuronal differentiation. (J Histochem Cytochem 45:1523‐1531, 1997)
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