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  • Title: Neuronal differentiation triggered by blocking cell proliferation.
    Author: LoPresti P, Poluha W, Poluha DK, Drinkwater E, Ross AH.
    Journal: Cell Growth Differ; 1992 Sep; 3(9):627-35. PubMed ID: 1419912.
    Abstract:
    Treatment of the neuroblastoma cell line SHSY5Y with nerve growth factor (NGF) resulted in limited neurite extension, but proliferation continued. However, SHSY5Y cells treated with NGF and a pulse of the DNA polymerase alpha and delta inhibitor aphidicolin showed dramatic neuronal differentiation. Few differentiated cells were observed immediately following the NGF-aphidicolin treatment; however, continued treatment of the cells with NGF in the ensuing week resulted in extension of long neurites (> 400 microns). Neurite extension was not observed for cells treated with aphidicolin alone. Hence, aphidicolin and NGF act synergistically to induce differentiation of SHSY5Y cells. If maintained in NGF, the differentiated cells were stable for at least 1 month and displayed many neuronal characteristics. They were mitotically inactive, and, in contrast to control or NGF-treated cells, the differentiated cells required NGF for survival. The cells expressed multiple microtubule-associated proteins (MAP), including MAP 1A, MAP 1B, and tau. There was expression of synaptic vesicle antigens synaptophysin and SV2, but not synapsin Ia/b or synapsin IIa/b. Both hydroxyurea and thymidine, which inhibit synthesis of nucleotides, act synergistically with NGF to induce differentiation of SHSY5Y cells. Since aphidicolin, hydroxyurea, and thymidine are chemically unrelated, we conclude that these drugs enhance NGF-induced differentiation by blocking cell proliferation and not through an unrelated side effect. The model suggested by these studies is that differentiation is triggered by two simultaneous signals: NGF and cessation of cell proliferation.
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