The optic nerve of the bullfrog was transected and the regeneration process was investigated. We previously reported that alpha-tubulin mRNA in the retina increased to a maximum 1-2 h after optic nerve transection with no specific change in actin mRNA. In the present investigation, we examined the long-term effect of optic nerve transection. Northern blot analysis revealed that alpha-tubulin mRNA increased again gradually after the rapid and transient increase and actin mRNA increased to a maximum at 7 days (more than twofold compared to the control retinas). The period during which actin mRNA reaches a maximal increase almost corresponds to the time lag between the axotomy and the initiation of axonal outgrowth. The main cytoskeletons of neuronal growth cones have been shown to consist of actin-containing microfilaments. Therefore, the transient increase of actin mRNA may have a relationship to the initial outgrowth of axons. On the other hand, the rapid and transient increase of alpha-tubulin mRNA observed in our previous studies is probably one of the initial responses of retinal ganglion cells to the axotomy, and the gradual increase in alpha-tubulin mRNA observed in this study can probably be interpreted as provision of the structural materials necessary for axonal elongation.
Treatment of human HL-60 leukemic cells with 12-O-tetradecanoylphorbol- 13-acetate (TPA) is associated with activation of protein kinase C (PKC) and induction of monocytic differentiation. An HL-60 variant cell line, termed HL-525, derived from long-term exposure to TPA (Homma et al, Proc Natl Acad Sci USA 83: 7316, 1986) is resistant to TPA-induced differentiation and displays decreased PKC beta expression compared with the HL-60 parent line. However, this variant exhibits features of granulocytic differentiation, including nitroblue tetrazolium reduction, when exposed to all-trans retinoic acid (ATRA). Whereas treatment of HL-525 cells with ATRA or TPA alone had no effect on features of monocytic differentiation, these agents in combination resulted in cellular adhesion, nonspecific esterase staining, and induction of the c-fms (monocyte growth factor receptor) gene. In order to measure PKC expression associated with the reversal of TPA resistance by ATRA, we exposed HL-525 cells to ATRA and analyzed PKC- mRNA and protein levels. Exposure of HL-525 cells to ATRA for 3 days resulted in induction of PKC beta transcripts, whereas there was little change in PKC alpha mRNA levels. ATRA treatment was also associated with an increase in PKC activity and an induction of cytosolic PKC beta protein levels. These findings are consistent with the hypothesis that ATRA reverses TPA resistance in HL-525 cells by enhancing the expression of PKC.
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