DEVELOPMENTAL EXPRESSION OF PROTEIN-KINASE-C SUBSPECIES IN RAT BRAIN-PITUITARY AXIS

We have examined the neonatal developmental expression of protein kina se C subspecies (PKCs) in rat brain, pituitary glands and cells by enz ymatic activity assays, immunohistochemistry and Western blot analysis with type-specific antibodies. A very large increase (455%) was notic ed in brain PKC activity during the first week of life with the partic ulate fraction (22% of total enzyme activity on day 1) increasing dram atically (900%) during the first week to 50% of enzyme activity. In co ntrast, the pituitary gland showed high. activity on day 1 that decrea sed progressively to reach the lowest levers at 1 year of age. Paradox ically, the number of pituitary cells immunolabeled for PKC increases as a function of age. Western blot analysis showed only small changes in PKC alpha, PKC beta and PKC epsilon when brains from 6-day-old and 3-month-old female rats were compared, whereas PKC tau and PKC delta i ncreased markedly during this period. On the other hand, brain PKC xi decreased between 6 days and 3 months of age. Western blot analysis sh owed no major changes in pituitary PKC alpha, PKC beta and PKC xi when 6-day-old and 3-month-old female rats were compared, while PKC tau wa s not detected. The major band of pituitary PKC delta (76 kDa) decreas ed markedly between 6 days and 3 months of age whereas the minor band (68 kDa) did not change. On the other hand PKC epsilon which appeared as one band (92 kDa) in the 6-day-old pituitaries, increased markedly in the 3-month-old rat and was followed by a second major band (68 kDa ) which was not observed in the juvenile rat. The increase in the PKC- positive cells and the decrease in histone phosphorylation in the deve loping pituitary is probably due to the marked dominance of PKC epsilo n in the adult rat pituitary.