Opposing actions of Bay K 8644 enantiomers on calcium current, prolactin secretion, and synthesis in pituitary cells.

Dihydropyridine (DHP) Ca2+ channel modulators were used to explore the relationship between voltage-gated Ca2+ channels and PRL secretion, synthesis, and mRNA in PRL-secreting pituitary cells. Optical isomers of the Ca2+ channel agonist Bay K 8644 produced stereospecific and opposing effects on L-type Ca2+ current, PRL release, and synthesis in GH3 and GH4C1 cells. (-)-Bay K 8644 (R5417) behaved as a pure agonist, enhancing Ca2+ current several-fold while shifting the current-voltage curve 10-15 mV in the hyperpolarizing direction. The agonist effect was independent of holding potential, but decreased during prolonged Ba2+ or Ca2+ entry. R5417 produced a concentration-dependent increase in acute PRL release and enhanced PRL production by GH cells several-fold during a 72-h period. (+)-Bay K 8644 (R4407) behaved as a weak Ca2+ channel antagonist, inhibiting L-type Ca2+ current, KCl-stimulated PRL secretion, and PRL production at concentrations of 0.5-5 microM. These two isomers produced similar effects on PRL production by normal rat pituitary cells in dispersed culture. R5417 (500 nM) increased PRL produced in 72 h to 233 +/- 8% of the control value. R4407 reduced this quantity by 36 +/- 9%. The effects of the DHPs on PRL mRNA levels were consistent with the effects observed for acute secretion and hormone production. The agonist R5417 increased PRL mRNA 147 +/- 5% over a 30-h period, and the potent DHP Ca2+ channel blocker nimodipine inhibited PRL mRNA production 2-fold. These results demonstrate that racemic Bay K 8644 interacts with L-type Ca2+ channels in normal and transformed pituitary cells as a mixed agonist-antagonist.(ABSTRACT TRUNCATED AT 250 WORDS)