Lji. Zimmermann et al., REGULATION OF CTP-PHOSPHOCHOLINE CYTIDYLYLTRANSFERASE BY CYTOSOLIC LIPIDS IN RAT TYPE-II PNEUMOCYTES DURING DEVELOPMENT, Pediatric research, 38(6), 1995, pp. 864-869
CTP:phosphocholine cytidylyltransferase (CT) catalyses a rate regulato
ry step in the de novo synthesis of surfactant phosphatidylcholine (PC
). We have previously shown that CT activity increases during late ges
tation in alveolar type II cells, and that this increase is most prono
unced in microsomes. As it is known that CT is activated by lipids, we
investigated the lipid activation of CT in fetal type II cells during
late gestation. The degree of activation of cytosolic CT by PC/oleic
acid (OA) (1:1 molar ratio) vesicles was gestation-dependent (a 3-fold
stimulation on d 18 and a 1.5-fold stimulation on d 21). In contrast,
microsomal CT activation by PC/OA vesicles (1.5-fold) remained consta
nt with advancing gestation. Lipids extracted from microsomes of fetal
type II cells of different gestational ages (d 18-21) did not differ
in their ability to activate either cytosolic CT of d 18 or 21 fetal t
ype II cells, purified CT from adult lung, or delipidated purified CT.
In contrast, lipids extracted from cytosol of fetal type II cells of
different gestational ages (d 18 and 21) differed in their ability to
activate either delipidated cytosolic CT of fetal type II cells, or de
lipidated purified CT from adult lung. Day 21 cytosolic lipids activat
ed CT more than d 18 cytosolic lipids. Both cytosolic and purified CT,
when delipidated by acetone/butanol extraction, showed reduced activi
ties. Several lipids were tested for their ability to activate cytosol
ic CT. Acidic phospholipids and the mixture of PC/OA (1:1) were the st
rongest stimulators of cytosolic CT activity. We conclude that cytosol
ic but not microsomal lipids are involved in the developmental activat
ion of cytosolic CT in fetal type II cells at late gestation.