Petula A. Caesar scite author profile

Petula A. Caesar

5Publications

35Citation Statements Received

44Citation Statements Given

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University of Southampton, Southampton General Hospital

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A comparison of the specificity of phosphatidylcholine synthesis by human fetal lung maintained in either organ or organotypic culture

Caesar

Wilson

Normand

et al. 1988

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Human fetal lung (14-18 weeks gestation) was maintained in either organ or organotypic culture. By 4 days in organ culture or 14 days in organotypic culture, epithelial cells within both culture systems exhibited well-developed apical microvilli and possessed numerous intracellular lamellar bodies characteristic of surfactant phospholipid stores. However, analysis of the pattern of synthesis of individual molecular species of phosphatidylcholine by [14C]choline incorporation and reversed-phase h.p.l.c. showed that this apparent maturation was not paralleled by an increased synthesis of the dipalmitoyl species in either culture system. By contrast, the fractional synthesis of dipalmitoyl phosphatidylcholine, expressed as a percentage of total [14C]choline incorporation, decreased with time in both organ and organotypic culture. Moreover, these fractions were not significantly different from those measured in parallel monolayer cultures of mixed human fetal lung cells that displayed mainly fibroblast morphology. These results suggest that the synthesis pattern of phosphatidylcholine species by lung cells in culture is determined principally by their incubation conditions and not by their state of apparent maturation.

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Mechanisms of Phosphatidylcholine Acyl Remodeling by Human Fetal Lung

Caesar¹,

McElroy²,

Kelly³

et al. 1991

Am J Respir Cell Mol Biol

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The molecular specificity of phosphatidylcholine (PC) synthesis by the de novo pathway in postmortem samples of human fetal lung (15 to 20 wk of gestation) was determined from the incorporation pattern in isolated microsomal preparations of CDP:[14C]choline into individual molecular species of PC. These analyses are based on the assumption that the molecular species composition of the pool of endogenous diacylglycerol used for PC synthesis by isolated microsomes reflects that of the authentic pool of diacylglycerol converted to PC by intact cells. Comparison of this microsomal incorporation pattern of radiolabel into PC with tissue PC composition suggested that even at this early stage of gestation 50% of lung dipalmitoyl PC was derived from synthesis de novo, with the remainder coming from acyl remodeling mechanisms. Analysis of PC synthesis de novo by organ cultures of human fetal lung showed that these acyl remodeling mechanisms were lost in culture. Despite evidence for differentiation of type II alveolar epithelial cells in culture, equilibrium labeling of PC with [14C]choline over 18 h resulted in a progressive decline in fractional incorporation into dipalmitoyl PC with time in culture. By 4 days in culture, this value was no different from the fractional incorporation of CDP:[14C]choline into microsomal PC in vitro over 3 h. The pattern of PC synthesized was not altered when total PC synthesis was stimulated by exposure of cultures to dexamethasone and tri-iodothyronine but was readily manipulated by exposure to exogenous fatty acids. These results demonstrate for the first time the activity of PC acyl remodeling mechanisms in human fetal lung, well before the initiation of surfactant production.(ABSTRACT TRUNCATED AT 250 WORDS)

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Hormonal Effects on the Synthesis of Phosphatidylcholine Molecular Species by Organ Cultures of Human Fetal Lung1

Postle¹,

Caesar²,

Normand³

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Effect of fatty acid supplementation on phosphatidylcholine synthesis by organ cultures of human fetal lung

Caesar

Postle

1989

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Phospholipid synthesis by organotypic cell cultures of fetal human lung

Caesar

Postle

1985

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Petula A. Caesar

A comparison of the specificity of phosphatidylcholine synthesis by human fetal lung maintained in either organ or organotypic culture

Mechanisms of Phosphatidylcholine Acyl Remodeling by Human Fetal Lung

Hormonal Effects on the Synthesis of Phosphatidylcholine Molecular Species by Organ Cultures of Human Fetal Lung1

Effect of fatty acid supplementation on phosphatidylcholine synthesis by organ cultures of human fetal lung

Phospholipid synthesis by organotypic cell cultures of fetal human lung

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