CTP:phosphocholine cytidylyltransferase alpha is a cytosolic protein in pulmonary epithelial cells and tissues

Abstract

CTP:phosphocholine cytidylyltransferase (CCT) is a rate-determining enzyme in de novo synthesis of phosphatidylcholine (PC). The lung requires a steady synthesis of PC for lung surfactant of which disaturated PC is the essential active agent. Surfactant synthesis occurs in alveolar type II cells. Studies with non-pulmonary cells have suggested that CCT is both a nuclear and cytoplasmic protein. The unusual requirements of the lung for PC synthesis and, therefore, CCT activity suggest a unique mechanism of regulation and possibly localization of CCT. The localization of CCT alpha in lung epithelial cells and, of greater consequence, lung tissues are yet unknown. Three isoforms of CCT have been identified. Herein we investigated the localization of the ubiquitously expressed CCT alpha isoform. To ascertain CCT alpha localization in lungs and lung-related epithelial cells, we employed a number of localization methods. Immunogold electron microscopy using polyclonal antibodies raised to either the carboxyl terminus, catalytic domain, or amino terminus of CCT alpha localized CCT alpha mostly to the exterior plasma membrane or regions of the endoplasmic reticulum (ER) in both A549 and MLE-15 epithelial lung cell lines and primary cultures of fetal rat lung epithelial cells. In contrast to other studies, little or no nuclear labeling was observed. Indirect immunofluorescence of these cells with anti-CCT alpha antibodies resulted in a similar distribution. Indirect visualization of both hemagglutinin- and FLAG-tagged CCT alpha as well as direct visualization of enhanced green fluorescence protein-CCT alpha fusion protein corroborated a cytoplasmic localization of CCT alpha in pulmonary cells. Moreover, analysis of lung tissue from fetal and adult mouse by either immunogold electron microscopy or indirect immunofluorescence yielded a strong cytoplasmic CCT alpha signal with virtually no nuclear localization in epithelial cells lining the airways. The cytoplasmic localization of CCT alpha in type II cells was further substantiated with transgenic mice overexpressing FLAG-tagged CCT alpha using the lung-specific human surfactant protein C (SP-C) promoter. We conclude that CCT alpha does not localize to the nucleus in pulmonary tissues, and, therefore, nuclear localization of CCT alpha is not a universal event.