Surfactant protein A (SP-A) is the most abundant protein associated with phospholipids in pulmonary surfactant. There are several lines of evidence that pulmonary and gastrointestinal epithelium produce closely related surface-active materials, although the presence of SP-A in gastrointestinal tract has so far not been reported. Indirect immunofluorescence experiments using different antibodies raised against rat pulmonary SP-A showed that some jejunal and colonic but not gastric epithelial cells positively stained for SP-A. Analysis of the proteins in cell lysates from rat small intestine and colon studied by Western blot revealed several immuno-reactive bands, including the characteristic triplet of 26-, 32-, and 38-kDa monomeric proteins, less strongly labeled than in lung cells, and higher molecular mass forms of 66 and 120 kDa also present in lung cells. The 66- and 120-kDa bands displayed the expected isoelectric pH of SP-A after two-dimensional electrophoresis. Alkylation induced conversion of the 120-kDa form (almost completely) and the 66-kDa form (partly) into the 26-38-kDa monomeric species. The presence of SP-A mRNA in rat stomach, small intestine, and colon was then searched for by conventional cDNA/reverse transcriptase-polymerase chain reaction. Products of appropriate size (372 base pairs) identical to that of pulmonary tissue were amplified in small intestine and colon but not in stomach or in other tissues used as controls. Cloning and sequencing of rat colon SP-A cDNA revealed the same sequence as the one reported for rat lung SP-A. Furthermore, analysis of the transcriptional initiation site of SP-A gene in colon by anchored-polymerase chain reaction showed that transcription was initiated at the same site in both colon and lung. These data, which demonstrate that small intestine and colon express SP-A constitutively and that this protein is present in some epithelial cells, extend the concept of intestinal surfactant and underline its close relationships to pulmonary surfactant.
The source of a phospholipid-rich layer recovered from the surface of the mammalian colon has been obscure. This report describes the isolation of a low-density membrane from the surface of rat and human colons (d = 1.07-1.08 g/ml), with a low cholesterol-to-phospholipid ratio and phosphatidylcholine as its major phospholipid. Electron microscopy shows unilamellar and partially coiled membranes. Compared with microvillous membranes isolated from underlying mucosa, this extracellular membrane is enriched for tissue-unspecific alkaline phosphatase and surfactant protein A. It does not contain small intestinal marker proteins (intestinal alkaline phosphatase and sucrase-isomaltase). The human membrane contains only traces of the colonic microvillous membrane marker, carcinoembryonic antigen. Antiserum against the rat colonic membrane does not recognize colonic microvillous membrane or small intestinal surfactant-like particle proteins. Antiserum against human colonic membrane identifies one protein in the surfactant-like particle from the adjacent small intestine and two proteins in the colonic microvillous membrane. These data show that the colonocyte microvillous membrane is covered by another membrane with a different protein composition. Enrichment for surfactant protein A suggests that this colonic membrane is another example of a surfactant-like particle sharing proteins with pulmonary surfactant.
Human peritoneal dialysis effluent (PDE) contains a phosphatidylcholine-rich compound similar to the surfactant that lines lung alveoli. This material is secreted by mesothelial cells. Lung surfactant is also characterized by four proteins essential to its function. After having long been considered as lung-specific, some of them have been found in gastric and intestinal epithelial cells. To explore further the similarity between lung and peritoneal surfactants, we investigated whether mesothelial cells also produce surfactant proteins. We used rat transparent mesentery, human visceral peritoneum biopsies and PDE. Surfactant proteins were searched for after one- and two-dimensional SDS/PAGE and Western blotting. On a one-dimensional Western blot, bands at 38 and 66 kDa in rat mesentery, and at 38 and 66 kDa in human peritoneal mesothelial cells (in vivo and in vitro) and PDE, corresponded to monomeric and dimeric forms of lung surfactant protein A (SP-A). On two-dimensional Western blots, the 32 and 38 kDa spots in mesentery and PDE localized at the acidic pH appropriate to the SP-A monomer's isoelectric point. SP-D was also identified at the same 43 kDa molecular mass as in lung. SP-B was not detected in mesenteric samples. Expression of SP mRNA species was also assessed by reverse transcriptase-PCR, which was performed with specific primers of surfactant protein cDNA sequences. With primers of SP-A and SP-D, DNA fragments of the same size were amplified in lung and mesentery, indicating the presence of SP-A and SP-D mRNA species. These fragments were labelled by appropriate probes in a Southern blot. No amplification was obtained for SP-B. These results show that mesentery cells produce SP-A and SP-D, although they are of embryonic origin (mesodermal) and are different from those of the lung and digestive tract (endodermal) that secrete these surfactants.
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