Laminins and TGF-beta maintain cell polarity and functionality of human gastric glandular epithelium

The human gastric glandularepithelium produces a gastric lipase enzyme (HGL) that plays animportant role in digestion of dietary triglycerides. To assess theinvolvement of extracellular matrix components and transforming growthfactor-1 (TGF-1) in the regulation of this enzymic function,normal gastric epithelial cells were cultured on collagen type I,Matrigel, and laminins (LN)-1 and -2 with or without TGF-1.Epithelial morphology and HGL expression were evaluated usingmicroscopy techniques, enzymic assays, Western blot, Northernhybridization, and RT-PCR. A correlation was observed between the cellpolarity status and the level of HGL expression. TGF-1 alone orindividual matrix components stimulated cell spreading and caused adownfall of HGL activity and mRNA. By contrast, Matrigel preserved themorphological features of differentiated epithelial cells andmaintained HGL expression. The combination of LNs with TGF-1 (twoconstituents of Matrigel) exerted similar beneficial effects onepithelial cell polarity and evoked a 10-fold increase of HGL levelsthat was blunted by a neutralizing antibody against the₂-integrin subunit and by mitogen-activated proteinkinase (MAPK) inhibitors PD-98059 (p42/p44) or SB-203580 (p38). Thisinvestigation demonstrates for the first time that a powerful synergismbetween a growth factor and basement membrane LNs positively influencescell polarity and functionality of the human gastric glandularepithelium through an activation of the₂₁-integrin and effectors of two MAPK pathways.