Attenuation of 19-9 antigen secretion in human colorectal carcinoma cell cultures by transfection with cDNA encoding novel ADP-ribosylation factor-like proteins.

We have used cDNAs coding for novel ADP-ribosylation factor-like molecules (ARL184 and ARL184Delta) to alter 19-9 antigen glycoprotein secretion in cultured human colorectal carcinoma cells SW1116 by transfection and cloning. This ARL contains a lipophilic N-terminal with an isoleucyl and 3 leucyl residues, 4 functioning consensus sequence GTP binding sites, and 184 total aminoacyl residues. An ARL cDNA was also constructed deleting the codon for the N-terminal glycyl moiety. The resulting cell clones were shown by Northern blots to overexpress ARL mRNA. Electron microscopy-immunocytochemistry also indicated the overexpression of ARL granules subcellularly. Secretion of the tumor-associated 19-9 antigen into apical medium was decreased 3- to 5-fold and the secretion of TCA/PTA precipitable 3H-labeled glycoprotein was decreased by 34% in clone SW1116(ARL184)Delta. Western blot analyses of cell homogenates and media were in agreement with the secretion assays and showed a diminution of 170-200 kDa, 19-9, antigenicity in transfected cells and their media. Apical secretion of 19-9 antigen was diminished 14-fold in cells, SW1116 (ARL184)alpha, transfected with the complete ARL cDNA sequence, suggesting that the glycyl moiety may be required for maximal abatement. However, incorporation of label from [3H]myristate into 22-kDa bands of NP-40 extracts and ARL-antigenic molecules of parent cells was 3-fold greater than that in samples from the two transfectants; thus the transfected cells may not myristylate the overexpressed ARL efficiently. Notwithstanding the N-terminal glycyl moiety undergoing some other modification, we conclude that overexpression of this ARL is sufficient to generate a 19-9-deficient phenotype. These ARLs may eventually disrupt terminal oligosaccharide glycosylation, resulting in an apparent diminished exocytosis of 19-9 glycoprotein carriers by transfected and cloned cells.

Complementary chromatographic analysis of free diacylglycerols and potential glycerophospholipid precursors in human SH-SY5Y neuroblastoma cells following incubation with lithium chloride.

We performed detailed chromatographic analyses on the molecular species of the major glycerophospholipids (GPLs) and free sn-1,2-diacylglycerols (DAGs) from SH-SY5Y human neuroblastoma cells following incubation with or without LiCl. For this comparison the inositol, choline, ethanolamine and serine GPLs were dephosphorylated with phospholipase C and the released sn-1,2-diacylglycerols along with the DAGs were subjected to high-temperature GLC on polar and non-polar capillary columns as their trimethylsilyl and tert.-butyl-dimethylsilyl ethers. A 30-min incubation with 10 mM LiCl increased the total amount of human neuroblastoma DAGs by 32-58% (P < 0.05) to 2.6 pmol/micrograms cell protein. This was accompanied by a limited qualitative shift in the molecular species pattern, the most obvious of which was the increase (13%) in the major saturated-polyunsaturated molecular species and the ca. 46% increase in the minor 18:1-18:1 species over control levels. The DAGs originated mainly from the inositol GPLs (IGPLs), as indicated by the high levels of the characteristic 18:0-20:4n6 (18:0-20:3n9) species in both IGPLs and DAGs, and to a lesser extent from the choline GPLs (CGPLs), as indicated by the high proportion in CGPLs of the oligoenoic species, which were largely absent from IGPLs. Alkenylacylglycerols were not detected in DAGs, although they made up some 60% of the total ethanolamine GPLs (EGPLs). No significant changes in the molecular species composition of the cellular GPLs, including IGPLs, were detected after exposure to LiCl.