deoxycholic-acid and Lymphoma

Antigens presented on cell membranes or on liposomes are usually more immunogenic than antigens in soluble form, this being one of the reasons for the weak immunogenicity of extracted tumour-associated transplantation antigens (TATA). The main objective of this study is to solubilize TATA from tumour cells and to present them on a membrane-like structure to the immune system. Crude tumour cell membranes of SL2 lymphosarcoma cells (a spontaneously arising, weakly immunogenic tumour) were solubilized with octylglucoside or sodium deoxycholate, and reconstituted membranes (proteoliposomes) were prepared by detergent removal. Mice immunized s.c. with reconstituted membranes were protected against an i.p. challenge with tumour cells. Although octylglucoside solubilized only 41% of the membrane proteins, the reconstituted membranes were as immunoprotective as crude membranes. (Glyco)proteins were probably the major membrane components in the reconstituted membranes that induce immunoprotection, as mice immunized with preparations constituted of (glyco)lipids from SL2 cells could not reject SL2 cells. If Freund's complete adjuvant was used with the first immunization injection, no potentiation of the elicited immune responses was observed. Besides the membrane TATA, SL2 cells contained an apparently non-membrane-bound TATA, which was found in the cytoplasm. It is concluded that detergent solubilization of membranes and subsequent preparation of reconstituted membranes can be used to obtain membrane tumour-associated antigens that retain activity for induction of protective tumour immunity. The major advantage of this method is that membrane proteins are solubilized and are subsequently presented on a membrane-like structure that resembles the tumour cell membrane. On theoretical and practical grounds it provides a promising alternative for whole-cell vaccines.

Topics: Animals; Antigens, Neoplasm; Cell Membrane; Deoxycholic Acid; Detergents; Glucosides; Lymphoma; Membrane Lipids; Mice; Mice, Inbred DBA; Proteolipids; Survival Analysis

Recombinant human growth hormone was administered orally to carp and serum levels of absorbed bioactive hormone were investigated using a highly sensitive Nb2 rat lymphoma cell bioassay and radioimmunoassay. Serum levels of bioactive hGH reached maximum values 30 min after oral intubation and then gradually decreased. Co-administration of the hormone with deoxycholate to fasted carp resulted in up to a 1000-fold increase in absorption compared to aqueous solutions of the hormone, but had no effect on the kinetics of the absorption process. Absorption of the hormone in starved fish was significantly greater than in fed fish. A linear dose-response relationship was observed for hGH in starved fish and the level of absorption in fed fish was influenced by the time interval from the last meal. The ratio of bioactive to immunoactive hGH in fasted fish indicated little loss of bioactivity and also that deoxycholate may be protective against hGH degradation. The present study demonstrates for the first time that biologically active hGH is absorbed in the common carp after oral intubation. Furthermore, the use of a biological detergent dramatically increased the extent of hGH absorption. Additional studies are required to establish the appropriate conditions (diet composition, feeding level, and frequency, etc.) in which polypeptide hormones could be introduced orally to fish.

Topics: Administration, Oral; Adsorption; Animals; Blood Proteins; Carps; Cell Division; Deoxycholic Acid; Dose-Response Relationship, Drug; Growth Hormone; Lymphoma; Radioimmunoassay; Rats; Recombinant Proteins; Starvation; Tumor Cells, Cultured

Multiple (up to 14) layers of lipid were deposited onto an alkylated glass surface by dialysis of egg phosphatidylcholine (PC) and deoxycholate mixed micelles in the presence of alkylated glass coverslips. The amount of lipid associated with the coverslips was measured by using radioactive PC. It was found that the number of PC molecules in the multilayer increased with increasing initial lipid concentration in the dialysis mixture. Inclusion of cholesterol resulted in a significant increase in the amount of total lipid deposited in the multilayer. However, the PC/cholesterol ratio was up to 2-fold higher in the multilayers than in the liposomes present in the same dialysis bag. In addition, mouse monoclonal anti-H2Kk antibody which had previously been derivatized with palmitic acid could be readily incorporated into the lipid multilayer during dialysis. Measurements of lateral mobility with the fluorescence recovery after photobleaching technique on fluorescently labeled lipid or antibody in the multilayer showed that the lipid molecules diffused rapidly while the antibodies were essentially immobile. Lymphoma cells such as RDM4 cells expressing surface H2Kk glycoproteins could rapidly bind to the antibody-containing multilayers. The binding was blocked by free antibody or by goat anti-mouse immunoglobulin G, indicating the immunospecificity of the binding. Cell binding to the multilayer also exhibited a threshold dependence on the antibody density of the multilayer. A lower threshold was found for cells expressing a higher surface density of H2Kk. This system may be useful for model studies of cellular recognition.

Topics: Animals; Antibodies, Monoclonal; Cell Line; Cell Membrane; Cholesterol; Deoxycholic Acid; Diffusion; Glass; H-2 Antigens; Leukemia, Experimental; Lipids; Lymphoma; Mice; Micelles; Models, Biological; Phosphatidylcholines