Cytolytic Activity Released fromTetrahymena1

Growth requirements of a new food-vacuole-less mutant of Tetrahymena

The growth requirements of the ciliate Tetrahymena thermophila have been known for a long time. In this study we have investigated the additional requirements induced in a cell line defective in phagocytosis. The mutant cell line of T. thermophila, II 8 G, derived from the wildtype, T. thermophila, CU 399, has apparently no oral structures and forms no food vacuoles at 37°C, but has normal oral structures and the ability to form food vacuoles at normal rates at 28°C. Taking advantage of a synthetic nutrient medium, we observed that the mutant cell line shows increased requirement for Fe(III), Cu(++) and folic acid under restrictive conditions. Phagocytosis obviously plays a role in utilization of low concentrations of the three substances, whereas all other required substances can enter fast enough to support short generation times.

Evidence for a relationship between bovine erythrocyte lipid membrane peculiarities and immune pressure from ruminal ciliates

Erythrocytes of bovines and other ruminants have a strikingly anomalous phospholipid composition, with low or absent phosphatidylcholine (PC) together with high sphingomyelin (SM) content. Here, we report the presence in normal bovine serum of high levels of anti-phospholipid antibodies of IgM isotype against, PC and the phosphono analogue of phosphatidylethanolamine, aminoethylphosphonolipid (AEPL), normally produced by rumen ciliates. In contrast, no antibodies were detected against SM or N-acyl-phosphatidylethanolamine (NAPE), the major components of bovine erythrocytes. In addition, we found that exposure of the ciliate Tetrahymena thermophila to bovine serum results in rapid lysis, an effect that was inhibited by adsorption of the serum with SM/AEPL liposomes. Furthermore, incubation with bovine serum had a similar effect on freshly obtained ruminal ciliates, and the lytic activity was eliminated by pre-adsorption of the serum with SM/PE liposomes. The ruminant mode of life with its concomitant ciliate fauna is hereby linked to the peculiar conformation of bovine erythrocyte membranes. We propose that the unique phospholipid composition of bovine erythrocytes appears as an evolutionary adaptation to tolerate the lytic effects of anti-phospholipid antibodies generated against AEPL, a membrane component of the huge mass of ruminal ciliates, necessary commensals of this group of mammals.

The improvement of milk by cultivation with ciliates

The exceptional nutritional values of milk have long been recognized. However, important drawbacks of milk and dairy products are their relatively high cholesterol contents and their low proportion of polyunsaturated fatty acids. Hypersensitivity to milk proteins can also draw the public away from fluid milk consumption. The nonpathogenic ciliate Tetrahymena thermophila has a unique set of enzymes that converts cholesterol into provitamin D3 and related compounds. It also contains delta 12 fatty acid desaturases and releases various hydrolases, including proteases, lipases, and phospholipases. We investigated the potential use of these peculiar traits to improve milk by short-term incubation with live ciliate suspensions. We found that cholesterol can be reduced to 50% of its initial content in whole milk by a 12-h period of incubation with T. thermophila cells, mostly by conversion to delta 7-desaturated cholesterol derivatives, including provitamin D3. In addition, a considerable increase in gamma-linolenate (18:3, n-6) takes place. The protein profile is markedly changed by proteolysis, with a striking reduction of casein and enhancement in total amino acid content. Despite these changes, no marked alterations in flavor or odor were observed at the end of 12 h of incubation. Thus, Tetrahymena appeared ideally suited to correct for milk draw-backs, making this important source of nutrients more acceptable to the health-conscious public.

A method for distinguishing 1-acyl from 2-acyl lysophosphatidylcholines generated in biological systems

Phospholipases A(1) and A(2) frequently coexist in biological systems. Generation of lysophosphatidylcholine (LPC) in such systems cannot be assigned to any of these types of enzymes unless the position of the fatty acid in the lysocompound can be unambiguously determined. We here present a simple method to achieve this purpose. It is based on the initial chemical acylation of the isolated LPC with a labeled fatty acid, followed by the enzymatic analysis of the resulting phosphatidylcholine (PC), using snake or bee venom phospholipase A(2). Thus, if treatment of the PC with this enzyme releases a labeled free fatty acid, it is demonstrated that the initial LPC was acylated at position sn-1, whereas if the product of hydrolysis yields labeled LPC, then the initial LPC was acylated at position sn-2. This is the first method devised to determine the source of LPC in the presence of mixtures of phospholipases A(1) and A(2) in complex biological systems.

A method for the preparation of Tetrahymena thermophila phospholipase A1 suitable for large-scale production

A rapid and economical method for the purification of phospholipase A1 (PLA1) from the extracellular medium of the ciliate Tetrahymena thermophila is presented. Essentially, the procedure, here designated as purification by selective interaction (PSI), entails the incubation of media containing PLA1 with liposomes made of soy bean phospholipids. The PLA1-lipid complexes are precipitated by the addition of CaCl2 and collected by centrifugation. Elution of the PLA1 is effected by treating the complexes with 40% dimethylformamide, a reversible inhibitor of this enzyme, which is easily removed by dialysis. In combination with DEAE cellulose ion exchange chromatography, PSI yielded homogeneous PLA1 preparations with a 14% recovery and a 416-fold increase in specific activity. This procedure, which can be completed within 1 day, may prove useful for the isolation of phospholipases from other sources. This practical method for the purification of a microbial PLA1 opens the way to large-scale production of these types of enzyme, which are not as yet commercially available.

The role of secreted acid hydrolases in the utilization of complex nutrients byTetrahymena

In an attempt to extend our knowledge of the biology of feeding of the ciliateTetrahymena thermophila, this organism was grown axenically on complex organic material. The nutrient substrate was based on autoclaved wheat grains and adjusted to either pH 5.5 or 7.5. In wild type cultures the cells grew and multiplied only under acidic conditions. In cultures of a mutant cell line blocked in the secretion of acid hydrolases the cells did not grow at either pH value. Thus released acid hydrolases may play a key role in the utilization of complex nutrients in combination with uptake of small organic molecules. Mechanisms in the feeding biology ofTetrahymena thermophila andParamecium tetraurelia are compared.

Lysosomal enzymes in extracellular digestion in the unicellular eukaryote Tetrahymena

The ciliate Tetrahymena thermophila was starved for orthophosphate in a synthetic medium at pH 7.5. These cells did not utilize phosphorylcholine, final concentration 1 mM, as a phosphate source for cell growth and multiplication. If the phosphorylcholine solution, however, was incubated for 24 h at pH 5.5 with extracellular, "spent" medium from a culture in early stationary phase of growth, then it promoted culture growth readily at pH 7.5. It was shown that the spent medium in the same concentration did not stimulate growth in itself. It is concluded that extracellular digestion of phosphorylcholine enabled the cells to grow and multiply in a nutrient medium having organic phosphate compounds as the only phosphate source. It is argued that the phosphatases in the spent medium are of lysosomal origin.