Is there a hormonal network in Tetrahymena? A systematic investigation of hormonal effects on the hormone content

The effect of six hormones (histamine, serotonin, insulin, epidermal growth factor (EGF), oxytocin and gonadotropin) was studied on the hormone (histamine, serotonin, adrenocorticotropic hormone [ACTH], endorphin and triiodothyronine [T(3)]) content of Tetrahymena. The hormones were given in 10(-9) or 10(-12) M concentrations or as 0.1 and 0.001 I.U. ml(-1) (in the case of oxytocin and gonadotropin) for 1 h. The hormones in picomolar concentration, i.e. at levels which can be present also in natural conditions, influence the amount of other hormones inside the cell. Their effect is not a general one: it is individual, the level of one of the hormones was elevated, while that of the others diminished under the effect of the same hormonal stimulus. Insulin was the only hormone, which influenced the concentration of other hormones in one direction, elevating them. This effect could have a role in the life-saving property of this hormone in Tetrahymena, but the hormones were not studied from this point of view. Usually there is no difference between the effect of the two concentrations used, but there are situations when the effect of the two concentrations is opposite. This means that there is a possible concentration dependence and this could influence differently the cells which are far from or near to the secretor cell. Considering earlier observations, the duration of the treatment can also influence the result. The results give new data to the hormonal regulation at unicellular level (which can be the base of regulation at higher evolutionary levels) and point to the possibility of a hormonal network.     

Effect of femtomolar concentrations of hormones on insulin binding by Tetrahymena, as a function of time

The unicellular ciliate Tetrahymena, contains and binds hormones, characteristic of vertebrates. Earlier experiments demonstrated the effect of extremely low concentrations of hormones. In the present experiments, the effect of various hormones (endorphin, serotonin, histamine, insulin and epidermal growth factor [EGF]) in 10(-15) M, or oxytocin, gonadotropin at 0.001 IU concentrations) on the binding of FITC-insulin was studied by using flow cytometry and confocal microscopy, after 1, 5, 15, 30 and 60 min. Six of the seven hormones promptly decreased the cells' hormone binding capacity, the exception being EGF, and in four cases (endorphin, serotonin, insulin and oxytocin) the reduction was enormous. The decreased binding was durable. However, in the case of endorphin and oxytocin after 30 min, and in the case of serotonin after 60 min the binding returned to the control level. In the case of oxytocin after 60 min, binding significantly surpassed the control level. Histamine returned to the control level after 15 min, but after that the binding became even lower. EGF provoked special behaviour: it increased hormone binding after 30 and 60 min. The results call attention to the extreme sensitivity of Tetrahymena receptors to hormonal inductions and to its quick response ability.     

The hormonal system of the unicellular Tetrahymena: a review with evolutionary aspects

The unicellular ciliate, Tetrahymena has receptors for hormones of the higher ranked animals, these hormones (e.g. insulin, triiodothyronine, ACTH, histamine, etc.) are also produced by it and it has signal pathways and second messengers for signal transmission. These components are chemically and functionally very similar to that of mammalian ones. The exogenously given hormones regulate different functions, as movement, phagocytosis, chemotaxis, cell growth, secretion, excretion and the cells' own hormone production. The receptors are extremely sensitive, certain hormones are sensed (and response is provoked) at 10-21 M concentration, which makes likely that the function could work by the effect of hormones produced by the Tetrahymena itself. The signal reception is selective, it can differentiate between closely related hormones. The review is listing the hormones produced by the Tetrahymena, the receptors which can receive signals and the signal pathways and second messengers as well, as the known effects of mammalian hormones to the life functions of Tetrahymena. The possible and justified role of hormonal system in the Tetrahymena as a single cell and inside the Tetrahymena population, as a community is discussed. The unicellular hormonal system and mammalian endocrine system are compared and evolutionary conclusions are drawn.     

Hormonal effects on Tetrahymena: change in case of combined treatment

In order to approach their natural conditions, populations of Tetrahymena were kept in Losina-Losinky's salt solution for 1 h, than in the tryptone+yeast medium. During this time they were treated with histamine, serotonin or insulin, or with the combinations of these hormones. Effect of the combined treatments on the production of serotonin (5HT), or adrenocorticotropic hormone (ACTH) or triiodothyronine (T?) by the cells was compared to the effect of single-hormone treatments. Significant differences were seen between the results obtained following the single or combined treatments. There was no summation of the effects, however an elevation or diminution of the hormone production was observed after the combined treatment, as compared with the untreated controls or with the use of one of the hormones in the samples. The experiments demonstrate that there is a hormonal regulation between the Tetrahymena cells and the hormones influence each other's effect.     

Comparison of the effect of hormones on the hormone synthesis of Tetrahymena in medium or salt solution

Tetrahymena pyriformis was maintained in TYM (tryptone‐yeast medium) as well as in Losina salt solution. One hour treatment of 10^?15 M histamine, serotonin or insulin was given before the histamine, serotonin, triiodothyronine and adrenocorticotropin contents of the cells were measured by flow cytometry after immunocytochemical staining. Maintenance in salt solution increased the hormone level in the cells, and use of the treatment hormone treatments further increased the endogenous hormone content relative to that in medium. The cells in salt mimic better the natural conditions, which means that the effects of hormones under more natural conditions are expressed to a greater extent than the exogenously given hormones in TYM typically used under laboratory conditions. Intercellular hormonal communication between the cells of a Tetrahymena population might assist in the survival of the individual cells.     

Effect of stress and stress hormones on the hormone (insulin) binding of Tetrahymena

The unicellular Tetrahymena pyriformis GL produce, store and secrete vertebrate‐like hormones. In earlier experiments the effect of different stressors on the hormone levels of Tetrahymena was studied and an elevation of these was found. In the present experiments the hormone binding was investigated, using flow cytometric method. FITC‐insulin binding was elevated after concentrated (5, 10, or 20 mg ml^?1) NaCl or 0.01%, 0.1%, or 0.05% formaldehyde treatment, or after thermal stress (37°C). Serotonin given together with NaCl increased and together with formaldehyde decreased the binding. Histamine always decreased the binding and insulin was indifferent. Four hours after osmotic stress, hormone binding significantly decreased and this was not influenced by hormones. However, 4 h after formaldehyde stress the binding elevated and this was further increased by repeated hormone treatments. The results show that the stress in Tetrahymena provokes an activation of its hormonal system (hormone production and binding), which is differently influenced by exogeneously given hormones. Copyright © 2009 John Wiley & Sons, Ltd.     

Hormonal regulation of DNA synthesis in primary cultures of adult rat hepatocytes : Action of glucagon

Primary cultures of adult rat hepatocytes, grown in modified minimal essential medium (Eagle's) containing 10% calf serum, could be induced into DNA replication by combinations of epidermal growth factor (EGF), insulin and glucagon. The three hormones acted synergistically, and cells began entering DNA synthesis 48 h after hormone addition. The ability of the hormones to stimulate DNA synthesis was enhanced by plating cells at high cell concentrations or by conditioned medium, and was diminished by daily medium change. The contribution of glucagon to DNA synthesis was replaced by cAMP plus 1-methyl, 3-isobutyl xanthine or by adrenergic agents. Evidence is presented which suggests that all three hormones are required on the first day of culture, and that EGF and insulin are also required after the first day. This appears to be a useful system for studies on the hormonal initiation of growth in quiescent cells.     

Induction of hormone receptor formation in the unicellular tetrahymena

Studies based on treatment with antibodies to thyrotropic hormone, luteotropic hormone, growth hormone or adrenocorticotropic hormone have shown that although the unicellular Tetrahymena does not possesssui generis receptors to all polypeptide hormones, such binding structures may arise, or become established in the membrane of the unicellular Tetrahymena in the presence of exogenous hormone. The Tetrahymena subjected to hormonal imprinting still contained an increased amount of hormone after six generation changes, which suggested that either hormone production had been induced by treatment, or the internalized hormone had not been degraded intracellularly. Thus the role of hormonal imprinting in receptor formation has also been substantiated by the immunocytochemical approach used in the present study.     

Steroid hormone (hydrocortisone, oestradiol and testosterone) uptake, storage or induced synthesis in tetrahymena

After cyclodextrin-coated 10(-6) m steroid hormone treatment for 3 days (hormonal imprinting), Tetrahymena cells and their media were analysed by radioimmunoassay for the same hormone and for the presence of the other two. In the absence of hormone treatment, the cells contained no detectable levels of the three steroids. By 2 days in fresh medium following exposure of cells to a 72 h pretreatment of each specific hormone, correspondingly high quantities of hydrocortisone and oestradiol, but lesser quantities of testosterone, were found in both the media and the cells. One week after treatment only traces of hydrocortisone were found, exclusively within the cells themselves. Oestradiol was present in measurable quantities in both cells and media, whereas testosterone was only present in the medium. The presence of the other two hormones to the one used in the pretreatment were not usually present, except that when testosterone had been given, some oestradiol was also detected at 48 h, suggesting Tetrahymena has a functional cytochrome P(450)aromatase.     

Taxon-dependence of receptor level cell-to-cell communication in Tetrahymena: possible explanation for the transmission of hormonal imprinting

Insulin treatment induced in Tetrahymena pyriformis a positive hormonal imprinting, and in Tetrahymena thermophila a negative imprinting, resulting in increased and decreased binding capacity, respectively, at re-exposure to the hormone. The imprinting, or the information associated with it, is transferred by the nutrient medium of the insulin-treated cells to those not treated. The issue of transfer depends on the nature of the receiver taxon, leading always to a positive imprinting in Tetrahymena pyriformis, and to a negative imprinting in Tetrahymena thermophila, regardless of the nature of the 'imprinted' transmitter taxon. The findings substantiate the transferability of hormonal imprinting by the nutrient medium at the unicellular level, the key role of the postreceptorial mechanism in determining the trend of imprinting and may explain the persistence of imprinting in the progeny generations.     

Presence and localization of epidermal growth factor (EGF)- and EGF-receptor-like immunoreactivity in Tetrahymena

The presence of EGF- and EGF-receptor-like immunoreactivity in Tetrahymena was studied with the help of FITC-labelled monoclonal antibodies, using flow cytometry and confocal microscopy. Tetrahymena has endogeneous EGF and treatment with it significantly increases the hormone content of the cells. The hormone is diffusely localized, particularly in the cytopharynx, where it forms a structure larger than 10 microm. EGF-receptors are also demonstrable, particularly in the cortical region in connection with cilia, and EGF treatment significantly enhances cortical fluorescence. The relationships between these observations and literary data on the effects of EGF in Tetrahymena are discussed.     

Presence (hPL, prostaglandin) and absence (triiodothyronine, thyroxine) of hormones in Tetrahymena: experimental facts and open questions

The RIA technique detected prostaglandin (PGF2) and human placetal lactogen (hPL) in Tetrahymena cultures grown in bacto tryptone + yeast extract medium which, however, itself contained these hormones. About one to two per cent of the total hormone content of the medium was demonstrated intracellularly. Treatment with diiodotyrosine (T2), which is known to stimulate the growth of Tetrahymena, was followed by a decrease in the intracellular prostaglandin level. Triiodothyronine and thyroxine were not detected in Tetrahymena or in the medium, and did not appear in it on induction with TSH either. In the light of these observations it might well be doubted that prostaglandin was native in Tetrahymena: the use of synthetic media, and/or a reliable demonstration of the hormone content of the growth medium is recommended for evidence of hormone biosynthesis by unicellular organisms.     

Impact of 5-azacytidine on insulin binding and insulin-induced receptor formation in tetrahymena.

The unicellular Tetrahymena is able to bind the vertebrate hormone insulin, and the binding sites presented by it become amplified under hormonal influence. The increased binding capacity for insulin reappears in many offspring generations. 5-azacytidine inhibits insulin binding and the insulin-induced formation of binding sites as well in the cell generation directly involved in interaction, but enhances insulin binding in the daughter cell generations. The nutrient medium of the cells whose binding capacity was enhanced by azacytidine treatment transmitted the information accounting for increased binding to "virgin" cells not previously treated with azacytidine.     

Experimental observations on the mechanism of hormonal imprinting: influence of actinomycin D, methylamine and colchicine on receptor memory in a unicellular model system

The first interaction between target cell and hormone gives rise to hormonal imprinting, which accounts for greater responsiveness of the cell at later interactions. The mechanism of hormonal imprinting is obscure; we based experimental approach to its closer study on combined treatment of Tetrahymena, as model cells, with diiodotyrosine (T2), which stimulates the division, and cell growth inhibitors, which interfere with different stages of cell reproduction, and methylamine, which inhibits cluster formation in the membrane. Of these, actinomycin D and methylamine inhibited the growth of the Tetrahymena, while colchicine did not, and all three suppressed the division stimulating action of T2, but could not prevent hormonal imprinting, as demonstrated on later re-exposure to T2 of cells preexposed and not preexposed to T2 in combination with the inhibitors. It appears that the underlying mechanism of hormonal imprinting is highly complex, and involves many subcellular mechanisms and structures, but suppression of, or gross interference with, one or another of these cannot delete, only quantitatively reduce, the consequence of the first interaction with the hormone, i.e. hormonal imprinting.     

Changes in ecdysteroid and juvenile hormone levels in developing eggs of Bombyx mori

It is well-known that insect eggs can contain very high concentrations of ecdysteroids, which undergo drastic changes during embryogenesis. We found that this is equally valid for juvenile hormones. Three juvenile hormone-immunoreactive compounds were observed in developing Bombyx mori eggs. They were assumed to be juvenile hormones 1, 2 and 3 according to their retention time in HPLC. These hormones underwent drastic and sudden changes. In the space of one day their concentration was seen to rise rapidly from an undetectable level up to as high as 4 × 10^?6 micromoles per mg of eggs. Their presence was detected as early as the first day of embryonic development, as well as during the blastokinesis period (day 5 to day 9) and in late embryos (day 12 to day 14). Their relative concentrations varied greatly. On two occasions, day 1 and day 8, all three hormones were simultaneously present. Moreover, juvenile hormone 3 was present during the blastokinesis period, either alone or in combination with hormone 2. The latter was the only hormone present in late embryos, before hatching. Thus, with regard to both ecdysteroids (ecdysone and 20-hydroxyecdysone) and juvenile hormones, each day of embryonic development displayed a different hormonal pattern. These patterns undoubtedly constitute a “hormonal code” of embryogenesis control. While 20-hydroxyecdysone can be assumed to trigger cuticulogenesis in embryos as it does in larvae, the effects of the other hormones as well as their possible interactions are questionable.     

Discrepancy in hormone binding and information transfer between sister cells of Tetrahymena clones

Tetrahymena cells treated with insulin in mass cultures were separated to single-cell clones or one of the "sister-cells" of dividing Tetrahymena (in single-cell culture) was treated with insulin. In both cases the FITC-insulin binding of sister-cells were compared. The insulin imprinting significantly increased the insulin binding of cells. There was also a significant difference between the imprinted and not imprinted sisters as well as between the not imprinted sisters. This demonstrates the existence of a difference (in hormone binding) between sister-cells and justifies that the information of the first hormone treatment (imprinting) is not equally divided between the sister-cells.     

Insulin pretreatment (imprinting) produces elevated capacity in the insulin binding of Tetrahymena. Different binding by the cilia of the body and oral field

Gold-labeled insulin is bound first of all to the cilia of the oral field of Tetrahymena. A primary treatment (hormonal imprinting) with insulin increases the binding capacity even after 24h and makes it more sensitive for appearance a week later, within a minute of giving insulin-gold. The food vacuoles contain insulin-gold in pretreated cells or without pretreatment as well, though in imprinted situations the label can be found in pinocytotic vesicles at the bases of cilia in the oral field. Altogether, a functional difference can be observed between the cilia of the oral and non-oral surfaces of Tetrahymena and hormonal imprinting has a specifying effect on the binding of labeled hormone.     

Increased hormone levels in Tetrahymena after long-lasting starvation

Tetrahymena contains vertebrate hormone-like materials. The level of one of these, insulin increased during starvation in a previous experiment. We hypothesized that other hormones are also influenced by starvation. To prove the hypothesis Tetrahymena pyriformis cultures were (1) starved for 24h; (2) starved for 24h and re-fed for 30min or (3) starved for 30min. Amount and localization of vertebrate-like hormones, produced by Tetrahymena, beta-endorphin, adrenocorticotropin (ACTH), serotonin, histamine, insulin and triiodothyronine (T(3)) were studied by immunocytochemical methods using flow cytometry and confocal microscopy. Long starvation elevated with 50% the hormone levels, while short starvation moderately elevated only the serotonin level in the cells. After short re-feeding endorphin and histamine returned to the basal level, ACTH and serotonin approached the basal level, however, remained significantly higher, while insulin and T(3) stood at the starvation level. The results show that such a stress as long starvation provokes the enhanced production of hormones which likely needed for tolerating the life-threatening effect of stress.     

Inhibition of EGF processing in responsive and nonresponsive human fibroblasts

We have examined the proteolytic processing of radiolabeled epidermal growth factor (EGF) in EGF growth-responsive human foreskin fibroblasts (HFF) versus EGF nonresponsive human fetal lung fibroblasts (HFL). Previous studies (Schaudies et al., 1985) have shown that both cell lines demonstrate similar binding affinities and numbers of binding sites, as well as similar rates of internalization and degradation of the bound, radiolabeled hormone. We have used nondenaturing electrophoresis to compare how these two cell lines process EGF at its carboxy terminus. EGF lacking either one [des-(53)-EGF] or six [des (48-53)-EGF] carboxy terminal amino acids could be distinguished by this method. Chloroquine or leupeptin were added to the incubation system in an attempt to accentuate potential differences in hormonal processing between the responsive and nonresponsive cell lines. In the absence of inhibitors, the responsive and nonresponsive cells generated similar distributions of processed forms of EGF after 30-minutes incubation. However, after 4-hours incubation in the constant presence of 125I-EGF, the electrophoretic profiles of extracted hormone were substantially different. The radiolabel within the responsive cells, as well as that released from them, migrated predominantly at the dye front, indicating complete degradation of EGF. In contrast, the majority of the radiolabel within the nonresponsive cells migrated as partially processed forms of hormone, while the released radiolabel migrated at the dye front. Addition of chloroquine to either cell line inhibited processing of EGF beyond removal of the carboxyl terminal arginine residue. Both intact 125I-EGF, and 125I-EGF lacking the carboxyl terminal arginine were released from chloroquine-treated cells in a ratio equal to that present in the intact cells. Incubations in leupeptin, proteolysis of EGF beyond the des-(48-53)-EGF was blocked; however, no large-molecular-weight species were released from the cells under these conditions.     

Presence and localization of histidine decarboxylase enzyme (HDC) and histamine in Tetrahymena pyriformis.

Histidine decarboxylase (HDC) enzyme and its function under hormonal influences were studied in a low level of phylogeny. HDC protein is present in the unicellular ciliate Tetrahymena and its expression was not altered by insulin or histamine treatment. Starvation for 24 h enormously decreased the quantity of histamine in the cells. However, insulin influenced the activity of the HDC enzyme, demonstrated by the seven-fold quantity of histamine in the starved cells after insulin treatment. Insulin also increased the uptake of histamine from the tryptone-yeast extract medium. HDC was found in different parts of the cytoplasm, mainly in the periphery (epiplasm) of the cells. The experiments demonstrated the uptake and synthesis of histamine by Tetrahymena as well as the possibility of hormonal regulation of HDC activity.