Simultaneous analysis of radio-induced membrane alteration and cell viability by flow cytometry

BACKGROUND

Modifications of intracellular transfer, resulting from a loss of membrane integrity may contribute toward setting the cell onto the pathway of apoptosis.

METHODS

We have developed an original technique of measuring simultaneously, with flow cytometry, changes in membrane fluidity and cell death status. Our aim was to assess the extent to which radio-induced cell death and membrane alterations are linked. Investigations were performed on lymphocytes 24 h after whole human blood gamma-irradiation.

RESULTS

Our results confirmed the expected increase in the percentage of apoptotic cells as a function of dose, but revealed that the percentage of necrotic cells appeared stable after irradiation. At the same time, the fluorescence anisotropy of the living lymphocyte subpopulation decreased significantly and dose dependently as measured 24 h post-irradiation. With TMA-DPH, the anisotropy index of apoptotic lymphocytes was always lower than that of the viable lymphocyte subpopulation. On the other hand, 1,6-diphenyl-1,3,5-hexatriene (DPH) anisotropy was similar in apoptotic and viable cells after irradiation. These findings suggest that apoptotic lymphocytes are characterised by a membrane fluidization that mainly occurs on the cell membrane surface.

CONCLUSION

Our study made technical advances in using cytometric fluorescence anisotropy measurement as an early biological indicator of apoptosis after cellular exposure to ionising radiation.

Biological consequences of irradiation by low doses of technetium 99m: ultrastructural studies, p53 protein expression and cytogenetic effects

Few studies concerning the potential genetic effects of diagnostic radionuclides used in nuclear medicine have been reported. The aim of this study was to evaluate the biological and cytogenetic consequences of two technetium 99m-labelled radiopharmaceuticals. Ultrastructural modifications of pulmonary cells were first investigated after injection of 99mTc labelled microspheres in the rat. On the same irradiated cells, nuclear expression of p53 protein was assessed using immunohistochemistry. Despite very high previously calculated doses delivered to pulmonary cells, no morpholological cell damage and no significant increase of nuclear expression of the p53 were noted. There was no correlation between the calculated dose and the ultrastructural biological damage. Secondly, a specific in vitro curve, activity/number of unstable chromosomal aberrations, corresponding to physical characteristics of 99mTc, was established to verify the potentiality of 99mTc to induce such aberrations. In vivo, cytogenetic effects were assessed on blood samples of 5 patients with various arthrosic and periarthrosic diseases obtained after bone scintigraphy. Aberration frequencies of both in vitro and in vivo irradiated lymphocytes were determined using the classical Fluorescence Plus Giemsa technique. No cytogenetic effects appeared with the routinely 99mTc injected activities as predicted by the in vitro curve.

Genetic variability in plasma melatonin in sheep is due to pineal weight, not to variations in enzyme activities

This study was conducted to determine the origin of the high variability in the mean nocturnal plasma melatonin concentration (MC) in sheep. Two extreme groups of 25 lambs each [low (L) and high (H)] were obtained by calculating their genetic value on the basis of the MC of their parents. The MC of lambs was significantly higher in the H group than in the L group (L: 189.7 +/- 24.4 vs. H: 344.1 +/- 33.0 pg/ml, P < 0.001). Within each group, 13 lambs were slaughtered during the day (D) and 12 lambs during the night (N). Pineal weight was significantly higher in the H group than in the L group (L: 83.5 +/- 6.7 vs. H: 119.1 +/- 9.2 mg, P < 0.01) but did not differ between D and N. The amount of melatonin released in vitro per milligram of pineal gland, the arylalkylamine N-acetyltransferase (AANAT) activity, the AANAT protein content, and the level of AANAT mRNA differed significantly between D and N but not with genetic group. Hydroxyindole O-methyltransferase activity did not differ significantly between D and N or between genetic groups. Therefore, the genetic difference in MC between the two groups of lambs was attributed to a difference in pineal size, not in enzymatic activity of the pinealocytes.

Radio-induced structural membrane modifications: a potential bioindicator of ionizing radiation exposure?

PURPOSE

This study focused on radio-induced membrane alterations in order to assess some related parameters as potential biological indicators of ionizing radiation effects in cases of accidental overexposure.

MATERIALS AND METHODS

Radio-induced membrane alterations were assessed after gamma-irradiation of human blood. Biophysical techniques based on fluorescent probe incorporation into isolated living lymphocytes and erythrocytes membranes were applied.

RESULTS

Using the technique of fluorescence polarization, the lipophilic phase of the membrane was shown to be more fluid whereas the lipid-protein interface of the membrane was shown to be more rigid after gamma-irradiation. Fluorescent anisotropy modifications showed dose-time effect relationships after radiation exposure. Ionizing radiation induced a decrease in steady-state anisotropy values but did not affect the probe's lifetime as assessed by fluorescence lifetime distribution technique. These data suggest that the anisotropy variations are representative of the local properties of the fluorescent probe's micro-environment. However, the distribution width showed a decrease pointing towards radiation-induced changes of membrane domain organization, probably due not only to membrane water penetration related to lipoperoxidation, but also to compositional changes and redistribution of membrane components. In contrast, the lack of radiation effect observed using the lateral diffusion index technique may be related to the integrated overview of the radio-induced modifications of the membrane provided by this technique, which pointed out radio-induced damage to the membrane in micro-domains.

CONCLUSION

These findings suggest the utility of structural membrane modification measurements as an early bio-indicator of ionizing radiation exposure.

Cyclic AMP increases hydroxyindole-O-methyltransferase mRNA levels in the chicken pineal gland, but is not required for circadian rhythmicity of this transcript

Hydroxyindole-O-methyltransferase (HIOMT) plays an important role as the final enzyme in the synthesis of melatonin. In the chicken pineal gland, HIOMT mRNA concentration exhibits a circadian rhythm with a threefold peak at midday. The present study sought to evaluate the possible role of cyclic AMP in this transcriptional rhythm. In cultured pineal glands from 4-day-old chicks, cyclic AMP analogs and the adenylate cyclase activator, forskolin, increased HIOMT mRNA levels twofold to threefold in a dose-dependent manner. Vasoactive intestinal polypeptide increased HIOMT mRNA levels by 50%. Actinomycin-D chase experiments indicated that cyclic AMP did not affect the stability of HIOMT mRNA, thus providing indirect evidence that the effect of cyclic AMP was exerted at transcriptional level. In cultured pineal glands from 11 days embryos, HIOMT mRNA levels failed to respond to cyclic AMP. However, a daily rhythm of HIOMT mRNA, with an endogenous component in constant darkness was clearly observed at this developmental stage. This observation indicates that cyclic AMP is not required for circadian rhythmicity of HIOMT gene transcription.

Melatonin synthesis pathway: circadian regulation of the genes encoding the key enzymes in the chicken pineal gland and retina

The mRNAs encoding three enzymes of the melatonin synthesis pathway (tryptophan hydroxylase (TPH), arylalkylamine-N-acetyltransferase (AANAT) and hydroxyindole-O-methyl-transferase (HIOMT)) are expressed with a day/night rhythm in the chicken pineal gland and retina. TPH and AANAT mRNA levels reach their peak at night. HIOMT mRNA levels peak at night in the retina, but during the day in the pineal gland. In this tissue, the rhythm of TPH, AANAT and HIOMT mRNA levels persisted in constant darkness (DD), both in vivo and in vitro, indicating that the three genes are controlled by the circadian oscillator of the chicken pineal. In the retina, the rhythms of TPH and AANAT mRNA levels also persisted in DD in vivo, suggesting that they are driven by a circadian oscillator. In contrast, the rhythm of HIOMT mRNA in the retina appeared to be controlled only by light. The clones of chicken AANAT and HIOMT genes that we have isolated should help us to understand the molecular mechanisms of: 1) their transcriptional regulation by circadian oscillators and by light; 2) their tissue-specific expression in the pineal gland and the retina.

Biochemical indicators of whole-body gamma-radiation effects in the pig

PURPOSE

Validation of the pig as an experimental animal model for dose assessment after ionizing irradiation.

MATERIALS AND METHODS

The evolution of haematological and biochemical parameters was followed for up to 7 days after irradiation in pigs exposed to whole-body 60Co gamma-radiation at doses between O and 6 Gy.

RESULTS

Some biochemical indicators showed significant variations: amylase, LDH, alkaline and acid phosphatases, ALT and iron. None of the studied parameters alone presents a reliable dose-effect relationship; however, there was evidence that the combination of lymphocyte and neutrophil counts and the determination of LDH, ALT, AST and urea levels allowed some dose determination, independent of time, if blood samples were taken within 7 days post-irradiation.

CONCLUSION

The results confirm the main problems of biochemical dosimetry. However, the pig model could represent a useful alternative to the non-human primate in radiobiology research, especially in the case of partial-body exposure. A multiparametric approach to dose assessment seems to be possible in the pig model. Confirmation should be carried out using blood samples from patients undergoing radiotherapy treatment.

Structural analysis of the chicken hydroxyindole-O-methyltransferase gene

Hydroxyindole-O-methyltransferase (HIOMT) catalyzes the final step of melatonin synthesis, a neurohormone involved in photoperiodism and produced specifically in the pineal gland and in the retina. In the chicken, HIOMT gene transcription appears to be controlled by a circadian oscillator located in the pineal gland. We have characterized the chicken HIOMT gene over 17 kb, including 2.9 kb of 5'-flanking sequence. The major transcript (1.6 kb) is composed of eight exons distributed over 7.5 kb of genomic DNA. A ninth alternative exon was identified 6 kb downstream of exon 8. It was found in minor transcripts in the pineal gland and in the retina. Sequence similarity between exons 8 and 9 suggests their origin by exon duplication. Due to early stop codons, inclusion of exon 9 truncates the open reading frame by up to 33%. A restriction fragment length polymorphism was detected for a BglII site in intron 8. Fluorescence hybridization localized the HIOMT gene on chicken chromosome 1q22. The 5'-flanking region contains GATTAA and TAATCC sequences that may be related to tissue-specific expression. An ATTTAAAT sequence at position -29 would play the role of a TATA box, as evidenced by electrophoretic mobility shift assay. Information obtained in this study open the way to further studies aimed at analyzing the circadian rhythm of transcription at promoter level.

Flow cytometric analysis of mitochondrial activity in situ: application to acetylceramide-induced mitochondrial swelling and apoptosis

Changes in mitochondrial matrix volume were studied both on isolated mitochondria and in situ on CHME 5 human microglia and monoblastoid U 937 cells using multiparametric flow cytometric analysis. The use of specific effectors of mitochondrial activity (oligomycin and KCN) allowed the demonstration, on whole cells, of a strict correlation between light scattering and mitochondrial volume changes: mitochondrial swelling induced a concomitant increase in forward scattering, and decrease in side scattering of the cell population. The technique was applied to the study of the early phases of acetyl-ceramide-induced apoptosis, which has been associated with mitochondrial dysfunction in several cellular systems. Acetyl-ceramide caused a marked swelling of isolated rat liver mitochondria. Scatter modifications were also observed in both cell lines during the first hour of incubation with acetylceramide and were accompanied by an increase in DiOC6 (3) fluorescence. The results imply that mitochondrial volume changes can be followed using flow cytometry and eventually used to assist in the interpretation of mitochondrial membrane potential variations obtained from fluorescence measurements. By applying this technique to 2 different cell lines, we demonstrated that mitochondrial swelling occurs during the early phases of acetyl-ceramide treatment, but that the induction of apoptosis is cell type-dependent.

Compartmentation of lactate and glucose metabolism in C6 glioma cells. A 13c and 1H NMR study

13C and 1H NMR spectroscopy was used to investigate the metabolism of L-lactate and D-glucose in C6 glioma cells. The changing of lactate and glucose concentration in the extracellular medium of C6 glioma cells incubated with 5.5 mM glucose and 11 mM lactate indicated a net production of lactate as the consequence of an active aerobic glycolysis. The 13C enrichments of various metabolites were determined after 4-h cell incubation in media containing both substrates, each of them being alternatively labeled in the form of either [3-13C]L-lactate or [1-13C]D-glucose. Using 11 mM [3-13C]L-lactate, the enrichment of glutamate C4, 69%, was found higher than that of alanine C3, 32%, when that of acetyl-CoA C2 was 78%. These results indicated that exogenous lactate was the major substrate for the oxidative metabolism of the cells. Nevertheless, an active glycolysis occurred, leading to a net lactate production. This lactate was, however, metabolically different from the exogenous lactate as both lactate species did not mix into a unique compartment. The results were actually consistent with the concept of the existence of two pools of both lactate and pyruvate, wherein one pool was closely connected with exogenous lactate and was the main fuel for the oxidative metabolism, and the other pool was closely related to aerobic glycolysis.

Biological consequences of the heterogeneous irradiation of lymphocytes during technetium-99m hexamethylpropylene amine oxime white blood cell labelling

Technetium-99m hexamethylpropylene amine oxime (99mTc-HMPAO) labelling of white blood cells, routinely used for the detection of infection, results in the incorporation of radioactivity by polymorphonuclear leucocytes and also lymphocytes and can induce cell lesions in the latter case. The aim of this study was therefore to acquire data on the morphological and functional status of labelled lymphocytes present in the 99mTc-HMPAO leucocyte mixture and to determine the cellular consequences of labelling. The mean radioactivity associated with lymphocytes was 325 +/- 10.8 kBq/10(6) lymphocytes under standard labelling conditions. Microautoradiographic studies showed that labelling was heterogeneous (4% intensely labelled cells), which prevented calculation of the mean absorbed dose. The frequency of chromosomal aberrations (dicentrics and rings) in the labelled lymphocytes for 380 kBq/10(6) cells was 1.08 +/- 0.09 but no abnormality was observed in the unlabelled control lymphocytes. The plating efficiency of labelled lymphocytes was reduced, as compared with that for control cells, but some lymphocytes were still able to form clones and were still "alive" by radiobiological definition. It is therefore suggested that lymphocytes should be removed from 99mTc-HMPAO cell preparations before administration to patients.

Fast-FISH technique for rapid, simultaneous labeling of all human centromeres

Fluorescence in situ hybridization (FISH) has become a powerful tool in chromosome analysis. This report describes the systematic optimization of the Fast-FISH technique for centromere labeling of human metaphase chromosomes for radiobiological dosimetry purposes. For the present study, the hybridization conditions and the efficiency of two commercially available alpha-satellite DNA probes were compared ("human chromosome 1 specific", Oncor, Gaithersburg, MD, vs. "all-human chromosomes specific", Boehringer-Mannheim, Germany). These probes were hybridized to human lymphocyte metaphase plates by using a hybridization buffer without formamide and without any other equivalent denaturing chemical agents. The results indicate the suitability of the method for automated image analysis on the basis of thresholding. The optimal conditions concerning hybridization time and temperature were determined by a systematic quantitative evaluation of the fluorescent labeling sites after the hybridization procedures. Under defined "low stringency" conditions, we found that the "human chromosome 1 specific" DNA probe labeled not only the centromere of the human chromosome 1 but also the other human centromeres in the same way as the "all-human chromosome specific" DNA probe. The optimized conditions to complete all centromere labeling were applied to the detection of dicentric chromosomes on irradiated human lymphocyte samples (gamma-rays of 60Co source, 0.5 Gy/min, for doses of 1, 3, and 4 Gy). The yield of dicentrics was determined after Fast-FISH and compared with results obtained after Giemsa staining. These results are very compatible and indicate that, because of its simplicity, this optimized Fast-FISH procedure would be useful for fast screening purposes in biological dosimetry after accidental overexposure.

Is micronuclei yield variability a problem for overexposure dose assessment to ionizing radiation?

Scoring of micronuclei (Mni) in cytokinesis-blocked human blood peripheral lymphocytes after an accidental radiation overexposure appears an easier and faster alternative for biological dosimetry than dicentrics analysis. However, an increase of Mni rate could be difficult to interpret particularly at low doses, because of the known variability of individual dose response and the unknown background frequency. Moreover, in case of nuclear emergency, there are the added problems of large samples numbers for processing and so screening time. In this paper, we wish to propose some solutions using both methodological and statistical approaches. Firstly, we have tried to check the micronuclei assay in order to obtain a sufficient number of micronuclei in binucleated cells in the shortest time possible, even at higher exposition dose. Two techniques were compared using frequencies of binucleated cells and micronuclei in normal lymphocytes and after exposure to gamma-irradiation (60 Co) for doses up to 6 Gy. Secondly, we have supposed that, if the individual radiosensitivity was a critical problem for dose estimation, conversely, it would be not possible to build a reference curve combining many individuals. Thus, we have assessed the Mni response from 47 carefully selected healthy male blood donors for gamma-irradiation between 0 and 4 Gy. We show in this study that a realistic dose-effect relationship could be always fitted. In addition, the related coefficients could be compared with other published dose-effect relationships for gamma rays. However, the background incidence calculated from these 47 healthy individuals were found to be larger as expected so that this approach increases the detection limit for which an overexposure suspicion could be significantly detected to 0.32 Gy.

Is FISH painting an appropriate biological marker for dose estimates of suspected accidental radiation overexposure? A review of cases investigated in France from 1995 to 1996

From 1995 to 1996 about 15 people suspected of being overexposed to ionizing radiation were referred to the Institute for Nuclear Safety and Protection in Fontenay-aux-Roses, France, for investigation by chromosome aberration analysis. Biological estimates of accidental overexposure were first obtained by scoring radio-induced unstable structural chromosome aberrations (dicentrics, centric rings, and fragments) in peripheral blood lymphocytes. For dose estimates, the yield of these chromosomal aberrations observed in 500 metaphases was compared with the laboratory dose-response relationship established from human blood irradiated in vitro (gamma-rays, 60Co, 0.5 Gy/min). To extend the possibilities of detecting DNA damage from earlier exposures by visualizing stable chromosome aberrations, chromosome painting by fluorescence in situ hybridization (FISH painting) was developed using a cocktail of three composite whole human chromosome-specific DNA probes (numbers 2, 4, and 12). A laboratory calibration curve for scoring terminal and/or reciprocal translocations was established for the same radiation quality and dose rate as those used for conventional cytogenetics (gamma-rays, 60Co, 0.5 Gy/min). For dosimetry purposes, it was also important to verify whether FISH painting could be applied to each human blood sample assessed for conventional expertise. For each individual, 2000 metaphases were scored for the presence or absence of reciprocal and terminal translocations. We present here a comparison between the results obtained by the two technologies for each of the cases studied separately. We describe their similarities or differences and discuss the suitability of using FISH painting for routine expertise analysis.

Histamine in the chick pineal gland: origin, metabolism, and effects on the pineal function

The chick pineal gland contains histamine and tele-methylhistamine. The levels of both substances are elevated after treatment of chicks with the amino acid precursor of histamine, L-histidine (1 g/kg, ip). In control and L-histidine-loaded animals the pineal levels of histamine and tele-methylhistamine are higher in light-exposed than in dark-adapted animals (measured at the end of the light phase and in the middle of the dark phase of 12 hr light, 12 hr dark illumination cycle, respectively). The chick pineal gland contains histamine-immunofluorescent cells displaying mast cell morphology; they are seen in the vicinity of the capsule and in the parenchyma. Enzymatic studies showed the presence of the activity of histamine synthesizing and inactivating enzyme, i.e., L-histidine decarboxylase (HDC) and histamine-methyltransferase (HMT). The detected enzyme activities were sensitive to specific inhibitors of HDC (alpha-fluoromethylhistidine and alpha-hydrazinohistidine) and HMT (quinacrine and metoprine); inhibitors of aromatic amino acid decarboxylase alpha-methyl-DOPA and NSD-1015 were inactive on HDC. Exogenous histamine added to organ-cultured chick pineals strongly stimulated endogenous cyclic AMP accumulation and moderately increased melatonin secretion. The data, considered collectively, suggest that in avians histamine, probably originating from the pineal mast cell compartment, may function as a regulator of pineal gland activity.

Comparison between fluorescence in situ hybridization and conventional cytogenetics for dicentric scoring: a first-step validation for the use of FISH in biological dosimetry

In this study the suitability of fluorescence in situ hybridization (FISH) for dicentric detection using a commercially available alpha-satellite probe (Oncor) to label centromeres was compared with the conventional technique for the detection of unstable aberrations. A standard FISH protocol was applied for centromere labelling. Dose-response curves using blood samples irradiated in vitro with gamma-rays (60Co) at a dose-rate of 0.1 Gy/min were established using both techniques and compared. No statistical difference was observed between either method. The FISH technique thus allows a correct detection of unstable aberrations when an alpha-satellite DNA probe is used.

Technical report: effect of cryopreservation on chromosomal aberration yield in irradiated lymphocytes

Cryopreservation is the usual method to store cells before analysis or use, for instance for biological dosimetry purposes. Some investigations have shown that thawing following freezing may induce cell injury but few studies have been made of the effect of cryopreservation on cells containing radiation-induced unstable chromosomal aberrations. In this work, lymphocytes were irradiated with 1 to 4 Gy gamma rays and stored in liquid nitrogen. The dicentric and centric ring yields were analysed after storage periods of 1 week, 1 month and 3 months. No difference in aberration frequency from control, unfrozen samples was observed over this period. Lymphocytes stored at -196 degrees C for up to at least 3 months may therefore be used for chromosome aberration scoring when over-exposure to ionizing radiation is suspected.

Membrane oxidative damage induced by ionizing radiation detected by fluorescence polarization

Effects of ionizing radiation on biological membranes include alterations in membrane proteins, peroxidation of unsaturated lipids accompanied by perturbations of the lipid bilayer polarity. We have measured radiation-induced membrane modifications using two fluorescent lipophilic membrane probes (TMA-DPH and DPH) by the technique of fluorescence polarization on two different cell lines (Chinese hamster ovary CHO-K1 and lymphoblastic RPMI 1788 cell lines). gamma-Irradiation was performed using a 60Co source with dose rates of 0.1 and 1 Gy/min for final doses of 4 and 8 Gy. Irradiation induced a decrease of fluorescence intensity and anisotropy of DPH and TMA-DPH in both cell lines, which was dose-dependent but varied inversely with the dose rate. Moreover, the fluorescence anisotropy measured in lymphoblastic cells using TMA-DPH was found to decrease as early as 1 h after irradiation, and remained significantly lower 24 h after irradiation. This study indicates that some alterations of membrane fluidity are observed after low irradiation doses and for some time thereafter. The changes in membrane fluidity might reflect oxidative damage, thus confirming a radiation-induced fluidization of biological membranes. The use of membrane fluidity changes as a potential biological indicator of radiation injury is discussed.

Circadian regulation of hydroxyindole-O-methyltransferase mRNA in the chicken pineal gland in vivo and in vitro

The production of the pineal hormone melatonin displays circadian variations with high levels at night. The last enzyme involved in melatonin biosynthesis is hydroxyindole-O-methyltransferase (HIOMT, EC 2.1.1.4). The expression of the mRNA encoding chicken HIOMT was investigated in vivo and in vitro throughout the light/dark cycle, in constant darkness and with light interruption of the dark phase. The stability of HIOMT mRNA was also examined. A day/night rhythm of HIOMT mRNA levels, with a peak at the midlight phase, was observed in vivo as well as in vitro. Constant darkness did not abolish this rhythm in vivo. One cycle of the HIOMT mRNA rhythm could be observed in constant darkness in vitro. In addition, a stimulatory effect of light on HIOMT mRNA levels during the dark phase could be observed in vivo as well as in vitro. HIOMT mRNA stability was not affected by light or dark conditions, as demonstrated by chase experiments with actinomycin D. The results indicate that the daily changes in HIOMT mRNA concentration reflect transcriptional regulation by circadian oscillators and photosensory mechanisms that are endogenous to the pineal gland.

Biological dosimetry in patients treated with iodine-131 for differentiated thyroid carcinoma

Biological dosimetry was applied to 30 patients with differentiated thyroid carcinoma who were treated with 131I (3.7 GBq) to ablate thyroid remnants after surgery or in case of metastases.

METHODS

Chromosomal aberrations were scored in peripheral blood samples obtained before and 4 days after the first administration of 3.7 GBq 131I according to two methods: conventional cytogenetics and chromosome 4 painting. This generated a dosimetric index that reflects the dose to the bone marrow.

RESULTS

Results of both techniques were in close agreement. The mean dosimetric index at Day 4 was 0.54 Gy (95% CI: 0.45-0.62 Gy) by conventional cytogenetics and 0.48 Gy (95% CI: 0.42-0.61 Gy) by chromosome 4 painting. This dose is 2-4 times higher than that derived from the MIRD estimates. Since blood was drawn at Day 4, this technique underestimates the dose by at least a third. The high dose estimate may be related to the hypothyroid status of these patients at the time of 131I administration, a condition which decreases renal clearance of 131I and thus increases whole-body irradiation. This dose estimate was closely related to whole-body retention of 131I at Day 4.

CONCLUSION

These data should be used to estimate the risk due to 131I exposure.

Hydroxyindole-O-methyltransferase in Y-79 cells: regulation by serum

Hydroxyindole-O-methyltransferase (HIOMT) catalyzes the last step in the synthesis of melatonin. In the present study, the regulation of HIOMT expression was examined in the human Y-79 retinoblastoma cell line. Cells were grown in suspension culture using medium supplemented with 10% fetal calf serum (FCS). HIOMT activity and mRNA were strongly reduced when FCS was substituted with 0.1% bovine serum albumin (BSA), and were restored by addition of FCS. The effect of FCS on HIOMT expression was relatively selective, because the abundance of mRNA encoding actin, G3PDH or interphotoreceptor retinoid-binding protein did not change following serum deprivation. However, S-antigen (arrestin) mRNA was regulated by serum coordinately with HIOMT mRNA, suggesting that S-antigen expression is also controlled by a serum factor. The effect of serum on HIOMT expression was not duplicated by treatment with a series of known differentiating factors, nor was it reduced by dialysis or stripping procedures which remove steroids, growth factors and thyroid hormones.

Hydroxyindole-O-methyltransferase in the chicken retina: immunocytochemical localization and daily rhythm of mRNA

In the vertebrate retina and pineal gland, melatonin production displays diurnal variations with high levels at night. Hydroxyindole-O-methyltransferase (HIOMT, EC 2.1.1.4) catalyses the last step of melatonin biosynthesis. In the present study, a cDNA encoding chicken HIOMT was used to examine the effects of environmental lighting on HIOMT mRNA expression in the chicken retina. A day/night rhythm of HIOMT mRNA level was observed, with an average 5-fold increase during the night. Light strongly suppressed the night-time rise in HIOMT mRNA concentration while darkness prevented its daytime fall. An antibody directed against chicken HIOMT was used for immunocytochemical identification of retinal melatoninergic cells. HIOMT immunoreactivity could be observed in rods as well as in cones. However, the lowest levels of HIOMT immunoreactivity were always observed in the accessory cones of double cones. A few HIOMT-positive cell bodies could also be observed in the inner nuclear layer. Altogether, these data indicate that HIOMT gene expression in the retina is organized on a daily basis as a direct response to light, and that the different types of photoreceptors may not be equally involved in melatonin production.

Increased delta aminolevulinic acid and decreased pineal melatonin production. A common event in acute porphyria studies in the rat

Tryptophan (TRP) is the precursor of melatonin, the primary secretory product of the pineal gland. Hepatic heme deficiency decreases the activity of liver tryptophan pyrrolase, leading to increased plasma TRP and serotonin. As a paradox, patients with attacks of acute intermittent porphyria (AIP), exhibit low nocturnal plasma melatonin levels. This study using a rat experimental model was designed to produce a pattern of TRP and melatonin production similar to that in AIP patients. Pineal melatonin production was measured in response to: (a) a heme synthesis inhibitor, succinylacetone, (b) a heme precursor, delta-aminolevulinic acid (Ala), (c) a structural analogue of Ala, gamma-aminobutyric acid. Studies were performed in intact rats, perifused pineal glands, and pinealocyte cultures. Ala, succinylacetone, and gamma-aminobutyric acid significantly decreased plasma melatonin levels independently of blood TRP concentration. In the pineal gland, the key enzyme activities of melatonin synthesis were unchanged for hydroxyindole-O-methyltransferase and decreased for N-acetyltransferase. Our results strongly suggest that Ala overproduced by the liver acts by mimicking the effect of gamma-aminobutyric acid on pineal melatonin in AIP. They also support the view that Ala acts as a toxic element in the pathophysiology of AIP.

Glucose and glutamine metabolism in C6 glioma cells studied by carbon 13 NMR

The question as to whether glutamine and glucose are both required for optimal growth of glioma cells is studied through the role of these substrates on the metabolism of the cells. C6 rat glioma cells grow only very slowly when glutamine is omitted from the culture medium. The rates of glucose consumption and lactate production on confluent cells in glutamine-free medium were 0.88 +/- 0.09 and 1.06 +/- 0.25 mumol/h/mg protein, respectively. In the presence of 4 mM glutamine, glucose utilization increase to 60% leading to a 45% increase of lactate production. We have studied the kinetics of enrichment of intracellular glutamate at C2, C3 and C4 positions on cells incubated with 5 mM 99% enriched [1-(13)C]glucose in the presence or the absence of glutamine in the incubation medium. The specific enrichments at metabolic steady state of all carbon positions were the same under both conditions, but we observed a significantly reduced rate of 13C incorporation in the presence of glutamine, showing an isotopic dilution of tricarboxylic acid cycle intermediates and indicating the use of this amino acid as an anaplerotic substrate. The fact that no dilution occurred at the level of pyruvate suggests strongly the lack of glutaminolysis in these cells. The main conclusion from this work is that glutamine metabolism in C6 cells appears complementary to that of glucose as far as energy production and carbon sources for the growing of the cells are concerned: glutamine is mainly utilized for anaplerosis as carbon donor to replenish the tricarboxylic acid cycle; it is not a substrate for energy metabolism. In contrast, glucose is poorly anaplerotic and is essentially used as energetic fuel by the C6 cells.