Enhanced decorporation of plutonium by DTPA encapsulated in small PEG-coated liposomes.

The aim of the study was to demonstrate that decorporation of 238Pu is achieved more efficiently by an optimized liposomal formulation of diethylene triamine pentaacetic acid (DTPA) than by the usual free DTPA treatment. The optimized formulation consisted of polyethylene glycol-coated stealth liposomes with a mean diameter of 100 nm (SL-100 nm). Rats were intravenously injected with various Pu-phytate salt solutions in order to test different contamination conditions (activity and salt concentration) impacting liver kinetics and skeletal uptake of Pu. All treatments were given intravenously 1 h after contamination. Efficiency was evaluated 24 h, 7, 16 or 30 days later through their ability to promote Pu elimination and to reduce Pu burden in the skeleton and liver, the main organs of Pu deposition and radiotoxicological effects. Whatever the conditions of contaminations, a single injection of SL-100 nm (3.2 micromol kg(-1) DTPA) boosted urinary elimination of Pu to above 90% of the injected dose. In addition, liposomes strongly and significantly reduced the Pu burden of the liver and skeleton even 30 days after a single treatment: a dose of 0.3 micromol kg(-1) induced the same skeletal Pu reduction as four injections of free DTPA (30 micromol kg(-1)). A log dose-effect relation was found with SL-100 nm DTPA and Pu excretion in urine or Pu burden in the studied organs (liver, femurs, spleen and kidneys). This efficacy was attributed to an optimized targeting of DTPA to the main Pu retention organs and especially the liver.

Carvedilol inhibits right ventricular hypertrophy induced by chronic hypobaric hypoxia.

Right ventricular hypertrophy induced by chronic hypoxia is mainly due to a mechanical stress upon the ventricular wall secondary to pulmonary arterial hypertension. However, the hypoxic chronic activation of the sympathetic nervous system can contribute to the development of right ventricular hypertrophy either via myocardial adrenergic receptors and/or a vasoconstriction and remodeling of pulmonary arteries. To highlight the specific role of the sympathetic nervous system on hypoxia-induced right ventricular hypertrophy and particularly the efficiency of carvedilol, our study compared physiological, myocardial, and pulmonary arterial morphometric data in rats treated by alpha-(prazosin), or beta-(propranolol) or alphabeta-(carvedilol) antagonist and exposed to chronic hypobaric hypoxia (2 weeks at 380 mmHg barometric pressure). In chronic hypoxia, both systolic right ventricular pressure and Fulton's ratio (right/(left+septum) ventricular weight) were lower in rats treated by prazosin (-16.7 and -13.6%), propranolol (-28.6 and -12.7%) and carvedilol (-15.9 and -14.3%) respectively when compared to glucose (p<0.05). Surprisingly, prazosin was unable to reduce right ventricular hypertrophy induced by chronic hypoxia, whereas, left ventricular weight increased. Wall thickness index of pulmonary arteries increased in chronic hypoxia and was reduced by carvedilol. In conclusion, the hypoxia-induced activation of the adrenergic system participates in the development of right ventricular hypertrophy. Carvedilol is effective in reducing hypoxia-induced right ventricular hypertrophy, pulmonary arterial hypertension, and muscularization of pulmonary arteries.

Comparative tissue uptake and cellular deposition of three different plutonium chemical forms in rats.

PURPOSE: To evaluate the influence of the chemical form of plutonium (Pu) on its distribution in tissues and within liver cells populations. MATERIALS AND METHODS: Groups of male Sprague-Dawley rats were contaminated by intravenous injection of either Pu citrate, Pu nitrate or Pu phytate. Pu content was determined in various tissues at different times after injection. Pu liver distribution was analysed by autoradiography and after cellular separation. RESULTS: Biokinetic studies indicate that Pu citrate and Pu nitrate predominantly retained in the skeleton within the first hours after injection, whereas most of the Pu was in the liver after injection of Pu phytate. Autoradiographs showed that Pu citrate was homogeneously distributed in the liver, while Pu nitrate accumulated into 'hot points'. Pu phytate showed an intermediate distribution pattern. Hepatic cell separation revealed a difference of uptake between the two cell types depending on the chemical form of injected Pu, and on the time after contamination. CONCLUSIONS: Distinct Pu behaviour was observed for biokinetics, retention and liver distribution. The large differences noted between citrate, nitrate and phytate might be explained by differences in systemic and hepatic transport.

Regulation of CD45-induced signaling by galectin-1 in Burkitt lymphoma B cells.

It has been well established that Galectin-1 (GAL1), a beta-galactoside-binding protein, regulates the viability of lymphoid cells. However, the signaling pathway governed by the binding of GAL1 to the cell membrane is not understood. As a first step towards the elucidation of GAL1-initiated signaling events leading to a reduced viability of Burkitt lymphoma B cells, we tried to characterize the initial events induced by the binding of GAL1 to its receptor. This characterization was performed in BL36 cells, a Burkitt lymphoma cell line sensitive to GAL1. The results were as follows: (1) when solubilized cell membrane lysates were affinity bound to immobilized GAL1 and eluted by competition, the tyrosine phosphatase glyco-protein CD45 was found in the eluate, highlighting the role of CD45 as a receptor of GAL1; (2) the phosphatase activity of cell membranes diminished after incubation with GAL1; (3) immunoprecipitation experiments demonstrated that the phosphotyrosine kinase Lyn was dysregulated in cells that have been cultured in medium containing 700 nM GAL1, and (4) that the ratio between two isoforms of Lyn was modified during the treatment with GAL1. The regulation of Lyn therefore seems to be a key event in the action of GAL1.

Analysis of galectin 1-mediated cell signaling by combined precipitation and electrophoresis techniques.

Galectin-1 (GAL1) is a beta-galactoside-binding protein that has been implicated in the regulation of viability of lymphoid cells. However, the signaling pathway governed by the binding of GAL1 to the cell membrane is not understood yet. As a first step toward the elucidation of GAL1-initiated signaling events, electrophoresis techniques such as sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and two-dimensional electrophoresis (2-DE) were used together with precipitation techniques. This allowed us to identify the membrane receptor of GAL1, and to characterize the signal resulting from the binding of GAL1 to this receptor. Our results demonstrate that the tyrosine phosphatase CD45 is the receptor for GAL1, and that the src-type tyrosine kinase Lyn is a target for the effects of GAL1/CD45 interactions in B-cells. Furthermore, these results show the usefulness of combined precipitation and electrophoresis techniques to analyze phosphotyrosine-dependent mechanisms during the study of cell functions.

Affinity purification and characterization of recombinant human galectin-1.

Galectin-1, a polypeptidic factor that can have major effects on cell growth and apoptosis, was overexpressed in E. coli. This protein was purified to homogeneity by affinity chromatography on lactose coupled to divinylsulfone-activated agarose. The recombinant galectin-1 (rGAL1) was compared with the homologous protein purified from human brain tissue using two-dimensional electrophoresis on immobilized pH gradient (IPG-DALT). rGAL1 had a major isoelectric point of 5.4 (major pI of tissular galectin-1, 5.1) and its subunit molecular mass was 14500. Addition of rGAL1 to Jurkat T-lymphoblastoid cells induced cell death in a concentration-dependent manner.

Externalization and binding of galectin-1 on cell surface of K562 cells upon erythroid differentiation.

Galectin 1 (GAL1) is a beta-galactoside-binding lectin involved in cell cycle progression. GAL1 overexpression is associated with neoplastic transformation and loss of differentiation. The gene encoding for human GAL1 resides on chromosome 22(q12; q13), and its expression is developmentally regulated. Although devoid of signal peptide GAL1 can be externalized from cells by a mechanism independent of the normal secretory process. We report here on a study of the effects of erythroid differentiation of the human leukemia cell line K562 on GAL1 protein expression. In undifferentiated K562 cells, GAL1 was expressed into the cytosol. However, the amount of GAL1 was surprisingly weaker in K562 cells than in other leukemia cell lines such as TF-1 or KG1a. Treatment of K562 cells with erythropoietin (EPO) or with aphidicolin (APH), an inhibitor for DNA polymerase alpha, induced an erythroid phenotype and led to the externalization of cytosolic GAL1 which was then bound to ligands on cell surface in a galactoside-inhibitable fashion. Our results demonstrate that acquisition of an erythroid phenotype is associated with an externalization of GAL1. The autocrine binding of GAL1 to cell surface ligands of non adherent cells such as K562 suggest that GAL1 is implicated rather in signal transduction than in cell-cell or cell-matrix interaction. Moreover, the reciprocal translocation involving chromosomes 9 and 22 t(9;22) present in K562 cells might explain the weak expression of GAL1 in K562 leukemia cells.

Gamma-carboxyglutamic acid in urine of newborn infants.

Gamma-Carboxyglutamic acid (GLA) was measured in the urines obtained from 11 full-term infants, 48 pre-term infants appropriate for gestational age (AGA), and 25 small-for-gestational age (SGA) infants. Separation was performed by high resolution anion exchange chromatography. The results were similar in both AGA and SGA infants. During the first 3 days of life, urinary GLA mean (and range) was 1.66 (0.34-4.60) in the low birth weight infants versus 0.88 (0.26-1.38) in the full-term infants and 0.76 (0.62-1.15) mumol . kg-1 X 24 h-1 in the control adults. In the low birth weight infants, urinary GLA fell from 2.79 (0.61-5.75) at age 1-3 days, to 1.55 (0.26-4.04) mumol/24 h at day 8 (p less than 0.01); it then rose again slowly to 2.12 (0.65-3.93) mumol/24 h at day 45. In these infants there was no correlation between urinary GLA excretion and birth weight or gestational age, or urinary hydroxyproline or serum alkaline phosphatase. Despite the well-known reduced blood levels of vitamin K dependent coagulation factors in neonates, these results show that urinary GLA excretion is at least similar to the excretion in adults. These data suggest that these neonates can carboxylate glutamic acid and that the newborn infant has a high bone turnover.