Binding and degradation of125I-insulin by isolated rat renal brush border membranes: Evidence for low affinity,high capacity insulin recognition sites

Summary The kidney plays a major role in the handling of circulating insulin in the blood, primarily via reuptake of filtered insulin at the luminal brush border membrane.¹²⁵I-insulin associated with rat renal brush border membrane vesicles (BBV) in a time-and temperature-dependent manner accompanied by degradation of the hormone to trichloroacetic acid (TCA)-soluble fragments. Both association and degradation of¹²⁵I-insulin were linearly proportional to membrane protein concentration with virtually all of the degradative activity being membrane assoicated. Insulin, proinsulin and desoctapeptide insulin all inhibited the association and degradation of¹²⁵I-insulin by BBV, but these processes were not appreciably afected by the insulin-like growth factors IGF-I and IGF-II or by cytochromec and lysozyme, low molecular weight, filterable, proteins, which are known to be reabsorbed in the renal tubules by luminal endocytosis. When the interaction of¹²⁵I-insulin with BBV was studied at various medium osmolarities (300–1100 mosm) to alter intravesicular space, association of the ligand with the vesicles was unaffected, but degradation of the ligand by the vesicles decreased progressively with increasing medium osmolarity. Therefore, association of¹²⁵I-insulin to BBV represented binding of the ligand to the membrane surface and not uptake of the hormone or its degradation products into the vesicles. Attempts to crosslink¹²⁵I-insulin to a high-affinity insulin receptor using the bifunctional reagent disuccinimidyl suberate revealed only trace amounts of an¹²⁵I-insulin-receptor complex in brush border membrane vesicles in contrast to intact renal tubules where this complex was readily observed. Both binding and degradation of¹²⁵I-insulin by brush border membranes did not reach saturation even at concentrations of insulin approaching 10^–5 m. These results indicate the presence of low-affinity, high-capacity binding sites for¹²⁵I-insulin on renal brush border membranes which can clearly distinguish insulin from the insulin-like growth factors and other low molecular weight proteins and polypeptides, but which do not differentiate insulin from its analogues ad do the biological receptors for the hormone. The properties and location of these binding sites make them attractive candidates for the sites at which insulin is reabsorbed in the renal tubule.     

Human cytokines interleukin (IL)-3 and IL-6 affect the growth and insulin binding of the unicellular organismTetrahymena

Interleukin (IL)-3 and IL-6 significantly increase the growth rate of the unicellular organism,Tetrahymena. The effect elicited by IL-3 is long lasting as it was also detectable after 20 generations. Effect of IL-6 was detectable as long as the substance was present in the cell culture. Pretreatment with IL-3 did not enhance the proliferative response to subsequent IL-3 treatment, but the second exposure to IL-3 considerably depressed the active proliferation ofTetrahymenacells. However, a positive ‘priming effect’ elicited by IL-6 resulted in an increased growth rate following repeated IL-6 stimulation. Insulin binding to the plasma membrane ofTetrahymenawas increased by IL-6 but not by IL-3 after 24 hours, and this enhancement appeared even after one hour incubation. If the cells were pretreated with insulin, IL-6 did not influence insulin binding, while an inhibition by IL-3 was observed. These results direct attention to the similarities of actions induced by IL-3 and IL-6 at different levels of phylogeny probably due to the presence of cytokine receptor-like structures on this unicellular organism.     

Insulin receptors in the brain: Structural and physiological characterization

The present study was conducted to characterize insulin receptors and to determine the effects of insulin in synaptosomes prepared from adult rat brains. Binding of¹²⁵I-insulin to synaptosome insulin receptors was highly specific and time dependent: equilibrium binding was obtained within 60 minutes, and a t_1/2 of dissociation of 26 minutes. Cross-linking of¹²⁵I-insulin to its receptor followed by SDS-PAGE demonstrated that the apparent molecular weight of the alpha subunit of the receptor was 122,000 compared with 134,000 for the liver insulin receptor. In addition, insulin stimulated the dose-dependent phosphorylation of exogenous tyrosine containing substrate and a 95,000 MW plasma membrane associated protein, in a lectin-purified insulin receptor preparation. The membrane associated protein was determined to be the subunit of the insulin receptor. Incubation of synaptosomes with insulin caused a dose-dependent inhibition of specific sodium-sensitive [³H]norepinephrine uptake. Insulin inhibition of [³H]norepinephrine uptake was mediated by a decrease in active uptake sites without any effects in theK _m, and was specific for insulin since related and unrelated peptides influenced the uptake in proportion to their structural similarity with insulin. These observations indicate that synaptosomes prepared from the adult rat brain possess specific insulin receptors and insulin has inhibitory effects on norepinephrine uptake in the preparation.     

THE TETRAHYMENA HOMOLOG OF BACTERIAL AND MAMMALIAN 4-HYDROXYPHENYLPYRUVATE DIOXYGENASES LOCALIZES TO MEMBRANES OF THE ENDOPLASMIC RETICULUM

The expression and intracellular localization of the Tetrahymena homolog of 4-hydroxyphenylpyruvate dioxygenase (HPPD) were investigated in wild-type Tetrahymena thermophila strain B1868 VII and the mutant strains IIG8, defective in food vacuole formation, MS-1, blocked in secretion of lysosomal enzymes, and SB 281, defective in mucocyst maturation. Immunoelectron microscopy and confocal laser scanning microscopy demonstrated that Tetrahymena HPPD primarily localized to membranes of the endoplasmic reticulum. In addition, Tetrahymena HPPD was detected in association with membranes of the Golgi apparatus, and transport vesicles in exponentially growing wild-type and mutant strains. In starved cells, Tetrahymena HPPD localized exclusively to membranes of small vesicles. Since no de novo synthesis ofTetrahymena HPPD takes place in cells starved for more than 30min, these results suggest that there is a flow ofTetrahymena HPPD from the endoplasmic reticulum to small vesicles, possibly via the Golgi apparatus, and thatTetrahymena HPPD contains a signal for vesicle membrane retrieval or retention.     

125Iodine decay in DNA: A discussion of its effectiveness for the breaking of DNA strands

Summary ¹²⁵I incorporated in DNA is known to be exceptionally toxic. Values of D₀ range from about 40 to about 90 decays for survival of mammalian cells. The effectiveness of¹²⁵I in DNA with respect to the induction of breaks of the DNA strands, however, appears to be comparatively low. The numbers of strand breaks per energy deposited in subnuclear cellular structures such as DNA is smaller for a disintegration of¹²⁵I than for-rays. The difference in effectiveness diminishes with increasing mass of the considered sensitive volume. The apparent inefficiency of¹²⁵I-decay may, on one hand, result from a waste of local energy deposition. On the other hand, it may be caused by a multitude of local strand breaks (clusters) induced by¹²⁵I-decay which are measured as one break only by the conventionally applied techniques of strand break measurement. The apparent inefficiency of¹²⁵I may be evidence furthermore for the importance of considering not only the DNA as the sensitive target but with equal pertinence the gross sensitive volume, i.e. the whole cell nucleus [12]. Further, for drawing meaningful comparisons, it may be necessary to take into consideration the microdosimetric event size distributions for the critical targets [1].Dedicated to Prof. L.E. Feinendegen on the occasion of his 60th birthday     

Physical and radiobiological bases of the use of125I in the management of thyrotoxicosis

Increasing interest is recently shown in the use of¹²⁵I as an alternative isotope to¹³¹I for the management of thyrotoxicosis based on the postulate that there is a relative sparing of the reproductive integrity of the thyroid follicular cell and a consequent possibility of smaller incidence of hypothyroidism after therapy. A review of the dosimetric, radiobiological and clinical aspects of the use of¹²⁵I are presented here.For the same activity though¹²⁵I gives smaller mean glanddose than¹³¹I, the dose computations at microscopic level have revealed that there is a preferential irradiation of the apical membrane compared to the nucleus of the follicular cell. The ratio of the dose to the apical membrane and that to the nucleus increases with the decrease of the percentage colloid mass of the gland. Radiobiological significance of this non-uniform dose distribution across a follicular cell, with¹²⁵I, is brought out using rat thyroid as the biological system. For the same mean gland dose the follicular cell survival is larger with¹²⁵I than with¹³¹I. 24 h radioiodine uptake is reduced in case of¹²⁵I treatment whereas it is not affected with¹²⁵I. Pilot clinical trials using¹²⁵I for the management of thyrotoxicosis are underway in some centres. Preliminary results from centres using doses 3–4 times that of the conventional¹³¹I dose are not very different from those with conventional¹³¹I therapy. Centres that used doses same as or less than the conventional¹³¹I doses, reported smaller incidence of hypothyroidism.Alexander von Humboldt Fellow in Klinikum Steglitz, Berlin     

TRANSLOCATION OF IODINE IN LAMINARIA SACCHARINA(PHAEOPHYTA)1

Long-distance translocation of ¹²⁵I in Laminaria saccharina (L.) Lamour. followed a “source to sink” pattern. When the source of ¹²⁵I was placed on the distal mature part of the blade, the translocation was unidirectional, basipetal and directed towards the meristematic region at the blade-stipe junction. When the source was placed directly at the meristem there was no movement of label distal to the meristem. The velocity of¹²⁵I transport ranged from 2 to 3.5 cm · h^?1. The anion I^? seemed to be the only species of¹²⁵I transported. An assay of iodine content in different parts of L. saccharina plant showed much higher levels of iodine in the meristem, stipe and holdfast than in the blade. This distribution concurs well with the pattern of I^? translocation.     

How does the unicellular <Emphasis Type="Italic">Tetrahymena</Emphasis> utilise the hormones that it produces? Paying a visit to the realm of atto-and zeptomolar concentrations

Changes in the hormone content of Tetrahymena pyriformis GL were investigated during histamine, serotonin or insulin treatment at concentrations of 10⁻⁶M to 10⁻²¹M for 30 min. The immunologically demonstrable hormone content was studied by using specific antibodies, flow cytometry and confocal microscopy. Histamine at the higher ranges elevated the serotonin content of Tetrahymena, whereas serotonin at the lower ranges (down to 10⁻²¹M) decreased its histamine levels. Insulin did not affect its serotonin content, whereas serotonin increased its insulin content at each concentration studied (down to 10⁻²¹M). Insulin between 10⁻⁶M and 10⁻²¹M increased the hista-mine levels of Tetrahymena, although histamine influenced its insulin level only at 10⁻⁶M. Our results call attention to the presence of hormonal interactions even at “low” levels of phylogeny and to the extreme sensitivity of the hormone receptors of Tetrahymena. These data might explain (1) the requirement of Tetrahymena for (vertebrate) hormone production and hormone receptors and (2) the way that it uses these hormones under natural conditions.This work was supported by the National Research Fund (OTKA-T-037303), Hungary.     

Microcalorimetric Study on the Toxic Effect of Pb<Superscript>2+</Superscript> to <Emphasis Type="Italic">Tetrahymena</Emphasis>

The toxic effect of Pb²⁺ has been studied in eukaryotic cells by using Tetrahymena as a target. The maximum power (P _m) and the growth rate constant (k) were determined, which showed that values of P _m and k were linked to the concentration (C) of Pb²⁺. The addition of Pb²⁺ caused a decrease of the maximum heat production and growth rate constant, indicating that Tetrahymena growth was inhibited in the presence of Pb²⁺, and Pb²⁺ took part in the metabolism of cells. From micrographs, morphological changes of Tetrahymena were observed with addition of Pb²⁺, indicating that the toxic effect of Pb²⁺ derived from destroying the membrane of surface of Tetrahymena. According to the thermogenic curves and photos of Tetrahymena under different conditions, it is clear that metabolic mechanism of Halobacterium halobium R1 growth has been changed with the addition of Pb²⁺.     

Direct Determination of Serum T-4 by Isotopic Exchange: Comparison with T-3 * and PBI in 1700 Cases

We have studied in detail the procedure for the direct determination of serum thyroxine based on the liberation of ¹²⁵I T-4 from a tagged euthyroid serum reagent, the thyroxine being liberated by alcohol denaturation from 0.5 ml. of patient serum.We have established that there is proceeding simultaneously a second mechanism of T-4 liberation which is in no way associated with patient thyroxine. A simple technique for determining the extent of, and correcting for this second reaction is described.The procedure employs the same equipment used for the ¹²⁵I T-3 and involves only one additional step. No calibration curve is required. Results are not influenced by iodine in any form.The T-4 content is best expressed as a ratio to that of a standard mid-euthyroid serum. The ratio values for the hypothyroid, hyperthyroid and euthyroid states are characteristic and free from overlap. Separation between low normals and hypothyroids is very sharp. The relation between the serum T-4 ratio and the assayed thyroxine content has a correlation coefficient of 0.91. The product of the ¹²⁵I T-3 ratio and the T-4 ratio makes the procedure applicable in pregnancy and during steroid use, and provides a good indication of the free thyroxine present.The values of T-4, the ¹²⁵I T-3 and the PBI have been applied to 1084 patient sera and the T-4 and the ¹²⁵I T-3 to an additional 616. In this series of 1700 patients the serum T-4 was found to indicate the most probable clinical classification with a reliability of at least 95%.     

DNA amounts in the nuclei ofParamecium aurelia andTetrahymena pyriformis

DNA amounts have been determined in the micronuclei and macronuclei of 8 strains ofParamecium aurelia and 6 strains ofTetrahymena pyriformis. In the case ofTetrahymena a distribution of values for the amount of DNA in the macronuclei of all the strains was observed but the lowest values were approximately the same, viz. 1.17×10⁻¹¹ g. There are two groups of strains in relation to micronuclear DNA values ofTetrahymena, one giving an average of 0.36×10⁻¹² g and the other 0.815×10⁻¹² g. The ratio of MIC/MAC DNA varies in the two groups.Paramecium again has a range of macronuclear values within each stock—lowest value 2.51×10⁻¹⁰ g—and the micronuclear values are similar in all stocks—approximately 0.613×10⁻¹² g. The ratio of MIC/MAC DNA is similar in each stock.—The haploid genome values calculated from these data show excellent agreement with the values obtained by DNA renaturation studies. Supported by a Research Grant B/SR/8276 from the Science Research Council. The Vickers densitometer was purchased with a grant from the Medical Research Council.     

Insulin binding in cultured Chinese hamster kidney epithelial cells: The effect of serum in the medium

Summary [¹²⁵I]Insulin (porcine) binding to an epithelial cell line established from a Chinese hamster kidney, CHK-AC_E−100, showed an optimum at pH 8.0 and reached a maximum after 2.5 h incubation at 25°C. Dissociation of bound [¹²⁵I]insulin was facilitated by the addition of unlabeled insulin in the dilution buffer. Porcine insulin effectively competed for [¹²⁵I]insulin binding to the cultured cells and was 30 and 90 times as potent as guinea pig insulin and porcine proinsulin in causing 50% inhibition of [¹²⁵I]insulin binding; glucagon was completely ineffective. Scatchard analysis of the binding data yielded a curvilinear plot and a capacity of 0.6 ng/10⁶ cells; the average affinity of the empty receptor, , was calculated to be 1.78×10⁸ M ⁻¹ and that of the filled receptor, , 0.57×10⁸ M ⁻¹. Substitution of fetal bovine serum (FBS) in the culture medium with bovine calf, bovine newborn, or bobby calf serum altered insulin binding characteristics in the cells and reduced cell growth. Insulin binding characteristics of cells grown in hormone-supplemented medium containing 0 to 0.1% FBS were similar to those of cells grown in minimum essential medium (MEM) containing 2 to 5% FBS. The data indicated that the established Chinese hamster kidney epithelial cell line CHK-AC_E−100 possessed specific insulin receptors and the characteristics of the receptors could be manipulated by changing the serum in culture medium.     

Comparison of Insulin Binding Proteins In Plasma and Nuclear Membranes of Obese and Lean Mouse Liver

Abstract

Plasma membranes obtained from obese (ob/ob) and lean (+/+ or +/ob) mouse livers were chemically crosslinked to [¹²⁵I] -insulin and examined by electrophoresis and autoradiography. The pattern of crosslinked hormone was qualitatively similar in obese and lean plasma membranes. A major insulin binding protein of approximately M 120,000 was observed. Two additional bands were apparent, one which remained near the top of the gel and one about M 90,000. A minor band at approximately M 50,000 was also detected. For each of the insulin binding proteins a reduction in the amount of [¹²⁵I]-insulin bound was observed with obese plasma membranes as compared with lean. For all proteins the insulin binding was specific as determined by competition with unlabeled hormone. In addition to plasma membrane receptors, insulin has also been reported to bind to nuclear membranes. The autoradiographic patterns of gels of [¹²⁵]-insulin bound and crosslinked to nuclear membranes from obese and lean mouse livers indicated the presence of proteins of the same M as those described for plasma membranes. Nuclear membrane proteins bound less insulin than plasma membranes and, again, the obese was decreased relative to the lean. Contamination of the nuclear membrane fraction by plasma membranes was ruled out. Scatchard analyses of [¹²⁵]-insul in bound to plasma and nuclear membranes indicated that the decrease in hormone binding in the obese mouse is a result of a reduction in the absolute number of receptors. The findings presented in this study provide additional support for this conclusion by demonstrating that membranes from obese mice are comprised of the same set of apparently unaltered insulin binding proteins. Further, the presence of similar insulin binding proteins in both nuclear and plasma membranes suggests a physiological relationship between these structures with respect to hormone binding and/or in the mechanism of action of insulin.     

Chicken Insulin Discriminates Between Receptors for Insulin and Insulin-Like Growth Factor I on Centrally-and Peripherally-Derived Glial Cells

Abstract

Insulin and IGF-I receptors in G26–20 cells, derived from a mouse oligodendroglioma, and in RN-2 cells, derived from a rat Schwannoma, were characterized by specific binding to [¹²⁵I]insulin and [¹²⁵I]IGF-I respectively. In both cell lines, the Kd for insulin was 1.5 nM. Insulin receptor number was 33,000/cell for RN-2 cells and 17,000 receptors/ cell for G26–20 cells. RN-2 cells have 700,000 IGF-I receptors/cell with a Kd of 2 nM while G26–20 cells have 60,000 receptors/cell with an affinity of 4.9 nM. However, the independence of these two receptor populations in each cell type was equivocal since the subunit structure of these receptors appears identical by electrophoresis. In both cell lines, competition with insulin analogs for [¹²⁵I]insulin binding demonstrated chicken insulin>insulin>IGF-I. Competition for [¹²⁵I]IGF-I binding showed that IGF-I was approximately 85-fold more potent than insulin. Chicken insulin was ineffective at all concentrations. Thus, chicken insulin can be used as a specific ligand to unequivocally discriminate between IGF-I and insulin receptors and effects.     

Peculiarities of distribution of 125I-insulin and 125I-insulin-like growth factor-I (IGF-I) at internalization in isolated rat hepatocytes

One of determining conditions of formation in vertebrate phylogenesis of hormonal systems of insulin and IGF-I—peptides common by origin, similar by structure and by biological action is temperature factor. In differentiation of functional roles of two related hormones an important place is ascribed to mechanism of their intracellular action. Study of formation of the two hormonal systems in vertebrate phylogenesis necessitates knowledge of peculiarities of internalization of two related hormones in mammals. On isolated rat hepatocytes at the identical maximal level of internalization of ^I25I-insulin and ¹²⁵I-IGF-I there are revealed marked differences of dynamics of their internalization. Besides, at internalization of ¹²⁵I-insulin or of ¹²⁵I-IGF-I, their peculiar distribution was observed in the cell and on the plasma membrane. At 37°C, only two thirds of ¹²⁵I-insulin relatively bound to receptors on the membrane were immersed into cell, whereas the portion of internalized ¹²⁵I-IGF-I turned out to be higher than the part located on the membrane. At 12°C, a decrease of ¹²⁵I-insulin inside the cell and its increase on the membrane indicated the interdependent label redistribution under these conditions. The form of the ¹²⁵I-IGF-I distribution at low temperature remained unchained. The pattern of established differences of internalization of ¹²⁵I-insulin and ¹²⁵I-IGF-I as well as different sensitivity of each of the processes to low temperature indicated that each of the peptides triggered individual mechanism of endocytosis of receptors. The high sensitivity of internalization of ¹²⁵I-insulin to low temperature and the temperature lability of the process in isolated rat hepatocytes agree with the earlier suggestion about the late formation of the regulatory insulin system in homoiothermal vertebrates.     

Labelling of high molecular weight hyaluronan with125I-tyrosine: studiesin vitro andin vivo in the rat

Studies on the metabolism of the polysaccharide hyaluronan has previously been hampered by the lack of radioactive hyaluronan of high molecular weight (MW) and high specific activity. In the present study¹²⁵I-tyrosine (T)-labelled hyaluronan was produced after CNBr-activation of the polysaccharide. A specific activity of approximately 0.1 MBq µg^–1 was achieved using 100 µg of 0.5×10⁶ Da hyaluronan labelled for 2 h with 18 MBq¹²⁵I. The¹²⁵I-T-hyaluronan kept a high MW-profile upon gel filtration chromatography and was found to be cleared from the circulation with the kinetics and organ distribution reported for biosynthetically labelled hyaluronan of high MW. The¹²⁵I-labelled polysaccharide is also taken up by liver endothelial cells bothin vivo andin vitro, indicating that the labelling does not interfere with the binding to specific cell-surface receptors found on these cells. The intracellular degradation is slower than that earlier reported for biosynthetically labelled hyaluronan and seems to be halted at the level of low MW oligo- or mono-saccharides that eventually leave the organism via the urine. Scintigraphic images of rats after intravenous injection of¹²⁵I-T-hyaluronan showed rapid uptake in the liver and a redistribution of radioactivity from liver to urine with time. Our results indicate that the¹²⁵I-T-hyaluronan is suitable for studies of hyaluronan-metabolism in a number of ways. The gamma emitters¹²⁵I and¹³¹I are easy to monitor and can be used also forin vivo 3D-imaging using single photon emission computer tomography.Abbreviations CNBr cyanogen bromide - T-HA tyrosine-labelled hyaluronan     

The influence of electrochemical gradients of Na+ and K+ upon the membrane binding and pore forming activity of the terminal complement proteins

Summary The hemolytic activity of the terminal complement proteins (C5b-9) towards erythrocytes containing high potassium concentration has been reported to be dramatically increased when extracellular Na⁺ is substituted isotonically by K⁺ (Dalmasso, A.P., et al., 1975,J. Immunol. 115:63–68). This phenomenon was now further investigated using resealed human erythrocyte ghosts (ghosts), which can be maintained at a nonlytic osmotic steady state subsequent to C5b-9 binding: (1) The functional state of C5b-9-treated ghosts was studied from their ability to retain trapped [¹⁴C]-sucrose or [³H]-inulin when suspended either in the presence of Na⁺ or K⁺. A dramatic increase in the permeability of the ghost membrane to both nonelectrolytes-in the absence of significant hemoglobin release-was observed for C5b-9 assembly in the presence of external K⁺. (2) The physical binding of the individual¹²⁵I-labeled terminal complement proteins to ghost membranes was directly measured as a function of intra- and extracellular K⁺ and Na⁺. The uptake of¹²⁵I-C7,¹²⁵I-C8, and¹²⁵I-C9 into membrane C5b-9 was unaltered by substitution of Na⁺ by K⁺. (3) The binding of the terminal complement proteins to ghosts subjected to a transient membrane potential generated by the K⁺-ionophore valinomycin (in the presence of K⁺ concentration gradients) was measured. No significant change in membrane binding of any of the C5b-9 proteins was detected under the influence of both depolarizing and hyperpolarizing membrane potentials. It can be concluded that the differential effect of Na⁺ versus K⁺ upon the erythrocyte membrane isnot due to an effect upon the binding of the complement proteins to the membraneper se, but upon the functional properties of the assembled C5b-9 pore site.     

Substrate specificity of carboxyl proteinase ofAspergillus sojae

The specificity and mode of action ofAspergillus sojae carboxyl proteinase I were investigated with the oxidized B-chain of insulin.A. sojae carboxyl proteinase I hydrolyzed primarily two peptide bonds in the oxidized B-chain of insulin, the Leu¹⁵-Tyr¹⁶ bond and the Phe²⁴-Phe²⁵ bond. Additional cleavage of the bond Tyr¹⁶-Leu¹⁷ was also noted.     

The binding of insulin to cerebral capillaries and astrocytes of the rat

The binding [¹²⁵I]insulin and its displacement by the unlabeled hormone was measured in vitro in the isolated cerebral capillaries and astroglia cell-enriched fraction as well as in the particulate fraction of cerebral homogenate and liver plasma membrane preparation. The results indicate the specificity and affinity of the hormone binding to astrocytes to be similar to that to cerebral homogenate and liver fractions and markedly higher than to cerebral blood vessels. The possible functional significance of the insulin receptors on astrocytes is discussed.