Your search keyword '"Indium metabolism"' showing total 207 results

1. Integrated transcriptomic and metabolomic analysis reveals the potential mechanisms underlying indium-induced inhibition of root elongation in wheat plants.

Author

Qian R, Li Y, Liu Y, Sun N, Liu L, Lin X, and Sun C

Subjects

Indium toxicity, Indium metabolism, Lignin metabolism, Gene Expression Profiling, Plant Roots metabolism, Transcriptome, Triticum genetics, Triticum metabolism

Abstract

Soil contamination by indium, an emerging contaminant from electronics, has a negative impact on crop growth. Inhibition of root growth serves as a valuable biomarker for predicting indium phytotoxicity. Therefore, elucidating the molecular mechanisms underlying indium-induced root damage is essential for developing strategies to mitigate its harmful effects. Our transcriptomic findings revealed that indium affects the expression of numerous genes related to cell wall composition and metabolism in wheat roots. Morphological and compositional analysis revealed that indium induced a 2.9-fold thickening and a 17.5 % increase in the content of cell walls in wheat roots. Untargeted metabolomics indicated a substantial upregulation of the phenylpropanoid biosynthesis pathway. As the major end product of phenylpropanoid metabolism, lignin significantly accumulated in root cell walls after indium exposure. Together with increased lignin precursors, enhanced activity of lignin biosynthesis-related enzymes was observed. Moreover, analysis of the monomeric content and composition of lignin revealed a significant enrichment of p-hydroxyphenyl (H) and syringyl (S) units in root cell walls under indium stress. The present study contributes to the existing knowledge of indium toxicity. It provides valuable insights for developing sustainable solutions to address the challenges posed by electronic waste and indium contamination on agroecosystems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

2. Possible accumulation of critical metals in plants that hyperaccumulate their chemical analogues?

Author

Nkrumah PN and van der Ent A

Subjects

Indium metabolism, Salt-Tolerant Plants metabolism, Lithium, Aluminum metabolism, Soil Pollutants analysis, Gallium metabolism, Atriplex, Chenopodiaceae metabolism

Abstract

Lithium (Li), gallium (Ga) and indium (In) are industry-critical metals, with no known plant species that (hyper)accumulate these metals to any substantial degree. We hypothesised that sodium (Na) hyperaccumulators (i.e., halophytes) may accumulate Li, whilst aluminium (Al) hyperaccumulators may accumulate Ga and In, based on the chemical similarities of these elements. Experiments were conducted in hydroponics at various molar ratios for six weeks to determine accumulation in roots and shoots of the target elements. For the Li experiment, the halophytes Atriplex amnicola, Salsola australis and Tecticornia pergranulata were subjected to Na and Li treatments, whilst for the Ga and In experiment, Camellia sinensis was exposed to Al, Ga, and In. The halophytes were able to accumulate high shoot Li and Na concentrations reaching up to ~10 g Li kg -1 and 80 g Na kg -1 , respectively. The translocation factors for Li were higher than for Na (about two-fold) in A. amnicola and S. australis. The results from the Ga and In experiment show that C. sinensis is capable of accumulating high concentrations of Ga (mean 150 mg Ga kg -1 ), comparable with Al (mean 300 mg Al kg -1 ), but virtually no In (<20 mg In kg -1 ) in its leaves. Competition between Al and Ga suggests that Ga might be taken up via Al pathways in C. sinensis. The findings suggest that there are opportunities to explore Li and Ga phytomining on respective Li- and Ga-enriched mine water/soil/mine waste materials using halophytes and Al hyperaccumulators to complement the global supply of these critical metals., Competing Interests: Declaration of competing interest The authors declare no conflicts of interest relevant to the content of this manuscript., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

3. Activating Silent Synapses in Sulfurized Indium Selenide for Neuromorphic Computing.

Author

Hao S, Zhong S, Ji X, Pang KY, Wang N, Li H, Jiang Y, Lim KG, Chong TC, Zhao R, and Loke DK

Subjects

Biomimetic Materials chemistry, Humans, Indium chemistry, Materials Testing, Selenium Compounds chemistry, Sulfur chemistry, Synapses chemistry, Biomimetic Materials metabolism, Indium metabolism, Neural Networks, Computer, Selenium Compounds metabolism, Sulfur metabolism, Synapses metabolism

Abstract

The transformation from silent to functional synapses is accompanied by the evolutionary process of human brain development and is essential to hardware implementation of the evolutionary artificial neural network but remains a challenge for mimicking silent to functional synapse activation. Here, we developed a simple approach to successfully realize activation of silent to functional synapses by controlled sulfurization of chemical vapor deposition-grown indium selenide crystals. The underlying mechanism is attributed to the migration of sulfur anions introduced by sulfurization. One of our most important findings is that the functional synaptic behaviors can be modulated by the degree of sulfurization and temperature. In addition, the essential synaptic behaviors including potentiation/depression, paired-pulse facilitation, and spike-rate-dependent plasticity are successfully implemented in the partially sulfurized functional synaptic device. The developed simple approach of introducing sulfur anions in layered selenide opens an effective new avenue to realize activation of silent synapses for application in evolutionary artificial neural networks.

Published

2021

4. Superior antibacterial activity of gallium based liquid metals due to Ga 3+ induced intracellular ROS generation.

Author

Li L, Chang H, Yong N, Li M, Hou Y, and Rao W

Subjects

Anti-Bacterial Agents pharmacology, Dose-Response Relationship, Drug, Escherichia coli drug effects, Escherichia coli metabolism, Gallium pharmacology, Humans, Indium pharmacology, Intracellular Fluid drug effects, Microbial Sensitivity Tests methods, Staphylococcus aureus drug effects, Staphylococcus aureus metabolism, Anti-Bacterial Agents metabolism, Gallium metabolism, Indium metabolism, Intracellular Fluid metabolism, Reactive Oxygen Species metabolism

Abstract

Gallium-based liquid metals have increasing applications in a wide variety of emerging areas and they are involved more in frontier studies, the energy industry and additive manufacturing production, and even in daily life. When exposed to open air, large amounts of microorganisms may interact with liquid metals. However, the research of the relationship between pure gallium-based liquid metals and bacterial cells is still limited. In this study, the antibacterial properties of eutectic gallium-indium (EGaIn) alloys were tested against the typical Gram-negative bacteria-Escherichia coli and the Gram-positive bacteria-Staphylococcus aureus and the experimental results displayed that the antibacterial rates reached 100%. We also explored the mechanism of the anti-bacterial properties of EGaIn alloys by measuring the surface composition of the EGaIn film and the concentration of dissolved metal ions. The morphology of the bacterial cells showed that the cell growth and division were influenced by exposure to EGaIn. We also found that the synergistic antibacterial effect came along with the production of reactive oxygen species (ROS). Moreover, the EGaIn film showed enhanced antibacterial activity compared to gallium nitrate at the same initial ion concentration in the solution. This study shows the enormous potential of the anti-bacterial effect of liquid metals.

Published

2021

5. Exploiting the biological response of two Serratia fonticola strains to the critical metals, gallium and indium.

Author

Caldeira JB, Morais PV, and Branco R

Subjects

Bacterial Proteins chemistry, Bacterial Proteins metabolism, Electronics instrumentation, Environmental Pollutants isolation & purification, Environmental Pollutants metabolism, Gallium isolation & purification, Gallium metabolism, Humans, Indium isolation & purification, Indium metabolism, Microbial Sensitivity Tests, Oxidative Stress drug effects, Reactive Oxygen Species agonists, Reactive Oxygen Species metabolism, Serratia growth & development, Serratia metabolism, Superoxide Dismutase chemistry, Environmental Pollutants pharmacology, Gallium pharmacology, Indium pharmacology, Serratia drug effects, Superoxide Dismutase metabolism

Abstract

The use of microorganisms that allows the recovery of critical high-tech elements such as gallium (Ga) and indium (In) has been considered an excellent eco-strategy. In this perspective, it is relevant to understand the strategies of Ga and In resistant strains to cope with these critical metals. This study aimed to explore the effect of these metals on two Ga/In resistant strains and to scrutinize the biological processes behind the oxidative stress in response to exposure to these critical metals. Two strains of Serratia fonticola, A3242 and B2A1Ga1, with high resistance to Ga and In, were submitted to metal stress and their protein profiles showed an overexpressed Superoxide Dismutase (SOD) in presence of In. Results of inhibitor-protein native gel incubations identified the overexpressed enzyme as a Fe-SOD. Both strains exhibited a huge increase of oxidative stress when exposed to indium, visible by an extreme high amount of reactive oxygen species (ROS) production. The toxicity induced by indium triggered biological mechanisms of stress control namely, the decrease in reduced glutathione/total glutathione levels and an increase in the SOD activity. The effect of gallium in cells was not so boisterous, visible only by the decrease of reduced glutathione levels. Analysis of the cellular metabolic viability revealed that each strain was affected differently by the critical metals, which could be related to the distinct metal uptakes. Strain A3242 accumulated more Ga and In in comparison to strain B2A1Ga1, and showed lower metabolic activity. Understanding the biological response of the two metal resistant strains of S. fonticola to stress induced by Ga and In will tackle the current gap of information related with bacteria-critical metals interactions.

Published

2020

6. Role of pH on indium bioaccumulation by Chlamydomonas reinhardtii.

Author

Yang G, Hadioui M, Wang Q, and Wilkinson KJ

Subjects

Binding Sites, Binding, Competitive, Biological Availability, Biological Transport, Hydrogen-Ion Concentration, Ligands, Chlamydomonas reinhardtii metabolism, Indium metabolism, Models, Biological, Water Pollutants, Chemical metabolism

Abstract

For divalent metals, the Biotic Ligand Model (BLM) has been proven to be an effective tool to predict biological effects by taking into account speciation calculations and competitive interactions. Nonetheless, the BLM has only rarely been validated for trivalent metals (e.g. rare earth elements), and the potential competitive effects of protons has been understudied. In this paper, the short-term biouptake of indium (In), a trivalent metal that is a byproduct of zinc extraction and used in numerous applications including the semiconductor industry, was evaluated under controlled conditions. Short-term (i.e. 60 min) indium biouptake by Chlamydomonas reinhardtii was measured as a function of pH in order to verify the validity of the BLM. At a given pH, In biouptake could be well described by the Michaelis-Menten equation with conditional stability constants of K In,pH=4.0  = 10 6.7  M -1 , K In,pH=5.0  = 10 8.6  M -1 , K In,pH=6.0  = 10 9.3  M -1 and maximum internalization fluxes of J max, pH=4.0  = 0.74 × 10 -14  mol cm -2 s -1 , J max, pH=5.0  = 1.60 × 10 -14  mol cm -2 s -1 , J max, pH=6.0  = 2.22 × 10 -14  mol cm -2 s -1 . Although several potential mechanisms for the role of pH were examined, the results were best explained by a competitive interaction of H + with the In uptake sites using overall stability constants of logK In  = 9.76 M -1 and logK H  = 15.66 M -1 . Based on these results, pH will play a critical role in bioavailability measurements of the trivalent cations in natural waters., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

7. Synthesis of In37P20(O2CR)51 Clusters and Their Conversion to InP Quantum Dots.

Author

Park N, Monahan M, Ritchhart A, Friedfeld MR, and Cossairt BM

Subjects

Indium metabolism, Phosphines metabolism, Quantum Dots chemistry, X-Ray Diffraction methods

Abstract

This text presents a method for the synthesis of In37P20(O2C14H27)51 clusters and their conversion to indium phosphide quantum dots. The In37P20(O2CR)51 clusters have been observed as intermediates in the synthesis of InP quantum dots from molecular precursors (In(O2CR)3, HO2CR, and P(SiMe3)3) and may be isolated as a pure reagent for subsequent study and use as a single-source precursor. These clusters readily convert to crystalline and relatively monodisperse samples of quasi-spherical InP quantum dots when subjected to thermolysis conditions in the absence of additional precursors above 200 °C. The optical properties, morphology, and structure of both the clusters and quantum dots are confirmed using UV-Vis spectroscopy, photoluminescence spectroscopy, transmission electron microscopy, and powder X-ray diffraction. The molecular symmetry of the clusters is additionally confirmed by solution-phase 31 P NMR spectroscopy. This protocol demonstrates the preparation and isolation of atomically-precise InP clusters, and their reliable and scalable conversion to InP QDs.

Published

2019

8. Leaching of indium from end-of-life LCD panels via catalysis by synergistic microbial communities.

Author

Xie Y, Wang S, Tian X, Che L, Wu X, and Zhao F

Subjects

Biodegradation, Environmental, Catalysis, Indium chemistry, Liquid Crystals chemistry, Microbiota genetics, Models, Biological, Electronic Waste analysis, Indium metabolism, Liquid Crystals microbiology, Microbiota physiology, Recycling methods, Refuse Disposal methods

Abstract

Currently, a large amount of discarded liquid crystal displays (LCDs) are being produced, and the improper treatment of discarded LCDs causes serious environmental pollution problems. Indium is the most valuable metal in LCDs and is present in such devices at a concentration of over 0.025%. In this study, the bioleaching of indium from end-of-life LCD panels was comprehensively investigated through three methods: S-mediated pathway, Fe-mediated pathway and Mixed pathway of S- and Fe-mediated, which yielded maximum bioleaching efficiencies of approximately 100%, 0% and 78%, respectively. Microbial community analysis showed that the dominant functional bacteria under the S-mediated pathway were Acidithiobacillus. The Acidithiobacillus genus catalysed the leaching of indium, which was mainly achieved by indirect bioleaching. In addition, the microorganisms can secrete enzymes and extracellular polymeric substances, which also contributed to the leaching of indium. Therefore, this work provides an economical and efficient biological method for future research and practical applications in indium recovery from solid waste., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

9. Synthesis and photoelectrocatalytic activity of In 2 O 3 hollow microspheres via a bio-template route using yeast templates.

Author

Pan D, Ge S, Zhang X, Mai X, Li S, and Guo Z

Subjects

Catalysis, Electrochemistry, Indium chemistry, Indium metabolism, Microspheres, Photochemical Processes, Yeasts metabolism

Abstract

Indium oxide (In 2 O 3 ) hollow microspheres were prepared using yeast as a bio-template with the aid of a precipitation method. The yeast provided a solid frame for the deposition of In(OH) 3 to form the precursor. The resulting In 2 O 3 hollow microspheres were obtained by calcining the precursor at 650 °C. The samples were characterized by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), Fourier transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM), transmission electron microscopy (TEM), N 2 adsorption-desorption isotherms and UV-Vis diffuse reflectance spectroscopy. The results showed that the diameter of the In 2 O 3 hollow microspheres was about 2.0-3.0 μm and the spherical shells were composed of In 2 O 3 nanoparticles with a size of ∼20 nm. The BET specific surface area of the sample was 19.23 m 2 g -1 . The photoelectrocatalytic test results showed that the photoelectrocatalytic degradation efficiency of methylene blue (MB) using In 2 O 3 hollow microspheres as catalysts under visible light irradiation and a certain voltage could reach above 95% after 4 hours, much higher than that of only photodegradation. The enhanced photoelectrocatalytic activity could be attributed to the hydroxyl radicals HO˙ produced by the light irradiation reaction process which could oxidize the electron donors and were beneficial to reducing the recombination of electrons and holes.

Published

2018

10. Indium (III) induces isolated mitochondrial permeability transition by inhibiting proton influx and triggering oxidative stress.

Author

Yuan L, Zhang J, Liu Y, Zhao J, Jiang F, and Liu Y

Subjects

Animals, Female, HEK293 Cells, Humans, Indium metabolism, Lipid Peroxidation drug effects, Membrane Potential, Mitochondrial drug effects, Mitochondria, Liver metabolism, Mitochondrial Membranes metabolism, Permeability drug effects, Rats, Wistar, Reactive Oxygen Species metabolism, Indium adverse effects, Mitochondria, Liver drug effects, Mitochondrial Membranes drug effects, Oxidative Stress drug effects, Protons

Abstract

While Indium's toxicity to organs is realized, its effects on mitochondria are still under investigation. Mitochondrial permeability transition (MPT) is widely accepted in mitochondrial dysfunction approaches and its importance in metal-induced mitochondrial degradation has been proposed. Since mitochondria are respiratory organelles, their interaction with free In 3+ is analyzed to access structural and functional changes. Spectral methods and multimode plate reader was used to detect mitochondrial swelling, membrane potential, membrane fluidity, and inner membrane permeability. Flow cytometry was employed to detect mitochondrial reactive oxygen species (ROS) generation and transmission electron microscopy to image mitochondria. And oxygen electrode was used to measure respiratory rate, microcalorimetry to monitor long-term real-time mitochondrial metabolism. In 3+ at a concentration up to 1mM induces mitochondrial swelling, membrane depolarization and inhibits the protons transportation. In 3+ -induced mitochondrial swelling and membrane depolarization is protected by MPT inhibitors and -SH protectors, but the influence on protons transportation is not protected. In addition, In 3+ is able to accelerate the ROS production and inhibit the electron transition and respiratory chain while it stimulates long-term metabolism. Our findings show that In 3+ induces MPT by inhibiting the proton channels located in the inner mitochondrial membrane and by stimulating mitochondrial oxidative stress., (Copyright © 2017. Published by Elsevier Inc.)

Published

2017

11. The role of lysosomes in the phenomenon of concentration of aluminum and indium in the female reproductive system. An ultrastructural study.

Author

Marwa M, Adrian F, Nedra B, Samira M, Horea M, Walid-Habib T, Baati R, and Leila T

Subjects

Animals, Female, Indium administration & dosage, Injections, Intraperitoneal, Pregnancy, Rats, Wistar, Aluminum metabolism, Genitalia, Female metabolism, Genitalia, Female ultrastructure, Indium metabolism, Lysosomes metabolism, Lysosomes ultrastructure

Abstract

The female reproductive system is one of the most complex systems in the body taking into account the hormonal fluctuations associated with ovarian and uterine menstrual cycles. The purpose of this work was to study the impact of aluminum nitrate and indium sulfate on the uterus and the ovary of a pregnant rat. The experiment was performed on adult female rats of Wistar strain weighing approximately 250g. The Transmission Electron Microscopy (TEM) showed the presence of electron-dense material in lysosomes of both uterine cells (myometrium and endometrium cells) and in the cells of the ovary (internal theca and granulosa cells). In addition to the presence of aluminum and indium deposits in the uterine and ovarian tissue, impaired endoplasmic reticulum, mitochondria and vacuolation were also identified. We concluded that lysosomes of uterus and ovary cells had the function to extract aluminum and indium introduced into the body in a soluble form. Then, the two elements were sequestrated within these organelles in an insoluble form most probably as phosphate salts such as reported for other kind of cells; kidney, liver, bone morrow Berry, 1996 [1]. This mechanism seems to be a defense one in which the lysosome would play a central role. Our results concerning the impact of the aluminum or indium presence in the lysosome of female reproductive system will be further used in order to assess their effects on the fertility and viability of oocytes in the pregnant treated rats., (Copyright © 2017 Elsevier GmbH. All rights reserved.)

Published

2017

12. Complexes of gastrin with In 3+ , Ru 3+ or Ga 3+ ions are not recognised by the cholecystokinin 2 receptor.

Author

Laval M, Marshall KM, Sachinidis J, Scott A, Eutick M, and Baldwin GS

Subjects

Cell Line, Coordination Complexes chemistry, Gallium chemistry, Gallium Radioisotopes metabolism, Gastrins chemistry, Humans, Indium chemistry, Protein Binding, Ruthenium chemistry, Ruthenium Radioisotopes metabolism, Coordination Complexes metabolism, Gallium metabolism, Gastrins metabolism, Indium metabolism, Receptor, Cholecystokinin B metabolism, Ruthenium metabolism

Abstract

The peptide hormone gastrin (Gamide) binds trivalent metal ions, including indium (In), ruthenium (Ru) and gallium (Ga), with high affinity. Complexes of gastrin with chelated isotopes of In and Ga have previously been used for the location of tumours expressing the cholecystokinin 2 receptor (CCK2R). The aim of the present study was to purify the complexes of Gamide with radioactive isotopes of In, Ru or Ga and to investigate their ability to bind to the CCK2R. The radioactive Gamide complexes were purified on Sep-Pak C18 cartridges or by anion exchange HPLC. Binding to the CCK2R was assessed with a stably transfected clone of the gastric carcinoma cell line AGS. The 106 Ru-Gamide complex could be eluted from the C18 cartridge; the 111 In-Gamide and 68 Ga-Gamide complexes bound irreversibly. All three complexes were successfully purified by anion exchange HPLC. The failure to detect binding of the 111 In-Gamide, 106 Ru-Gamide and 68 Ga-Gamide complexes to the CCK2R suggests that formation of these complexes will not be useful for the detection of tumours expressing this receptor, but may instead provide alternative ways to block the actions of Gamide as a growth factor or a stimulant of gastric acid secretion. The complexes between the hormone gastrin and radioactive 111 In, 106 Ru or 68 Ga ions were purified by anion exchange HPLC using a NaCl gradient. The failure to detect binding of the complexes to the cholecystokinin 2 receptor suggests that metal ion treatment may provide novel approaches to block the biological actions of gastrin.

Published

2017

13. Facile Synthesis of Cadmium-Free Zn-In-S:Ag/ZnS Nanocrystals for Bio-Imaging.

Author

Xuan TT, Liu JQ, Yu CY, Xie RJ, and Li HL

Subjects

Amines metabolism, Luminescent Measurements, Sulfhydryl Compounds metabolism, Temperature, Time Factors, Indium metabolism, Nanoparticles metabolism, Optical Imaging methods, Silver Nitrate metabolism, Sulfur metabolism, Zinc Acetate metabolism

Abstract

High quality cadmium-free Zn-In-S:Ag doped-nanocrystals (d-NCs) were synthesized via a simple one-step noninjection route using silver nitrate, indium acetate, zinc acetate, oleylamine, S powder and 1-dodecanethiol as starting materials in an organic phase. The size and optical properties can be effectively tailored by controlling the reaction time, reaction temperature, Ag(+) dopant concentration, and the molar ratio of In to Zn. The photoluminescence wavelength of as-prepared Zn-In-S:Ag NCs covered a broad visible range from 458 nm to 603 nm. After being passivated by protective ZnS shell, the photoluminescence quantum yield (PLQY) of Zn-In-S:Ag(+) /ZnS was greatly improved to 43.5%. More importantly, the initial high PLQY of the obtained core/shell d-NCs in organic media can be preserved when being transferred into the aqueous media via ligand exchange. Finally, high quality Zn-In-S:Ag(+) /ZnS d-NCs in aqueous phase were applied as bio-imaging agents for identifying living KB cells.

Published

2016

14. Evaluation of Nonferrous Metals as Potential In Vivo Tracers of Transferrin-Based Therapeutics.

Author

Zhao H, Wang S, Nguyen SN, Elci SG, and Kaltashov IA

Subjects

Animals, Gallium chemistry, Gallium metabolism, Humans, Indium chemistry, Indium metabolism, Limit of Detection, Male, Nanomedicine methods, Nickel analysis, Nickel blood, Nickel chemistry, Rats, Wistar, Spectrometry, Mass, Electrospray Ionization methods, Transferrin chemistry, Transferrin metabolism, Indium blood, Mass Spectrometry methods, Molecular Imaging methods, Transferrin analysis

Abstract

Transferrin (Tf) is a promising candidate for targeted drug delivery. While development of such products is impossible without the ability to monitor biodistribution of Tf-drug conjugates in tissues and reliable measurements of their levels in blood and other biological fluids, the presence of very abundant endogenous Tf presents a significant impediment to such efforts. Several noncognate metals have been evaluated in this work as possible tracers of exogenous transferrin in complex biological matrices using inductively coupled plasma mass spectrometry (ICP MS) as a detection tool. Placing Ni(II) on a His-tag of recombinant Tf resulted in formation of a marginally stable protein-metal complex, which readily transfers the metal to ubiquitous physiological scavengers, such as serum albumin. An alternative strategy targeted iron-binding pockets of Tf, where cognate Fe(III) was replaced by metal ions known to bind this protein. Both Ga(III) and In(III) were evaluated, with the latter being vastly superior as a tracer (stronger binding to Tf unaffected by the presence of metal scavengers and the retained ability to associate with Tf receptor). Spiking serum with indium-loaded Tf followed by ICP MS detection demonstrated that protein quantities as low as 0.04 nM can be readily detected in animal blood. Combining laser ablation with ICP MS detection allows distribution of exogenous Tf to be mapped within animal tissue cross-sections with spatial resolution exceeding 100 μm. The method can be readily extended to a range of other therapeutics where metalloproteins are used as either carriers or payloads. Graphical Abstract ᅟ.

Published

2016

15. Intracellular accumulation of indium ions released from nanoparticles induces oxidative stress, proinflammatory response and DNA damage.

Author

Tabei Y, Sonoda A, Nakajima Y, Biju V, Makita Y, Yoshida Y, and Horie M

Subjects

Cell Line, Tumor, Cell Survival drug effects, Comet Assay, Humans, Indium chemistry, Indium metabolism, Interleukin-8 metabolism, Ions chemistry, Mass Spectrometry, Microscopy, Electron, Transmission, Nanoparticles chemistry, RNA, Messenger metabolism, Reactive Oxygen Species metabolism, Tin Compounds chemistry, DNA Damage, Inflammation chemically induced, Ions metabolism, Nanoparticles metabolism, Oxidative Stress, Tin Compounds metabolism

Abstract

Due to the widespread use of indium tin oxide (ITO), it is important to investigate its effect on human health. In this study, we evaluated the cellular effects of ITO nanoparticles (NPs), indium chloride (InCl3) and tin chloride (SnCl3) using human lung epithelial A549 cells. Transmission electron microscopy and inductively coupled plasma mass spectrometry were employed to study cellular ITO NP uptake. Interestingly, greater uptake of ITO NPs was observed, as compared with soluble salts. ITO NP species released could be divided into two types: 'indium release ITO' or 'tin release ITO'. We incubated A549 cells with indium release ITO, tin release ITO, InCl3 or SnCl2 and investigated oxidative stress, proinflammatory response, cytotoxicity and DNA damage. We found that intracellular reactive oxygen species were increased in cells incubated with indium release ITO, but not tin release ITO, InCl3 or SnCl2. Messenger RNA and protein levels of the inflammatory marker, interleukin-8, also increased following exposure to indium release ITO. Furthermore, the alkaline comet assay revealed that intracellular accumulation of indium ions induced DNA damage. Our results demonstrate that the accumulation of ionic indium, but not ionic tin, from ITO NPs in the intracellular matrix has extensive cellular effects., (© The Authors 2015. Published by Oxford University Press on behalf of the Japanese Biochemical Society. All rights reserved.)

Published

2016

16. High Affinity Binding of Indium and Ruthenium Ions by Gastrins.

Author

Baldwin GS, George GN, and Pushie MJ

Subjects

Binding Sites, Gastrins chemistry, Gastrointestinal Absorption, Humans, Iron metabolism, Protein Binding, Gastrins metabolism, Indium metabolism, Ions, Ruthenium metabolism

Abstract

The peptide hormone gastrin binds two ferric ions with high affinity, and iron binding is essential for the biological activity of non-amidated forms of the hormone. Since gastrins act as growth factors in gastrointestinal cancers, and as peptides labelled with Ga and In isotopes are increasingly used for cancer diagnosis, the ability of gastrins to bind other metal ions was investigated systematically by absorption spectroscopy. The coordination structures of the complexes were characterized by extended X-ray absorption fine structure (EXAFS) spectroscopy. Changes in the absorption of gastrin in the presence of increasing concentrations of Ga3+ were fitted by a 2 site model with dissociation constants (Kd) of 3.3 x 10-7 and 1.1 x 10-6 M. Although the absorption of gastrin did not change upon the addition of In3+ ions, the changes in absorbance on Fe3+ ion binding in the presence of indium ions were fitted by a 2 site model with Kd values for In3+ of 6.5 x 10-15 and 1.7 x 10-7 M. Similar results were obtained with Ru3+ ions, although the Kd values for Ru3+ of 2.6 x 10-13 and 1.2 x 10-5 M were slightly larger than observed for In3+. The structures determined by EXAFS all had metal:gastrin stoichiometries of 2:1 but, while the metal ions in the Fe, Ga and In complexes were bridged by a carboxylate and an oxygen with a metal-metal separation of 3.0-3.3 Å, the Ru complex clearly demonstrated a short range Ru-Ru separation, which was significantly shorter, at 2.4 Å, indicative of a metal-metal bond. We conclude that gastrin selectively binds two In3+ or Ru3+ ions, and that the affinity of the first site for In3+ or Ru3+ ions is higher than for ferric ions. Some of the metal ion-gastrin complexes may be useful for cancer diagnosis and therapy.

Published

2015

17. Advancing novel molecular imaging agents from preclinical studies to first-in-humans phase I clinical trials in academia--a roadmap for overcoming perceived barriers.

Author

Reilly RM, Lam K, Chan C, and Levine M

Subjects

Animals, Antibodies, Monoclonal, Humanized metabolism, Antineoplastic Agents metabolism, Breast Neoplasms metabolism, Breast Neoplasms ultrastructure, Clinical Trials, Phase I as Topic, Drug Approval, Drug Evaluation, Preclinical, Female, Humans, Indium metabolism, Molecular Imaging methods, Molecular Targeted Therapy, Radionuclide Imaging, Radiopharmaceuticals metabolism, Reagent Kits, Diagnostic, Receptor, ErbB-2 antagonists & inhibitors, Receptor, ErbB-2 genetics, Receptor, ErbB-2 metabolism, Staining and Labeling methods, Trastuzumab metabolism, Antibodies, Monoclonal, Humanized therapeutic use, Antineoplastic Agents therapeutic use, Breast Neoplasms diagnostic imaging, Breast Neoplasms drug therapy, Indium chemistry, Radiopharmaceuticals chemistry, Trastuzumab therapeutic use

Abstract

There is a critical need to advance promising novel molecular imaging (MI) agents for cancer from preclinical studies to first-in-humans Phase I clinical trials in order to realize their full potential for cancer detection and for predicting or monitoring response to targeted ("personalized") cancer therapies. Steps to clinical translation include radiopharmaceutical formulation, preclinical pharmacology and toxicology studies, clinical trial design and human ethics approval, and regulatory agency submission. In this Topical Review, we provide a "roadmap" to advancing one class of novel MI agents to Phase I trials in academia and illustrate the processes that we have successfully applied for (111)In-labeled pertuzumab, a MI probe for monitoring response of HER2-positive breast cancer to treatment with trastuzumab (Herceptin). We hope that our experience will encourage other academic radiopharmaceutical scientists to embrace this challenge.

Published

2015

18. Cytotoxicity of cadmium-free quantum dots and their use in cell bioimaging.

Author

Soenen SJ, Manshian BB, Aubert T, Himmelreich U, Demeester J, De Smedt SC, Hens Z, and Braeckmans K

Subjects

Animals, Cadmium, Cell Differentiation drug effects, Cell Survival drug effects, Cells, Cultured, Dose-Response Relationship, Drug, Human Umbilical Vein Endothelial Cells cytology, Humans, Indium chemistry, Indium metabolism, Indium toxicity, Mice, Neural Stem Cells cytology, Oxidative Stress drug effects, PC12 Cells, Phosphines chemistry, Phosphines metabolism, Phosphines toxicity, Quantum Dots metabolism, Rats, Selenium Compounds chemistry, Selenium Compounds metabolism, Selenium Compounds toxicity, Structure-Activity Relationship, Sulfides chemistry, Sulfides metabolism, Sulfides toxicity, Zinc Compounds chemistry, Zinc Compounds metabolism, Zinc Compounds toxicity, Human Umbilical Vein Endothelial Cells drug effects, Human Umbilical Vein Endothelial Cells metabolism, Molecular Imaging methods, Neural Stem Cells drug effects, Neural Stem Cells metabolism, Quantum Dots chemistry, Quantum Dots toxicity

Abstract

The use of quantum dots (QDots) as bright and photostable probes for long-term fluorescence imaging is gaining more interest. Thus far, (pre)clinical use of QDots remains limited, which is primarily caused by the potential toxicity of QDots. Most QDots consist of Cd2+ ions, which are known to cause high levels of toxicity. In order to overcome this problem, several strategies have been tested, such as the generation of cadmium-free QDots. In the present study, two types of cadmium-free QDots, composed of ZnSe/ZnS (QDotZnSe) and InP/ZnS (QDotInP), were studied with respect to their cytotoxicity and cellular uptake in a variety of cell types. A multiparametric cytotoxicity approach is used, where the QDots are studied with respect to cell viability, oxidative stress, cell morphology, stem cell differentiation, and neurite outgrowth. The data reveal slight differences in uptake levels for both types of QDots (maximal for QDotZnSe), but clear differences in cytotoxicity and cell functionality effects exist, with highest toxicity for QDotZnSe. Differences between cell types and between both types of QDots can be explained by the intrinsic sensitivity of certain cell types and chemical composition of the QDots. At concentrations at which no toxic effects can be observed, the functionality of the QDots for fluorescence cell visualization is evaluated, revealing that the higher brightness of QDotZnSe overcomes most of the toxicity issues compared to that of QDotInP. Comparing the results obtained with common Cd2+-containing QDots tested under identical conditions, the importance of particle functionality is demonstrated, revealing that cadmium-free QDots tested in this study are not significantly better than Cd2+-containing QDots for long-term cell imaging and that more work needs to be performed in optimizing the brightness and surface chemistry of cadmium-free QDots for them to replace currently used Cd2+-containing QDots.

Published

2014

19. Comparison of the intracellular behavior of gold (Au) and indium (In) in testicle after their parenteral administration.

Author

Maghraoui S, Ayadi A, Ben Ammar A, Jaafoura MH, Galle P, El Hili A, and Tekaya L

Subjects

Animals, Electron Probe Microanalysis, Gold chemistry, Indium chemistry, Leydig Cells drug effects, Lysosomes drug effects, Male, Microscopy, Electron, Transmission, Rats, Rats, Wistar, Sertoli Cells drug effects, Spectrometry, Mass, Secondary Ion, Gold metabolism, Indium metabolism, Testis drug effects

Abstract

The subcellular behavior of several mineral elements was studied using modern techniques of observation like transmission electron microscopy and analysis like electron probe microanalysis and secondary ion mass spectrometry. In the present ultrastructural and analytical investigations, we undertake to compare the intracellular behavior of a heavy metal, gold, and a III-A group element, indium, on rat testicular tissues after their parenteral administrations. Our ultrastructural results showed that while gold was found only in the lysosomes of Leydig cells under electron dense needles, indium was observed as electron-dense deposits in the lysosomes of both Leydig and Sertoli cells. No ultrastructural modifications were observed in the testicular tissues of the control rats. The microanalytical study showed that gold was concentrated in lysosomes with sulfur as a sulfate crystalline structure whereas indium was concentrated in the same organelle as insoluble phosphate salt. These results demonstrated that testicular Leydig and Sertoli cells have the ability to selectively concentrate indium but gold was concentrated only in the first kind of cells. The mechanism implicated in this concentration phenomenon is a biochemical one involving intralysosomal hydrolytic enzymes, the acid phosphatase and the arylsulfatase. This mechanism occurs in order to protect the organism and to avoid the presence of toxic metals under soluble and free form.

Published

2013

20. Reduction of renal uptake of 111In-DOTA-labeled and A700-labeled RAFT-RGD during integrin αvβ3 targeting using single photon emission computed tomography and optical imaging.

Author

Briat A, Wenk CH, Ahmadi M, Claron M, Boturyn D, Josserand V, Dumy P, Fagret D, Coll JL, Ghezzi C, Sancey L, and Vuillez JP

Subjects

Animals, Cell Line, Tumor, Female, Fluorescent Dyes, HEK293 Cells, Humans, Indium metabolism, Indium Radioisotopes metabolism, Metabolic Clearance Rate, Mice, Mice, Nude, Multimodal Imaging, Organometallic Compounds metabolism, Peptides, Cyclic metabolism, Positron-Emission Tomography, Tissue Distribution, Tomography, X-Ray Computed, Indium Radioisotopes pharmacokinetics, Integrin alphaVbeta3 metabolism, Kidney metabolism, Organometallic Compounds pharmacokinetics, Peptides, Cyclic pharmacokinetics, Polygeline pharmacology

Abstract

Integrin α(v)β(3) expression is upregulated during tumor growth and invasion in newly formed endothelial cells in tumor neovasculature and in some tumor cells. A tetrameric RGD-based peptide, regioselectively addressable functionalized template-(cyclo-[RGDfK])4 (RAFT-RGD), specifically targets integrin α(v)β(3) in vitro and in vivo. When labeled with indium-111, the RAFT-RGD is partially reabsorbed and trapped in the kidneys, limiting its use for further internal targeted radiotherapy and imaging investigations. We studied the effect of Gelofusine on RAFT-RGD renal retention in tumor-bearing mice. Mice were imaged using single photon emission computed tomography and optical imaging 1 and 24 h following tracer injection. Distribution of RAFT-RGD was further investigated by tissue removal and direct counting of the tracer. Kidney sections were analyzed by confocal microscopy. Gelofusine significantly induced a >50% reduction of the renal reabsorption of (111)In-DOTA-RAFT-RGD and A700-RAFT-RGD, without affecting tumor uptake. Injection of Gelofusine significantly reduced the renal retention of labeled RAFT-RGD, while increasing the tumor over healthy tissue ratio. These results will lead to the development of future therapeutic approaches., (© 2012 Japanese Cancer Association.)

Published

2012

21. High prevalence of upper urinary tract involvement detected by 111indium-oxine leukocyte scintigraphy in patients with candiduria.

Author

Horcajada JP, Gutiérrez-Cuadra M, Martínez-Rodríguez I, Salas C, Parra JA, Benito N, Quirce R, Carril JM, and Fariñas MC

Subjects

Aged, Aged, 80 and over, Amphotericin B therapeutic use, Candida isolation & purification, Candida pathogenicity, Candidiasis diagnostic imaging, Cohort Studies, Female, Humans, Indium chemistry, Indium metabolism, Male, Middle Aged, Prevalence, Pyelonephritis complications, Radionuclide Imaging, Spain epidemiology, Urinary Tract diagnostic imaging, Urinary Tract microbiology, Urinary Tract pathology, Urinary Tract Infections diagnostic imaging, Urinary Tract Infections drug therapy, Urinary Tract Infections epidemiology, Candidiasis diagnosis, Candidiasis epidemiology, Urinary Tract Infections diagnosis

Abstract

The purpose of this investigation was to assess the prevalence of upper urinary tract involvement in patients with candiduria by means of (111)indium-oxine-labeled leukocyte scintigraphy. An observational cohort study of patients with confirmed candiduria was conducted in an acute-care teaching hospital in Spain from March 2006 through February 2009. An (111)In-labeled leukocyte scan was performed in order to assess the upper urinary tract involvement. A series of non-matched patients without candiduria nor bacteriuria undergoing scintigraphy to exclude infections in other sites than the urinary tract was also studied. Demographics, baseline illness, and clinical data were recorded. Candiduria was detected in 428 patients, and scintigraphy was performed in 35 of these patients. Twenty-nine patients without candiduria nor bacteriuria were also studied. Positive renal scintigraphy was documented in 24 (68%) patients with confirmed candiduria and in 3 (10%) patients without candiduria (p < 0.005). Renal uptake was not associated with a higher mortality nor with re-admissions. Subclinical pyelonephritis could be more frequent in patients with candiduria than it has been previously considered.

Published

2012

22. Cell-permeable Ln(III) chelate-functionalized InP quantum dots as multimodal imaging agents.

Author

Stasiuk GJ, Tamang S, Imbert D, Poillot C, Giardiello M, Tisseyre C, Barbier EL, Fries PH, de Waard M, Reiss P, and Mazzanti M

Subjects

Animals, Biological Transport, CHO Cells, Cricetinae, Cricetulus, Gadolinium chemistry, Magnetic Resonance Imaging, Optical Phenomena, Organometallic Compounds chemistry, Permeability, Rats, Spectrometry, Fluorescence, Sulfides chemistry, Surface Properties, Zinc Compounds chemistry, Chelating Agents chemistry, Indium chemistry, Indium metabolism, Lanthanoid Series Elements chemistry, Molecular Imaging methods, Phosphines chemistry, Phosphines metabolism, Quantum Dots

Abstract

Quantum dots (QDs) are ideal scaffolds for the development of multimodal imaging agents, but their application in clinical diagnostics is limited by the toxicity of classical CdSe QDs. A new bimodal MRI/optical nanosized contrast agent with high gadolinium payload has been prepared through direct covalent attachment of up to 80 Gd(III) chelates on fluorescent nontoxic InP/ZnS QDs. It shows a high relaxivity of 900 mM(-1) s(-1) (13 mM(-1 )s(-1) per Gd ion) at 35 MHz (0.81 T) and 298 K, while the bright luminescence of the QDs is preserved. Eu(III) and Tb(III) chelates were also successfully grafted to the InP/ZnS QDs. The absence of energy transfer between the QD and lanthanide emitting centers results in a multicolor system. Using this convenient direct grafting strategy additional targeting ligands can be included on the QD. Here a cell-penetrating peptide has been co-grafted in a one-pot reaction to afford a cell-permeable multimodal multimeric MRI contrast agent that reports cellular localization by fluorescence and provides high relaxivity and increased tissue retention with respect to commercial contrast agents.

Published

2011

23. Histological and ultrastructural study of the intracellular behavior of indium in the testicular tissues.

Author

Samira M, Ahlem A, Aouatef BA, Habib JM, and Leila T

Subjects

Animals, Body Weight, Germ Cells metabolism, Germ Cells ultrastructure, Male, Microscopy, Electron, Transmission, Rats, Rats, Wistar, Vacuoles ultrastructure, Indium metabolism, Testis metabolism, Testis ultrastructure

Abstract

Indium, a IIIA group element of the periodic chart, has many medical uses for diagnostic and clinical investigations in humans. This element is also used in industry and in nuclear fields where released streams can contaminate environment. Consequently, indium can reach humans mainly by natural ways. In this work, we attempted to study the incidence of this element on the food intake and body and testicle weights of rat, as well as the histological and the ultrastructural consequences of its presence in testicles using conventional transmission electron microscopy. Our study showed that this element induced a significant decrease in the food intake and body and testicles weights and caused necrosis and vacuolization in germinal cells. The ultrastructural observations showed the presence of electron-dense deposits characteristic of indium in the lysosomes of Leydig and Sertoli cells as well as sufferance in mitochondria of indium-treated rats. Despite the role of lysosome in the protection of living cells, by sequestration and concentration of indium in testicle cells under insoluble form, it is probable that this element has noxious effects on food intake and body and testicles weight and induces necrosis on seminal tissues of treated rats., (Copyright © 2010 Wiley-Liss, Inc.)

Published

2011

24. Synthesis and photophysical characterization of stable indium bacteriochlorins.

Author

Krayer M, Yang E, Kim HJ, Kee HL, Deans RM, Sluder CE, Diers JR, Kirmaier C, Bocian DF, Holten D, and Lindsey JS

Subjects

Acids chemistry, Bacteria, Bacteriochlorophylls chemistry, Bacteriochlorophylls metabolism, Catalysis, Coordination Complexes chemical synthesis, Electrons, Fluorescence, Indium chemistry, Kinetics, Light, Magnetic Resonance Spectroscopy, Molecular Mimicry, Photochemistry methods, Photochemotherapy, Pyrroles chemistry, Quantum Theory, Coordination Complexes metabolism, Indium metabolism, Molecular Conformation radiation effects, Porphyrins chemical synthesis, Porphyrins metabolism

Abstract

Bacteriochlorins have wide potential in photochemistry because of their strong absorption of near-infrared light, yet metallobacteriochlorins traditionally have been accessed with difficulty. Established acid-catalysis conditions [BF(3)·OEt(2) in CH(3)CN or TMSOTf/2,6-di-tert-butylpyridine in CH(2)Cl(2)] for the self-condensation of dihydrodipyrrin-acetals (bearing a geminal dimethyl group in the pyrroline ring) afford stable free base bacteriochlorins. Here, InBr(3) in CH(3)CN at room temperature was found to give directly the corresponding indium bacteriochlorin. Application of the new acid catalysis conditions has afforded four indium bacteriochlorins bearing aryl, alkyl/ester, or no substituents at the β-pyrrolic positions. The indium bacteriochlorins exhibit (i) a long-wavelength absorption band in the 741-782 nm range, which is shifted bathochromically by 22-32 nm versus the analogous free base species, (ii) fluorescence quantum yields (0.011-0.026) and average singlet lifetime (270 ps) diminished by an order of magnitude versus that (0.13-0.25; 4.0 ns) for the free base analogues, and (iii) higher average yield (0.9 versus 0.5) yet shorter average lifetime (30 vs 105 μs) of the lowest triplet excited state compared to the free base compounds. The differences in the excited-state properties of the indium chelates versus free base bacteriochlorins derive primarily from a 30-fold greater rate constant for S(1) → T(1) intersystem crossing, which stems from the heavy-atom effect on spin-orbit coupling. The trends in optical properties of the indium bacteriochlorins versus free base analogues, and the effects of 5-OMe versus 5-H substituents, correlate well with frontier molecular-orbital energies and energy gaps derived from density functional theory calculations. Collectively the synthesis, photophysical properties, and electronic characteristics of the indium bacteriochlorins and free base analogues reported herein should aid in the further design of such chromophores for diverse applications.

Published

2011

25. Design, synthesis and in vitro characterization of Glucagon-Like Peptide-1 derivatives for pancreatic beta cell imaging by SPECT.

Author

Behnam Azad B, Rota VA, Breadner D, Dhanvantari S, and Luyt LG

Subjects

Amino Acid Sequence, Animals, Binding, Competitive, CHO Cells, Cell Line, Cricetinae, Cricetulus, Cyclic AMP metabolism, Gamma Rays, Glucagon-Like Peptide 1 chemical synthesis, Glucagon-Like Peptide 1 metabolism, Glucagon-Like Peptide-1 Receptor, Heterocyclic Compounds, 1-Ring chemical synthesis, Heterocyclic Compounds, 1-Ring metabolism, Humans, Indium metabolism, Molecular Sequence Data, Plasma metabolism, Protein Binding, Rats, Receptors, Glucagon metabolism, Glucagon-Like Peptide 1 chemistry, Heterocyclic Compounds, 1-Ring chemistry, Indium chemistry, Insulin-Secreting Cells cytology, Radiography methods

Abstract

Novel Glucagon-Like Peptide-1 (GLP-1) derivatives containing the metal chelator DOTA (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid) and naturally occurring Indium ((113/115)In) were prepared using solid-phase Fmoc methods. All synthesized peptides contained d-Ala-8, a modification known to improve resistance towards degradation by dipeptidyl peptidase-IV. The effect of increased distance between DOTA and the peptide chain was investigated using an (aminoethyl) ethoxy acetyl linker, in order to reduce steric effects imposed by DOTA. Placement of linker and DOTA moieties were also varied within the GLP-1 sequence to test for optimal metal-complex location. The binding affinity of the peptide derivatives was determined in vitro with Chinese hamster ovary cells stably transfected with a human GLP-1 receptor (CHO/GLP-1R) cell line and was shown to be in the nM range. Gamma camera imaging of an insulinoma cell line was carried out using (111)In-labeled peptides. Our results suggest that the prepared GLP-1 derivatives are suitable imaging probes for studying pancreatic islet function in vivo., (Copyright (c) 2009 Elsevier Ltd. All rights reserved.)

Published

2010

26. Imaging and organelle distribution of fluorescent InGaP/ZnS nanoparticles in glial cells.

Author

Behrendt M, Sandros MG, McKinney RA, McDonald K, Przybytkowski E, Tabrizian M, and Maysinger D

Subjects

Animals, Biological Transport drug effects, Cells, Cultured, Flow Cytometry, Gallium chemistry, Indium chemistry, Mice, Microscopy, Confocal, Neuroglia drug effects, Oleic Acid pharmacology, Pancreatitis-Associated Proteins, Phosphines chemistry, Sulfides chemistry, Zinc Compounds chemistry, Gallium metabolism, Indium metabolism, Nanoparticles chemistry, Nanotechnology methods, Neuroglia metabolism, Phosphines metabolism, Sulfides metabolism, Zinc Compounds metabolism

Abstract

Aim: To assess the effects of oleic acid treatment on subcellular distribution of indium gallium phosphide-zinc sulfide (InGaP/ZnS) nanoparticles in microglia and astrocytes., Materials & Methods: The extent of colocalization between the nanoparticles and organelles was assessed by confocal microscopy, spectrofluorometry and cell sorting., Results: Cell treatment with a common fatty acid (oleic acid) within the range of physiological concentrations markedly enhanced the InGaP/ZnS uptake by microglia and afforded their colocalization within lipid droplets/lysosomes but not with mitochondria., Conclusion: These results suggest that the availability of mono-unsaturated fatty acids, such as oleic acid, in different cells could significantly alter nanoparticle uptake and localization, which can in turn affect the functions of cells and tissues coexposed to nanoparticles.

Published

2009

27. Synthesis and characterization of dual function vanadyl, gallium and indium curcumin complexes for medicinal applications.

Author

Mohammadi K, Thompson KH, Patrick BO, Storr T, Martins C, Polishchuk E, Yuen VG, McNeill JH, and Orvig C

Subjects

Animals, Antineoplastic Agents metabolism, Cell Line, Tumor, Crystallography, X-Ray, Curcumin chemistry, Curcumin metabolism, Curcumin pharmacology, Diabetes Mellitus, Experimental drug therapy, Gallium metabolism, Gallium pharmacology, Indium metabolism, Indium pharmacology, Leukemia L1210 drug therapy, Male, Mice, Rats, Rats, Wistar, Vanadates metabolism, Vanadates pharmacology, Antineoplastic Agents chemical synthesis, Antineoplastic Agents pharmacology, Curcumin chemical synthesis, Gallium chemistry, Indium chemistry, Vanadates chemical synthesis

Abstract

Novel bis[4-hydroxy-3-methoxyphenyl]-1,6-heptadiene-3,5-dione (curcumin) complexes with the formula, ML(3), where M is Ga(III) or In(III), or of the formula, ML(2) where M is [VO](2+), have been synthesized and characterized by mass spectrometry, infrared and absorption spectroscopies, and elemental analysis. A new ligand, bis[4-acetyl-3-hydroxyphenyl]-1,6-heptadiene-3,5-dione (diacetylbisdemethoxycurcumin, DABC) was similarly characterized; an X-ray structure analysis was performed. Vanadyl complexes tested in an acute i.p. testing protocol in STZ-diabetic rats showed a lack of insulin enhancing potential. Vanadyl complexes were, however, more cytotoxic than were the ligands alone in standard MTT (3-[4,5-dimethylthiazole-2-yl]ate, -2,5-diphenyl-tetrazolium bromide) cytotoxicity testing, using mouse lymphoma cells. With the exception of DABC, that was not different from VO(DABC)(2), the complexes were not significantly different from one another, with IC(50) values in the 5-10 microM range. Gallium and indium curcumin complexes had IC(50) values in the same 5-10 microM range; whereas Ga(DAC)(3) and In(DAC)(3) (where DAC=diacetylcurcumin) were much less cytotoxic (IC(50)=20-30 microM). Antioxidant capacity was decreased in VO(DAC)(2), Ga(DAC)(3), and In(DAC)(3), compared to vanadyl, gallium and indium curcumin, corroborating the importance of curcumin's free phenolic OH groups for scavenging oxidants, and correlated with reduced cytotoxic potential.

Published

2005

28. An indium:calcium phosphate colloid that specifically targets fibrin.

Author

Makowski GS, Ramsby ML, and Ramsby GR

Subjects

Dose-Response Relationship, Drug, Electrophoresis, Agar Gel, Electrophoresis, Polyacrylamide Gel, Fibrinogen chemistry, Humans, Hydrogen-Ion Concentration, Indium Radioisotopes chemistry, Inflammation, Phosphates chemistry, Protein Binding, Protein Isoforms, Thrombin chemistry, Thrombosis pathology, Time Factors, Biocompatible Materials chemistry, Calcium Phosphates chemistry, Colloids chemistry, Fibrin chemistry, Indium metabolism

Abstract

The ability of indium to target fibrin in vitro was evaluated. The radionuclide (114m)Indium (114mIn) was prepared as a soluble and colloidal (In:In) form, as well as, a mixed indium:calcium phosphate (In:CaP) colloid. Soluble 114mIn was prepared by maintaining acid pH (50 mM HCl). Colloidal 114mIn (In:In) was prepared under slightly basic conditions (50 mM Tris-Cl, pH 7.6). The mixed In:CaP colloid was prepared by incubation of 114mIn with calcium (10 mM) and phosphate (250 microM) under slightly basic conditions (50 mM Tris-Cl, pH 7.6). To assess fibrin binding, the three 114mIn preparations were mixed with diluted human plasma (source of fibrinogen). Fibrin polymerization was initiated by addition of calcium (5 mM) and thrombin (0.5 U/ml). Following incubation (15 min, 37 degrees C), the fibrin matrix was condensed, removed from the reaction mixture, and washed briefly. Fibrin uptake of 114mIn (soluble, colloidal, or In:CaP) was determined by gamma counting. Results demonstrated that soluble 114mIn exclusively bound a plasma protein electrophoretically and immunologically identified as transferrin. Although both colloidal 114mIn and 114mIn:CaP bound fibrin, the mixed 114mIn:CaP colloid demonstrated substantially higher fibrin binding activity (about 2-fold). The target of indium binding was confirmed as fibrin due to the presence of characteristic cross-linked gamma-gamma dimers (100 kDa) and beta-monomers (58 kDa) by SDS-PAGE. 114mIn colloid and the mixed 114mIn:CaP colloid demonstrated no ability to bind fibrin's precursor, fibrinogen. 114mIn:CaP fibrin binding was associated with formation of CaP, as evidenced by its dependence on phosphate concentration. The biocompatibility of CaP including its ability to bind 114mIn and specifically target fibrin may be of potential value for diagnostic imaging studies to identify regions of occult vascular stenosis (i.e., atherosclerotic plaques, deep vein thrombosis, pulmonary embolus).

Published

2005

29. Indirect detection of protein-metal binding: interaction of serum transferrin with In3+ and Bi3+.

Author

Zhang M, Gumerov DR, Kaltashov IA, and Mason AB

Subjects

Bismuth metabolism, Humans, Indium metabolism, Protein Binding, Transferrin metabolism, Bismuth chemistry, Indium chemistry, Spectrometry, Mass, Electrospray Ionization methods, Transferrin chemistry

Abstract

Transferrins comprise a class of monomeric glycoproteins found in all vertebrates, whose function is iron sequestration and transport. In addition to iron, serum transferrin also binds a variety of other metals and is believed to provide a route for the in vivo delivery of such metals to cells. In the present study, ESI MS is used to investigate interactions between human serum transferrin and two nonferrous metals, indium (a commonly used imaging agent) and bismuth (a component of many antiulcer drugs). While the UV-Vis absorption spectroscopy measurements clearly indicate that both metals bind strongly to transferrin in solution, the metal-protein complex can be detected by ESI MS only for indium, but not for bismuth. Despite the apparently low stability of the transferrin-bismuth complex in the gas phase, presence of such complex in solution can be established by ESI MS indirectly. This is done by monitoring the evolution of charge state distributions of transferrin ions upon acid-induced protein unfolding in the presence and in the absence of the metal in solution. The anomalous instability of the transferrin-bismuth complex in the gas phase is rationalized in terms of conformational differences between this form of transferrin and the holo-forms of this protein produced by binding of metals with smaller ionic radii (e.g., Fe3+ and In3+). The large size of Bi3+ ion is likely to prevent formation of a closed conformation (canonical structure of the holo-protein), resulting in a non-native metal coordination. It is suggested that transferrin retains the open conformation (characteristic of the apo-form) upon binding Bi3+, with only two ligands in the metal coordination sphere provided by the protein itself. This suggestion is corroborated by the results of circular dichroism measurements in the near-UV range. Since the cellular consumption of metals in the transferrin cycle critically depends upon recognition of the holo-protein complex by the transferrin receptor, the noncanonical conformation of the transferrin-bismuth complex may explain very inefficient delivery of bismuth to cells even when a high dosage of bismuth-containing drugs is administered for prolonged periods of time.

Published

2004

30. The entering of indium-111 and iron-59 into the hepatocytes from partially hepatectomized rats differ from that of gallium-67.

Author

Sato R, Abe S, Yamada Y, Toyama D, Ohtake Y, Sato N, and Ohkubo Y

Subjects

Animals, Hepatectomy, Male, Rats, Rats, Wistar, Gallium metabolism, Hepatocytes metabolism, Indium metabolism, Iron metabolism

Abstract

We recently suggested that the transferrin (Tf)-gallium-67 (67Ga) complex dissociated on the surface of the hepatocytes after partial hepatectomy and free 67Ga bound to heparan sulfate in the extracellular matrix. In the present study, we investigated whether the entering of indium-111 (111In) and iron-59 (59Fe) with high affinity to transferrin differed from the entering of 67Ga by the hepatocytes after partial hepatectomy. 111In was almost taken by the plasma and little taken by the red blood cell. On the other hand, the uptake of 59Fe by the red blood cell was higher than plasma. The uptake of 59Fe by the bone marrow was significantly higher than that of 111In. The uptake of 111In and 59Fe by the liver tissue was reached a maximum 2 d after partial hepatectomy but the uptake ratio of 111In was lower than that of 59Fe. We suspected that the uptake of 59Fe by the liver tissue was the highest because of the high binding affinity of Tf-59Fe to Tf-receptor. The entering of 111In and 59Fe into the hepatocytes was also reached a maximum 2 d after partial hepatectomy but the ratio of 59Fe was slightly lower than that of 111In. These results suggested that the binding affinity to Tf could have played a crucial role in the differences of the entering of 111In, 59Fe and 67Ga into the hepatocytes of partially hepatectomized rats.

Published

2004

31. NMR spectroscopy of Group 13 metal ions: biologically relevant aspects.

Author

André JP and Mäcke HR

Subjects

Adenosine Triphosphate chemistry, Adenosine Triphosphate metabolism, Aluminum chemistry, Aluminum metabolism, Animals, Cations chemistry, Gallium chemistry, Gallium metabolism, Gallium Isotopes, Humans, Indium chemistry, Indium metabolism, Isotopes, Ligands, Metals metabolism, Proteins chemistry, Proteins metabolism, Radiopharmaceuticals chemistry, Radiopharmaceuticals metabolism, Thallium chemistry, Thallium metabolism, Magnetic Resonance Spectroscopy methods, Metals chemistry

Abstract

In spite of the fact that Group 13 metal ions (Al(3+), Ga(3+), In(3+) and Tl(+/3+)) show no main biological role, they are NMR-active nuclides which can be used in magnetic resonance spectroscopy of biologically relevant systems. The fact that these metal ions are quadrupolar (with the exception of thallium) means that they are particularly sensitive to ligand type and coordination geometry. The line width of the NMR signals of their complexes shows a strong dependence on the symmetry of coordination, which constitutes an effective tool in the elucidation of structures. Here we report published NMR studies of this family of elements, applied to systems of biological importance. Special emphasis is given to binding studies of these cations to biological molecules, such as proteins, and to chelating agents of radiopharmaceutical interest. The possibility of in vivo NMR studies is also stressed, with extension to (27)Al-based MRI (magnetic resonance imaging) experiments.

Published

2003

32. Intrathecal cytotoxic T-cell immunotherapy for metastatic leptomeningeal melanoma.

Author

Clemons-Miller AR, Chatta GS, Hutchins L, Angtuaco EJ, Ravaggi A, Santin AD, and Cannon MJ

Subjects

Antigens, Neoplasm, B-Lymphocytes metabolism, CD8-Positive T-Lymphocytes metabolism, Cytokines biosynthesis, Dendritic Cells metabolism, Enzyme-Linked Immunosorbent Assay, Female, Flow Cytometry, Humans, Immunotherapy, Adoptive, Indium metabolism, Interferon-gamma biosynthesis, Interferon-gamma metabolism, Interleukin-2 metabolism, Interleukin-4 metabolism, Interleukin-6 biosynthesis, MART-1 Antigen, Membrane Glycoproteins, Middle Aged, Monophenol Monooxygenase chemistry, Neoplasm Proteins chemistry, Proteins, Reverse Transcriptase Polymerase Chain Reaction, Time Factors, Tissue Distribution, Tumor Cells, Cultured, Tumor Necrosis Factor-alpha biosynthesis, gp100 Melanoma Antigen, Immunotherapy, Melanoma therapy, Meningeal Neoplasms therapy, T-Lymphocytes, Cytotoxic metabolism

Abstract

A 49-year-old patient with primary, recurrent melanoma on the lower extremity developed metastatic leptomeningeal melanoma that did not respond to treatment with radiation therapy or intrathecal interleukin 2 (IL-2). Disease was characterized by neurological symptoms, including loss of hearing, loss of short-term memory, and gait disturbance. CD8+ CTLs were generated in vitro using autologous dendritic cells pulsed with peptides from the melanoma-associated antigens tyrosinase (145-156), Melan-A/MART-1 (26-35), and gp100/Pmel 17 (209-217). The CTLs exhibited up to 74% specific lysis against peptide-pulsed autologous EBV-transformed B cells, with Melan-A-specific CTLs yielding the greatest lytic activity. CD8+ CTLs possessed a type 1 cytokine profile, expressing tumor necrosis factor alpha and IFNgamma but not IL-4. Infusions of CTLs were supported with systemic low-dose IL-2 administration. 111In labeling and computerized gamma imaging were used to monitor the distribution of CTLs up to 48 h after infusion. Intra-arterial delivery via the right carotid artery was followed by redistribution of the CTLs to the lungs, liver, and spleen within 16 h. In contrast, delivery via an indwelling Ommaya reservoir resulted in prolonged retention of CTLs within the brain for at least 48 h after infusion. Marked but transient elevations in tumor necrosis factor alpha, IFN-gamma, and IL-6 in the cerebrospinal fluid were observed within 4 h of CTL infusion. There was no evidence of tumor progression throughout the treatment period, and clinically the patient showed some resolution of neurological symptoms.

Published

2001

33. Stereoselective synthesis of C5-C20 and C21-C34 subunits of the core structure of the aplyronines. Applications of enantioselective additions of chiral allenylindium reagents to chiral aldehydes.

Author

Marshall JA and Johns BA

Subjects

Aldehydes metabolism, Allyl Compounds metabolism, Animals, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Aplysia chemistry, Indium metabolism, Lactones chemistry, Lactones pharmacology, Macrolides chemistry, Macrolides pharmacology, Magnetic Resonance Spectroscopy, Palladium chemistry, Palladium metabolism, Serine chemical synthesis, Serine chemistry, Serine pharmacology, Stereoisomerism, Aldehydes chemistry, Allyl Compounds chemistry, Antineoplastic Agents chemical synthesis, Indium chemistry, Lactones chemical synthesis, Macrolides chemical synthesis, Serine analogs & derivatives

Abstract

The stereoselective synthesis of a C5-C20 and a C21-C34 subunit of the aplyronine family of polyketide marine macrolides has been achieved. These subunits contain all 15 stereocenters of the core structure. Six of the 15 stereocenters were introduced through enantioselective and diastereoselective additions of chiral allenylindium reagents to alpha-methyl-beta-oxygenated propionaldehydes. The products of these additions were further transformed by reactions involving the terminal alkynyl substituent produced in the addition reactions. Unlike previous applications of this methodology, the present synthesis employs Pd(0)-catalyzed transmetalations of chiral allenylpalladium intermediates to generate the chiral allenylindium reagents in situ.

Published

2000

34. The role of fibronectin in platelet adhesion to plasma preadsorbed polystyrene.

Author

Tsai WB and Horbett TA

Subjects

Alprostadil metabolism, Antigens, CD metabolism, Cell Adhesion, Dose-Response Relationship, Drug, Enzyme-Linked Immunosorbent Assay, Fibrinogen metabolism, Fibronectins blood, Humans, Indium metabolism, Platelet Glycoprotein GPIIb-IIIa Complex metabolism, Tetraspanin 29, Time Factors, Blood Platelets metabolism, Cell Culture Techniques instrumentation, Cell Culture Techniques methods, Fibronectins metabolism, Membrane Glycoproteins, Polystyrenes chemistry

Abstract

Platelet adhesion to synthetic surfaces that come in contact with blood is mediated by the adsorption of adhesive plasma proteins, especially fibrinogen. However, the roles of other adhesive proteins, such as fibronectin, vitronectin, and von Willebrand factor in platelet adhesion are not yet clear. In this study, the role of fibronectin in platelet adhesion to surfaces was assessed using three approaches. First, platelet adhesion was measured on Immulon I preadsorbed with fibronectin-depleted plasma or fibronectin-depleted plasma replenished with increasing amount of fibronectin. Under these conditions, fibronectin adsorbed from plasma did not have any effect on platelet adhesion, while fibrinogen played a major role in mediating platelet adhesion. Since fibronectin might play a role in platelet adhesion to surfaces which adsorb little or no fibrinogen, we also used two other strategies to assess the potential role of fibronectin. One was to use platelets treated with a platelet activation inhibitor, prostaglandin E1, which prevents the activation of platelet fibrinogen receptor GP IIb/IIIa. The adhesion of prostaglandin E1-treated platelets to Immulon I preadsorbed with plasma was greatly decreased compared to that of untreated platelets, but was increased by the addition of supernormal concentrations of fibronectin to the plasma. This suggests that GP Ic/IIa, rather than GP IIb/IIIa, might be the platelet receptor which is responsible for platelet adhesion to surface-bound fibronectin. Finally, we studied the effect of fibronectin on platelet adhesion to surfaces preadsorbed with fibronectin-depleted afibrinogenemic plasma. We found that fibronectin re-addition to fibronectin-depleted afibrinogenemic plasma increased platelet adhesion. However, our most important finding was that fibronectin seems to play little or no role in mediating platelet adhesion to polystyrene surfaces preadsorbed with normal plasma.

Published

1999

35. Comparative pulmonary absorption, distribution, and toxicity of copper gallium diselenide, copper indium diselenide, and cadmium telluride in Sprague-Dawley rats.

Author

Morgan DL, Shines CJ, Jeter SP, Blazka ME, Elwell MR, Wilson RE, Ward SM, Price HC, and Moskowitz PD

Subjects

Absorption, Animals, Body Weight drug effects, Bronchoalveolar Lavage Fluid chemistry, Bronchoalveolar Lavage Fluid cytology, Female, Fibronectins chemistry, Hydroxyproline metabolism, Kidney drug effects, Kidney pathology, Lung metabolism, Lung pathology, Organ Size drug effects, Rats, Rats, Sprague-Dawley, Spleen drug effects, Spleen pathology, Cadmium Compounds metabolism, Cadmium Compounds toxicity, Copper metabolism, Copper toxicity, Gallium metabolism, Gallium toxicity, Indium metabolism, Indium toxicity, Lung drug effects, Selenium metabolism, Selenium toxicity, Tellurium metabolism, Tellurium toxicity

Abstract

Copper gallium diselenide (CGS), copper indium diselenide (CIS), and cadmium telluride (CdTe) are novel compounds used in the photovoltaic and semiconductor industries. This study was conducted to characterize the relative toxicities of these compounds and to evaluate the pulmonary absorption and distribution after intratracheal instillation. Female Sprague-Dawley rats were administered a single equimolar dose (70 mM) of CGS (21 mg/kg), CIS (24 mg/kg), CdTe (17 mg/kg), or saline by intratracheal instillation. Bronchoalveolar lavage fluid (BALF) protein, fibronectin, inflammatory cells, lung hydroxyproline, and tissue distribution were measured 1, 3, 7, 14, and 28 days after instillation. Relative lung weights were significantly increased in CIS- and CdTe-treated rats at most time points. Inflammatory lesions in the lungs consisting of an influx of macrophages, lymphocytes, and PMNs were most severe in CdTe-treated rats, intermediate in CIS-treated rats, and minimal in rats receiving CGS. Hyperplasia of alveolar type 2 cells was present in CIS- and CdTe-treated rats and was greatest in CdTe-treated rats. Pulmonary interstitial fibrosis was observed in CdTe-treated rats at all time points. All three compounds caused marked increases in total BALF cell numbers, with the greatest increase observed in CIS-treated rats. BALF protein, fibronectin, and lung hydroxyproline were significantly increased in all treated animals and were highest in CdTe-treated animals. There was no apparent pulmonary absorption or tissue distribution of CGS. Indium levels increased in extrapulmonary tissues of CIS-treated rats, although Cu and Se levels remained unchanged. CdTe was absorbed from the lung to a greater extent than CGS and CIS. Cd and Te levels decreased in the lung and increased in extrapulmonary tissues. Of these compounds CdTe presents the greatest potential health risk because it causes severe pulmonary inflammation and fibrosis and because it is readily absorbed from the lung may potentially cause extrapulmonary toxicity.

Published

1997

36. New hydroxybenzyl and hydroxypyridylmethyl substituted triazacyclononane ligands for use with gallium(III) and indium(III).

Author

Jones-Wilson TM, Motekaitis RJ, Sun Y, Anderson CJ, Martell AE, and Welch MJ

Subjects

Animals, Drug Stability, Female, Gallium chemistry, Gallium metabolism, Gallium pharmacokinetics, Heterocyclic Compounds chemistry, Indium chemistry, Indium metabolism, Indium pharmacokinetics, Isotope Labeling, Ligands, Organometallic Compounds chemistry, Rats, Rats, Sprague-Dawley, Tissue Distribution, Gallium Radioisotopes, Heterocyclic Compounds chemical synthesis, Heterocyclic Compounds pharmacokinetics, Indium Radioisotopes, Organometallic Compounds chemical synthesis, Organometallic Compounds pharmacokinetics

Abstract

The 67Ga(III) and/or 111In(III) complexes of four new hexadentate ligands have been prepared and evaluated in vitro and in vivo. These substituted triazacyclononane ligands bind the metal ion through three tertiary ring nitrogens and three oxygens from pendant phenolic or hydroxypyridyl arms. The hydroxypyridyl moieties increase the aqueous solubility of the metal complexes while retaining a lipophilic character. As indicated by their large positive partition coefficients, the phenolic ligands proved to be significantly more lipophilic than the hydroxypyridyl ligands. Biodistribution in Sprague-Dawley rats indicated that the more lipophilic phenolic complexes cleared the body primarily through the liver, while the less lipophilic hydroxypyridyl complexes cleared rapidly, primarily through the kidney. To differentiate the clearance characteristics of these radiolabeled compounds, radiochemical purity of selected complexes in vivo was measured. The complexes were evaluated for overall charge in vitro and in vivo, in plasma samples. In addition, plasma and urine were analyzed for possible metabolites. With one exception, each complex was unmetabolized in vivo. All complexes and metabolites formed were neutral in vitro and in vivo. Extended stability in serum of selected radiometal complexes has been measured. Each complex measured was stable to exchange with transferrin, up to 72 h, as expected from the large stability constants of the complexes. The clearance characteristics of the hydroxypyridyl and phenolic ligands, however, were markedly different. The rapid hepatic clearance of the phenolic ligands indicates potential as bifunctional chelates for Ga(III) or In(III).

Published

1995

37. Tissue distribution and elimination of indium in male Fischer 344 rats following oral and intratracheal administration of indium phosphide.

Author

Zheng W, Winter SM, Kattnig MJ, Carter DE, and Sipes IG

Subjects

Administration, Oral, Animals, Body Weight drug effects, Indium administration & dosage, Indium metabolism, Intestinal Absorption, Intubation, Intratracheal, Male, Phosphines administration & dosage, Phosphines metabolism, Rats, Rats, Inbred F344, Spectrophotometry, Atomic, Tissue Distribution, Indium pharmacokinetics, Phosphines pharmacokinetics

Abstract

The use of indium phosphide (InP) in the semiconductor industry has raised concerns about potential occupational exposure. The tissue distribution and elimination of indium were investigated in adult male Fischer 344 rats following either a single or 14 consecutive daily oral doses, or following an intratracheal instillation of InP (10 mg/kg). The concentrations of indium ions in blood, urine, feces, and tissues were quantified either using direct acid digestion followed by electrothermal atomic absorption spectrophotometry (ET-AAS) or using an extraction method with methyltricapryl ammonium ions to remove indium from the matrix followed by ET-AAS. Indium was poorly absorbed from the gastrointestinal tract in both single and multiple oral dose studies. Upon its absorption, indium was relatively evenly distributed among the major organs such as liver, kidney, lung, spleen, and testes. By 96 h after oral dose treatment, less than 0.11% of the dose of indium was recovered from tissues in the single- or multiple-dose experiment. At 96 h, retention of indium in the body was about 0.36% of the dose (except for lung) following intratracheal instillation of InP. Following oral dose administration, the majority of indium was recovered from the gastrointestinal tract and its contents. The high recovery of indium (73% of the dose) in the feces after intratracheal instillation presumably reflects mucociliary clearance and/or biliary excretion of indium. Urinary indium accounted only for 0.08-0.23% of the dose during a 240-h collection period in both single- and multiple-dose studies. It seems that fecal excretion serves as the major route for indium elimination, and this results from poor absorption. Because of the poor absorption of indium following multiple oral doses or intratracheal instillation of InP, it seems unlikely that indium will accumulate in the body following InP exposure.

Published

1994

38. How the anti-(metal chelate) antibody CHA255 is specific for the metal ion of its antigen: X-ray structures for two Fab'/hapten complexes with different metals in the chelate.

Author

Love RA, Villafranca JE, Aust RM, Nakamura KK, Jue RA, Major JG Jr, Radhakrishnan R, and Butler WF

Subjects

Amino Acid Sequence, Antibodies, Monoclonal immunology, Binding Sites, Antibody, Chelating Agents chemistry, Crystallography, X-Ray, Edetic Acid analogs & derivatives, Edetic Acid chemistry, Edetic Acid metabolism, Haptens chemistry, Indium immunology, Indium metabolism, Iron immunology, Iron metabolism, Models, Molecular, Molecular Sequence Data, Molecular Structure, Protein Conformation, Antibodies, Monoclonal chemistry, Antibody Specificity, Antigens immunology, Chelating Agents metabolism, Haptens metabolism, Immunoglobulin Fab Fragments chemistry, Metals immunology

Abstract

Antibodies with bound metal-chelate haptens provide new means for exploiting the diverse properties of metallic elements. The murine monoclonal antibody CHA255 (IgG1 lambda) binds the metal-chelate hapten indium (III)-4-[N'-(2-hydroxyethyl)thioureido]-L-benzyl-EDTA (designated In-EOTUBE) with high affinity (K(a) = 1.1 x 10(10) M-1). Antibody binding is highly specific for the indium chelate; the affinity decreases as much as 10(4) with other metals, even those having ionic radii close to indium. To better understand this selectivity, the crystal structure of the antigen-binding fragment (Fab') of CHA255 complexed with its hapten, In(III)-EOTUBE, was determined by molecular replacement and refined at 2.2-A resolution. The structure of CHA255 Fab' complexed with Fe(III)-EOTUBE was also determined and refined at 2.8-A resolution. In both structures, the hapten's EDTA moiety is half-buried near the center of the complementarity-determining regions (CDR's). Five of the six CDR's on the Fab' interact with the hapten through protein side-chain atoms (but not main-chain atoms). A novel feature of the In-EOTUBE/Fab' complex is coordination of the indium by N epsilon of one histidine from the heavy chain's third CDR (distance = 2.4 A). The histidine coordination is not observed in the Fe-EOTUBE/Fab' complex, due mainly to a slightly different hapten conformation that reduces metal accessibility; this may partially explain the 20-fold lower affinity of CHA255 for iron hapten. An unexpected feature of the Fab' overall is an elbow angle of 193 degrees (the angle between the pseudodyad axes of the Fab's constant and variable domains).

Published

1993

39. Induction of feline immunodeficiency virus-specific cytolytic T-cell responses from experimentally infected cats.

Author

Song W, Collisson EW, Billingsley PM, and Brown WC

Subjects

Animals, Antigens, Surface analysis, Base Sequence, Cats, Cell Line, Concanavalin A pharmacology, Disease Models, Animal, Fluorescent Antibody Technique, Histocompatibility Antigens Class I immunology, Indium metabolism, Interleukin-2 pharmacology, Lymphoid Tissue cytology, Lymphoid Tissue microbiology, Molecular Sequence Data, T-Lymphocytes, Cytotoxic drug effects, T-Lymphocytes, Cytotoxic microbiology, Viral Proteins isolation & purification, Cytotoxicity, Immunologic, Immunodeficiency Virus, Feline immunology, Lentivirus Infections immunology, T-Lymphocytes, Cytotoxic immunology

Abstract

We have examined the in vitro induction and activity of feline immunodeficiency virus (FIV)-specific cytolytic T cells obtained from cats experimentally infected for 7 to 17 weeks or 20 to 22 months with the Petaluma isolate of FIV. Normal or FIV-infected autologous and allogeneic T lymphoblastoid cells were used as target cells in chromium-51 or indium-111 release assays. When effector cells consisted of either fresh peripheral blood mononuclear cells or concanavalin A- and interleukin-2-stimulated cells, only low levels of cytotoxicity were observed. However, the levels of FIV-specific cytotoxicity were consistently higher in both groups of cats following in vitro stimulation of the effector cells with irradiated, FIV-infected autologous T lymphoblastoid cells and interleukin-2. The effector cells lysed autologous but not allogeneic FIV-infected target cells and were composed predominantly of CD8+ T cells, indicating that the FIV-specific cytotoxicity measured in this system is mediated by CD8+, major histocompatibility complex class I-restricted T cells. These studies show that FIV-specific cytolytic T cells can be detected as early as 7 to 9 weeks postinfection, and they define a system to identify virus-encoded epitopes important in the induction of protective immunity against lentiviruses.

Published

1992

40. Metabolism of subcutaneous administered indium arsenide in the hamster.

Author

Yamauchi H, Takahashi K, Yamamura Y, and Fowler BA

Subjects

Animals, Arsenic administration & dosage, Arsenic blood, Arsenic urine, Cricetinae, Feces chemistry, Indium administration & dosage, Indium blood, Indium urine, Injections, Subcutaneous, Male, Tissue Distribution, Arsenic metabolism, Arsenicals, Indium metabolism

Abstract

Indium arsenide (InAs) is partially dissociated in vivo to form inorganic arsenic and indium and excreted into the urine and feces. InAs dissolves slowly over time with deposits at the site of injection. Results of this study demonstrated that the principal metabolite of arsenic in the urine of hamsters was dimethylated arsenic (DMA). Inorganic arsenic and DMA accumulated in the fur, but the concentrations of indium were very low in this matrix. Urine and feces were the principal routes of elimination from the body. Analysis of tissues for arsenic demonstrated as concentrations in the parts per billion range. Results of these studies indicate that InAs is dissociated in vivo with release of both the indium and arsenic moieties to target tissues.

Published

1992

41. Exposure to metals that have recently come into use.

Author

Scansetti G

Subjects

Biological Availability, Gallium metabolism, Germanium metabolism, Half-Life, Humans, Indium metabolism, Metals analysis, Metals toxicity, Niobium metabolism, Reference Values, Tellurium metabolism, Environmental Exposure, Metals metabolism

Abstract

The possibility of deriving normal biological values for some rare metals is investigated. The metals under study are gallium, germanium, indium, niobium and tellurium, i.e. a group of metals with increasing utilization in the electronics industry. So far some data are unavailable for some of the elements, e.g. daily intake, oral absorption and half-life time for gallium, and body burden for gallium and germanium. Reliable values of blood concentration are available only for gallium, niobium and tellurium. The problem related to a proposed urinary biological limit value for tellurium is also discussed.

Published

1992

42. Distribution of 111In-bleomycin complex in small cell lung cancer cells by autoradiography.

Author

Hou DY and Maruyama Y

Subjects

Autoradiography, Cell Nucleus metabolism, Cytoplasm metabolism, Humans, Indium metabolism, Tumor Cells, Cultured, Bleomycin metabolism, Carcinoma, Small Cell metabolism, Indium Radioisotopes metabolism, Lung Neoplasms metabolism

Abstract

The distribution of 111In-bleomycin Complex (111In-BLMC) in small cell lung cancer (SCLC) cells was studied by autoradiography. SCLC cells were exposed to 111In-BLMC and 111Indium chloride (111InCl3) for 1 hour, 3 hours, and 4 hours; washed with fresh medium; and spread on slides. The slides were smeared with NTB2 (NTB3) emulsion by wet or dry-mount technique and exposed 3 to 15 days. 111In-BLMC was found to localize in the cell nucleus and nuclear membrane (78.3%); 111InCl3 located mainly in the cytoplasm (52.3%). This distribution of labeled BLM may explain the mechanism of killing SCLC cells by 111In-BLMC.

Published

1992

43. Kinetics of the dissociation of indium-(p-substituted-benzyl)ethylenediaminetetraacetic acid hapten analogues from the monoclonal anti-hapten antibody CHA255.

Author

Meyer DL, Fineman M, Unger BW, and Frincke JM

Subjects

Albumins metabolism, Chelating Agents metabolism, Hydrogen-Ion Concentration, Kinetics, Osmolar Concentration, Reproducibility of Results, Temperature, Antibodies, Monoclonal metabolism, Edetic Acid metabolism, Haptens immunology, Indium metabolism, Indium Radioisotopes metabolism

Abstract

Half-lives were measured for the dissociation of a series of 20 indium-benzyl-EDTA derivatives from a monoclonal antibody that binds to them. Most haptens gave expected monoexponential dissociation curves with half-lives ranging from approximately 8 to approximately 100 min at 22 +/- 1 degree C. Precise (+/- approximately 2.5%) determinations were made using centrifugal ultrafiltration to separate free from bound hapten. A strong pH dependence of the dissociation half-life was found for the two haptens studied. Activation enthalpies were identical (23 +/- 1 kcal/mol) for the dissociation of four haptens, suggesting that, in contrast to individual rate constants, this parameter is insensitive to hapten modification. The dissociation half-lives provided evidence for the location of a positive charge in the binding site, but gave no clear indication of the role of hydrophobic interactions or of steric requirements in hapten binding. While variations in ionic strength had no effect on the dissociation rate, lowering surface tension with dioxane increased the rate somewhat. Three hapten-antibody complexes showed biexponential dissociation rates. It is postulated that this results from distinct conformations of the complex dissociating at different rates. The dissociation rate constant was found to be an extremely sensitive indicator of the hapten-antibody interaction that can be measured very precisely.

Published

1990

44. Transfer of radioisotope from CSF to nasal secretion.

Author

Hasegawa M, Watanabe I, Hiratsuka H, Okumura T, and Inanba Y

Subjects

Adult, Female, Humans, Male, Middle Aged, Pentetic Acid metabolism, Cerebrospinal Fluid metabolism, Cerebrospinal Fluid Rhinorrhea diagnosis, Indium metabolism, Nasal Mucosa metabolism, Radioisotopes

Abstract

The physiological range of radioisotope (RI) transferred from the CSF to the nasal secretions was observed in 17 subjects without CSF rhinorrhea. A combination of RI cisternography and insertion of cotton pledgets in the nose was used in order to detect the RI transfer in the nasal secretion. The RI ratio was calculated, and those of the 17 subjects were less than 0.3. This is likely to be the normal physiological range of RI transfer.

Published

1983

45. Biological distribution and excretion of DTPA labeled with Tc-99m and In-111.

Author

McAfee JG, Gagne G, Atkins HL, Kirchner PT, Reba RC, Blaufox MD, and Smith EM

Subjects

Animals, Blood Proteins metabolism, Dogs, Humans, Kidney metabolism, Radiation Dosage, Tissue Distribution, Indium metabolism, Pentetic Acid metabolism, Radioisotopes, Technetium metabolism

Abstract

For the purpose of radiation dose estimates, organ assays and excretion measurements of the Tc-99m and In-111 complexes with DTPA were conducted in dogs at various time intervals up to 24 hr, and the results compared with available human data. The peak concentration of the Tc-99m complex, at 3 min after injection, was 5% of the administered dose for one kidney, 3.5% for the liver, and 3.5% for the small bowel. No organ system except the urinary tract reached a concentration higher than that in blood for several hours after the injection. The biliary excretion of these agents was extremely low, and their elimination in the feces was negligible. In man, it appears that the residual 4-5% of an administered dose not eliminated in the urine by 24 hr is widely distributed in various tissues. The distribution of the In-111 complex is similar but not identical to that of the Tc-99m complex.

Published

1979

46. In vivo distribution of 67gallium and 111Indium complexes with transferrin: uptake by DS sarcoma tumors.

Author

Anghileri LJ, Ottaviani M, and Raynaud C

Subjects

Animals, Male, Radioisotopes metabolism, Rats, Rats, Inbred Strains, Gallium Radioisotopes metabolism, Indium metabolism, Sarcoma, Experimental metabolism, Transferrin metabolism

Published

1983

47. Binding of 113mIn ion to human erythrocytes.

Author

Kämpfer I and Nissler K

Subjects

Chromium Radioisotopes metabolism, Electrophoresis, Polyacrylamide Gel methods, Erythrocyte Membrane analysis, Globins metabolism, Heme metabolism, Hemoglobins analysis, Humans, Pentanones physiology, Technetium metabolism, Erythrocytes metabolism, Indium metabolism, Radioisotopes metabolism

Abstract

The 113mIn ion is tightly bound to hemoglobin; less than 20% of the total amount of 113mIn present in the red cells are attached to the stroma. The extraction of the heme from purified hemoglobin with HCl/acetone mixture showed 99% of the 113mIn activity in the heme fraction. In comparison to the 51Cr and 99mTc isotopes known to be bound to the beta-chain of globin only, 20 and 30%, respectively, of their activities were found in the heme fraction. Acetyl acetone is necessary for effective labelling of erythrocytes with 113mIn. Only 7% of the acetyl acetone applied were found in the cells associated with the heme. It is not involved in the binding of 113mIn to hemoglobin, but facilitates the transport of the 113mIn ions into the cells.

Published

1986

48. [Mechanism of renal elimination of 2 elements of group IIIA of the periodic table : aluminum and indium].

Author

Galle P

Subjects

Animals, Kidney Tubules, Proximal ultrastructure, Lysosomes metabolism, Lysosomes ultrastructure, Rats, Sodium analysis, Aluminum metabolism, Indium metabolism, Kidney metabolism

Abstract

Aluminium and indium, two elements of group IIIA of the periodic table, are concentrated by the kidney inside lysosomes of proximal tubule cell. In these lysosomes, aluminium and indium are precipitated as non-soluble phosphate salts and these precipitates are then expelled in the tubular lumen and eliminated with the urinary flow. These data have been visualized by analytical microscopy (ion microscopy and X ray microanalysis). Local acid phosphatases are assumed to permit the concentration of aluminium and indium salts inside the lysosomes.

Published

1981

49. Indium-111-labeled autologous leukocyte imaging and fecal excretion. Comparison with conventional methods of assessment of inflammatory bowel disease.

Author

Leddin DJ, Paterson WG, DaCosta LR, Dinda PK, Depew WT, Markotich J, McKaigney JP, Groll A, and Beck IT

Subjects

Colectomy, Colitis, Ulcerative pathology, Colonoscopy, Crohn Disease pathology, Diagnostic Errors, Humans, Inflammation diagnostic imaging, Isotope Labeling, Radiography, Radionuclide Imaging, Colitis, Ulcerative diagnostic imaging, Crohn Disease diagnostic imaging, Feces analysis, Indium metabolism, Leukocytes, Radioisotopes

Abstract

This study was designed to evaluate the role of 111In-labeled leukocyte imaging and fecal excretion in the assessment of inflammatory bowel disease. We compared these tests to various indices of disease activity in Crohn's disease, to Truelove's grading in ulcerative colitis, and to endoscopy, x-ray, and pathology in both diseases. Eleven controls, 16 patients with Crohn's disease, 13 with ulcerative colitis, and 3 with other types of acute bowel inflammation were studied (positive controls). Indium scanning was performed at 1, 4, and 24 hr. Fourteen of 16 patients with active Crohn's disease had positive scans but in only five was localization accurate. One patient had inactive ulcerative colitis, and the scan was negative. Of 12 patients with active ulcerative colitis, 10 had positive scans but disease localization was accurate in only four. Disease extent was correctly defined in 1 of the 3 Positive Controls. There was no significant difference in the accuracy of scanning at 1, 4, or 24 hr. 111In fecal excretion was significantly higher in patients with inflammatory bowel disease than in controls, and there was correlation between 111In fecal excretion and most of the indices of disease activity in Crohn's disease. In ulcerative colitis, 111In fecal excretion did not correlate with Truelove's grading but reflected colonoscopic assessment of severity. In conclusion, 111In-labeled leukocyte scanning lacks sensitivity with respect to disease extent, but fecal excretion of 111In correlates well with disease severity as determined by other methods.

Published

1987

50. Use of 111In-bleomycin for combining radiotherapy and chemotherapy on glioma-bearing mice.

Author

Hou DY, Hoch H, Johnston GS, Tsou KC, Farkas RJ, and Miller EE

Subjects

Adenocarcinoma metabolism, Animals, Bleomycin administration & dosage, Bleomycin metabolism, Brachytherapy methods, Combined Modality Therapy, Energy Transfer, Female, Glioma pathology, Indium administration & dosage, Indium metabolism, Isotope Labeling, Male, Mammary Neoplasms, Experimental metabolism, Mice, Mice, Inbred C57BL, Radioisotopes administration & dosage, Radioisotopes metabolism, Rats, Tissue Distribution, Bleomycin therapeutic use, Glioma therapy, Indium therapeutic use, Organometallic Compounds, Radioisotopes therapeutic use

Abstract

Mice bearing transplanted glioma received 0.9% NaCl, 0.1 mg of BLM, or 200-250 microCi of 111In-BLM (0.1 mg BLM) daily for 5 days intraperitoneally. After therapy, tumor sizes were in the order NaCl greater than BLM greater than 111In-BLM. On the 11th day after the first injection, tumor size (mm3) in the 111In-BLM group was 1,220; in the BLM group, it was 2,310 (P less than .025). After intratumor injection of a total dose of 0.1 mg of BLM/gm tumor weight, or of 1 mCi/gm tumor weight of 111In-BLM (carried by 0.1 mg of BLM/gm tumor weight), the tumor size decreased in the 111In-BLM group more than in the BLM group. On the 5th day after the 2nd dose therapy, the tumor size in the 111In-BLM group was 2,020; in the BLM group it was 4,220 (P less than .05). Host weights for these two groups were similar. The necrotic area in the tumor was much greater in the 111In-BLM group than in the BLM group. These results suggest the use for radiotherapy and chemotherapy.

Published

1985