Your search keyword '"radiolabeling"' showing total 7,578 results

51. Deuteration and Tritiation of Pharmaceuticals by Non‐Directed Palladium‐Catalyzed C−H Activation in Heavy and Super‐Heavy Water.

Author

Teja, Chitrala, Kolb, Simon, Colonna, Pierre, Grover, Jagrit, Garcia‐Argote, Sébastien, Lahiri, Goutam Kumar, Pieters, Grégory, Werz, Daniel B., and Maiti, Debabrata

Subjects

*ISOTOPE exchange reactions, *HYDROGEN isotopes, *DEUTERIUM oxide, *RADIOLABELING, *PHARMACEUTICAL chemistry

Abstract

Deuterated and tritiated analogs of drugs are valuable compounds for pharmaceutical and medicinal chemistry. In this work, we present a novel hydrogen isotope exchange reaction of drugs using non‐directed homogeneous Pd‐catalysis. Aromatic C−H activation is achieved by a commercially available pyridine ligand. Using the most convenient and cheapest deuterium source, D2O, as the only solvent 39 pharmaceuticals were labelled with clean reaction profiles and high deuterium uptakes. Additionally, we describe the first application of non‐directed homogeneous Pd‐catalysis for H/T exchange on three different pharmaceuticals by using T2O as isotopic source, demonstrating the applicability to the synthesis of radiotracers. [ABSTRACT FROM AUTHOR]

Published

2024

52. A GO regulated bimetallic CoFe catalyst for efficient electrochemical nitrate reduction to ammonia under acidic conditions.

Author

Liu, Zhengyang, Huang, Xiaohan, Yan, Linghui, Zhang, Zehui, Ding, Tao, and Shi, Guosheng

Subjects

*BIMETALLIC catalysts, *RADIOLABELING, *CATALYSTS, *SPECTROMETRY

Abstract

Electrocatalytic nitrate reduction to ammonia (ENRA) in acidic media is currently a challenge. Herein, we presented a CoFe2O4/GO catalyst that exhibited a high faradaic efficiency (95.51%) and ammonia yield rate (1268.04 μmol h−1 cm−2) for ENRA under acidic conditions. The ENRA reaction mechanism was investigated through in situ ATR-FTIR spectroscopy and isotope labeling experiments. [ABSTRACT FROM AUTHOR]

Published

2024

53. A UV-Vis method for investigation of gallium(III) complexation kinetics with NOTA and TRAP chelators: advantages, limitations and comparison with radiolabelling.

Author

Lebruška, Viktor, Dobrovolná, Tereza, Gemperle, Tereza, Kubíček, Vojtěch, Kossatz, Susanne, and Hermann, Petr

Subjects

*AMINO group, *RADIOLABELING, *LOW temperatures, *PROTON transfer reactions, *GALLIUM

Abstract

An easy and cheap method for measurement of GaIII complexation kinetics was developed. The method is based on UV-Vis quantification of non-complexed chelators after the addition of CuII ions at individual time points. The method was evaluated using established ligands, H3nota and H6notPPr, and was utilized to study the kinetics of GaIII complexation with four new symmetric derivatives of 1,4,7-triazacyclononane bearing methylphosphonate/phosphinate pendant arms - TRAP ligands. Chelators bearing ethoxy groups (H3L¹) or 2,2,2-trifluoroethyl groups (H3L²) on the phosphorus atoms showed fast formation (t99% = 21 and 10 min, respectively, at pH 2.0) and efficient radiolabelling which were comparable to the previously reported chelators bearing the 2-carboxyethyl group (H6notPPr). Chelators bearing (N,N-dibenzyl-amino)methyl (H3L³) and aminomethyl (H3L4) substituents showed a significantly slower complexation (t99% = 4.4 and 3.6 h, respectively, at pH 2.0) and inefficient radiolabelling, mainly at room temperature or low pH. This was caused by protonation of the amino groups of the pendant arms leading to coulombic repulsion between the GaIII ion and the positively charged protonated amines. The trends in complexation rates determined by the UV-Vis method correlated well with the results of the 68Ga radiolabelling study. [ABSTRACT FROM AUTHOR]

Published

2024

54. Plant organic nitrogen nutrition: costs, benefits, and carbon use efficiency.

Author

Tünnermann, Laura, Aguetoni Cambui, Camila, Franklin, Oskar, Merkel, Patrizia, Näsholm, Torgny, and Gratz, Regina

Subjects

*STABLE isotope analysis, *ROOT growth, *RADIOLABELING, *PHENOTYPIC plasticity, *ARABIDOPSIS thaliana, *PLANT nutrition

Abstract

Summary Differences in soil mobility and assimilation costs between organic and inorganic nitrogen (N) compounds would hypothetically induce plant phenotypic plasticity to optimize acquisition of, and performance on, the different N forms. Here we evaluated this hypothesis experimentally and theoretically. We grew Arabidopsis in split‐root setups combined with stable isotope labelling to study uptake and distribution of carbon (C) and N from l‐glutamine (l‐gln) and NO3− and assessed the effect of the N source on biomass partitioning and carbon use efficiency (CUE). Analyses of stable isotopes showed that 40–48% of C acquired from l‐gln resided in plants, contributing 7–8% to total C of both shoots and roots. Plants grown on l‐gln exhibited increased root mass fraction and root hair length and a significantly lower N uptake rate per unit root biomass but displayed significantly enhanced CUE. Our data suggests that organic N nutrition is linked to a particular phenotype with extensive growth of roots and root hairs that optimizes for uptake of less mobile N forms. Increased CUE and lower N uptake per unit root growth may be key facets linked to the organic N phenotype. [ABSTRACT FROM AUTHOR]

Published

2024

55. H218O vapour labelling reveals evidence of radial Péclet effects, but in not all leaves.

Author

Barbour, Margaret M., White, Melissa A., and Liu, Lulu

Subjects

*RELATIVE velocity, *RADIOLABELING, *LABEL design, *ISOTOPES, *VAPORS

Abstract

Summary: Contradictory evidence exists regarding the relevance of Péclet‐like gradients in leaf water isotopes, making it difficult to accurately predict variation in isotope composition.Here, we use H218O vapour labelling to directly test whether leaf water isotopes diffuse back into the xylem to be carried forward to more distal leaf portions. Backward diffusion has been assumed, due to observations of increasing enrichment towards the tip and outer edges of some leaves. Further complicating the selection of leaf water isotope models is the observation that some, but not all, leaves demonstrate a radial Péclet effect in bulk leaf water and that the hydraulic design of leaves may influence the development of isotope gradients in leaves.Carry‐forward of H218O vapour label was detected in the two monocot species assessed (oat and corn), but not in the two dicot species (foxglove and sunflower). Further, bulk leaf water measurements at differing transpiration rates indicated that a bulk leaf water Péclet effect was relevant for foxglove only.We conclude that both leaf hydraulic design and relative velocities of water within transport pathways influence leaf water isotope composition, reconciling seemingly contradictory previous results regarding the relevance of Péclet effects to leaf water isotopes. [ABSTRACT FROM AUTHOR]

Published

2024

56. Triflyl [18F]Fluoride as a Solution for Base‐Sensitive Late‐Stage Nucleophilic Aromatic 18F‐Fluorination Reactions.

Author

Haveman, Lizeth Y. F., Kruijff, Anna M. T., Eeden, Sjoerd P. P., Windhorst, Albert D., and Vugts, Danielle J.

Subjects

*POSITRON emission tomography, *RADIOLABELING, *FUNCTIONAL groups, *RADIOCHEMISTRY, *STANNANE

Abstract

Fluorine‐18 is the predominant radionuclide used to label Positron Emission Tomography (PET) tracers. One outstanding challenge in nucleophilic aromatic radiofluorination reactions is the sensitivity of precursors and catalysts for basic reaction conditions, which are necessary for the work‐up of [18F]fluoride, resulting in limited reproducibility. Triflyl [18F]fluoride is a new [18F]fluoride source that allows freedom in choice of type and amounts of base and cryptand. The aim of the current work is to explore the scope and limitations of triflyl [18F]fluoride in the late‐stage nucleophilic aromatic 18F‐fluorination of various functionalized precursors, exploring reduced amounts of base and cryptand. The assessment allowed for the application of this new nucleophilic [18F]fluoride reagent to the successful radiosynthesis of boron, stannane, hypervalent iodonium ylide and phenol substrates bearing electron‐deficient, ‐neutral and ‐rich functional groups as well as the clinically relevant PET tracers [18F]FPEB, [18F]mFBG and [18F]SynVesT‐1. [ABSTRACT FROM AUTHOR]

Published

2024

57. Comparison of the dosimetry and cell survival effect of 177Lu and 161Tb somatostatin analog radiopharmaceuticals in cancer cell clusters and micrometastases.

Author

De Nardo, Laura, Santi, Sara, Dalla Pietà, Anna, Ferro-Flores, Guillermina, Azorín-Vega, Erika, Nascimbene, Emma, Barbieri, Vito, Zorz, Alessandra, Rosato, Antonio, and Meléndez-Alafort, Laura

Subjects

*MEDICAL dosimetry, *RADIOLABELING, *PHOTON beams, *CELL size, *CELL survival

Abstract

Background: 177Lu-based radiopharmaceuticals (RPs) are the most used for targeted radionuclide therapy (TRT) due to their good response rates. However, the worldwide availability of 177Lu is limited. 161Tb represents a potential alternative for TRT, as it emits photons for SPECT imaging, β−-particles for therapy, and also releases a significant yield of internal conversion (IE) and Auger electrons (AE). This research aimed to evaluate cell dosimetry with the MIRDcell code considering a realistic localization of three 161Tb- and 177Lu-somatostatin (SST) analogs in different subcellular regions as reported in the literature, various cell cluster sizes (25–1000 µm of radius) and percentage of labeled cells. Experimental values of the α- and β-survival coefficients determined by external beam photon irradiation were used to estimate the survival fraction (SF) of AR42J pancreatic cell clusters and micrometastases. Results: The different localization of RPs labeled with the same radionuclide within the cells, resulted in only slight variations in the dose absorbed by the nuclei (ADN) of the labeled cells with no differences observed in either the unlabeled cells or the SF. ADN of labeled cells (MDLC) produced by 161Tb-RPs were from 2.8–3.7 times higher than those delivered by 177Lu-RPs in cell clusters with a radius lower than 0.1 mm and 10% of labeled cells, due to the higher amount of energy emitted by 161Tb-disintegration in form of IE and AE. However, the 161Tb-RPs/177Lu-RPs MDLC ratio decreased below 1.6 in larger cell clusters (0.5–1 mm) with > 40% labeled cells, due to the significantly higher 177Lu-RPs cross-irradiation contribution. Using a fixed number of disintegrations, SFs of 161Tb-RPs in clusters with > 40% labeled cells were lower than those of 177Lu-RPs, but when the same amount of emitted energy was used no significant differences in SF were observed between 177Lu- and 161Tb-RPs, except for the smallest cluster sizes. Conclusions: Despite the emissions of IE and AE from 161Tb-RPs, their localization within different subcellular regions exerted a negligible influence on the ADN. The same cell damage produced by 177Lu-RPs could be achieved using smaller quantities of 161Tb-RPs, thus making 161Tb a suitable alternative for TRT. [ABSTRACT FROM AUTHOR]

Published

2024

58. Back flux during anaerobic oxidation of butane support archaea-mediated alkanogenesis.

Author

Chen, Song-Can, Chen, Sheng, Musat, Niculina, Kümmel, Steffen, Ji, Jiaheng, Lund, Marie Braad, Gilbert, Alexis, Lechtenfeld, Oliver J., Richnow, Hans-Hermann, and Musat, Florin

Subjects

RADIOLABELING, GAS reservoirs, SEDIMENTARY basins, BIOGEOCHEMICAL cycles, NATURAL gas

Abstract

Microbial formation and oxidation of volatile alkanes in anoxic environments significantly impacts biogeochemical cycles on Earth. The discovery of archaea oxidizing volatile alkanes via deeply branching methyl-coenzyme M reductase variants, dubbed alkyl-CoM reductases (ACR), prompted the hypothesis of archaea-catalysed alkane formation in nature (alkanogenesis). A combination of metabolic modelling, anaerobic physiology assays, and isotope labeling of Candidatus Syntrophoarchaeum archaea catalyzing the anaerobic oxidation of butane (AOB) show a back flux of CO2 to butane, demonstrating reversibility of the entire AOB pathway. Back fluxes correlate with thermodynamics and kinetics of the archaeal catabolic system. AOB reversibility supports a biological formation of butane, and generally of higher volatile alkanes, helping to explain the presence of isotopically light alkanes and deeply branching ACR genes in sedimentary basins isolated from gas reservoirs. In this study, the authors use metabolic modelling and isotope labelling to show that archaea can reverse the anaerobic breakdown of butane, turning CO2 back into the gas, which could help explain how some natural gases form providing new insights into Earth's hidden microbial activities. [ABSTRACT FROM AUTHOR]

Published

2024

59. Dynamic Metal Exchange in Nanoclusters: Isotope Labeling Sheds Light on Cellular‐like Fusion Processes.

Author

Tang, Li, Wang, Bin, Han, Qikai, and Wang, Shuxin

Subjects

*RADIOLABELING, *ISOTOPE exchange reactions, *TRIPHENYLPHOSPHINE, *NANOSCIENCE, *METALS

Abstract

Grasping the behavior of metal nanoclusters in solution at the atomic level is a pinnacle challenge in nanoscience. In addressing this, our work utilizes the Ag13@Ag16(BDT)12(TPP)4 (Ag29) nanocluster (where BDT represents 1,3‐benzenedithiol, and TPP is triphenylphosphine) as a template. We employ isotopic layering labeling, such as a109 Ag13@107 Ag16 core ‐shell structure, to mark the clusters. Subsequently, we conduct reactions with clusters featuring two different layering structures. Finally, we employ isotopic labeling to replace Ag in the shell, followed by analysis using ESI‐MS, enabling us to discern the process of intercluster reactions. We observed that the reactions primarily involve metal exchanges between the cores of different clusters and separately between their shells, highlighting distinct patterns of atomic‐level exchanges within these structures. This study thus offers pivotal insights into the molecular‐level mechanisms of metal exchange between clusters, significantly contributing to the development of metal nanocluster design and synthesis. [ABSTRACT FROM AUTHOR]

Published

2024

60. Based proteomics analyses reveal response mechanisms of Apis mellifera (Hymenoptera: Apidae) against the heat stress.

Author

Li, Xinyu

Subjects

*APIDAE, *HEAT shock proteins, *RADIOLABELING, *HYMENOPTERA, *PROTEOMICS, *BEES, *HONEYBEES

Abstract

Heat stress can significantly affect the survival, metabolism, and reproduction of honeybees. It is important to understand the proteomic changes of honeybees under heat stress to understand the molecular mechanism behind heat resistance. However, the proteomic changes of honeybees under heat stress are poorly understood. We analyzed the proteomic changes of Apis mellifera Ligustica (Hymenoptera: Apidae) under heat stress using mass spectrometry-based proteomics with TMT (Tandem mass tags) stable isotope labeling. A total of 3,799 proteins were identified, 85 of which differentially abundance between experimental groups. The most significant categories affected by heat stress were associated with transcription and translation processes, metabolism, and stress-resistant pathways. We found that heat stress altered the protein profiles in A. mellifera , with momentous resist proteins being upregulated in heat groups. These results show a proof of molecular details that A. mellifera can respond to heat stress by increasing resist proteins. Our findings add research basis for studying the molecular mechanisms of honeybees' resistance to heat stress. The differentially expressed proteins identified in this study can be used as biomarkers of heat stress in bees, and provide a foundation for future research on honeybees under heat stress. Our in-depth proteomic analysis provides new insights into how bees cope with heat stress. [ABSTRACT FROM AUTHOR]

Published

2024

61. Integrated Transcriptomic and Proteomic Analysis of Nutritional Quality-Related Molecular Mechanisms in "Longjia", "Yangpao", and "Niangqing" Walnuts (Juglans sigillata).

Author

Wang, Hailang, Su, Yue, Hu, Xiang, Wu, Boxiao, Liu, Yun, Kan, Huan, and Cao, Changwei

Subjects

*PROTEOMICS, *AMINO acid metabolism, *RADIOLABELING, *RNA sequencing, *ENDOPLASMIC reticulum

Abstract

In this study, "Longjia (LJ)" and "Yangpao (YP)"exhibited higher contents of major nutrients compared to "Niangqing (NQ)" walnuts. The combination of transcriptome and proteome by RNA sequencing and isotope labeling for relative and absolute quantification techniques provides new insights into the molecular mechanisms underlying the nutritional quality of the three walnut species. A total of 4146 genes and 139 proteins showed differential expression levels in the three comparison groups. Combined transcriptome and proteome analyses revealed that these genes and proteins were mainly enriched in signaling pathways such as fatty acid biosynthesis, protein processing in endoplasmic reticulum, and amino acid metabolism, revealing their relationship with the nutritional quality of walnut kernels. This study identified key genes and proteins associated with nutrient metabolism and accumulation in walnut kernels, provided transcriptomic and proteomic information on the molecular mechanisms of nutrient differences in walnut kernels, and contributed to the elucidation of the mechanisms of nutrient differences and the selection and breeding of high-quality walnut seedlings. [ABSTRACT FROM AUTHOR]

Published

2024

62. 68Ge/68Ga composite CeO2-PAN generator: preparation, testing and use.

Author

Ondrák Fialová, Kateřina, Adámek, Kryštof, Kroftová, Kristýna, Vlk, Martin, Šebesta, Ferdinand, and Kozempel, Ján

Subjects

*CERIUM oxides, *RADIOLABELING, *RADIOISOTOPES, *CERIUM, *LEAKAGE

Abstract

This work is focused on the testing of a new 68Ge/68Ga radionuclide generator based on cerium dioxide in polyacrylonitrile beads. During an 18-month period, parameters of elution were monitored, and basic radiolabelling studies were carried out. As current commercial solutions deal with high elution volume and low long-term stability, the constructed system offers several improvements. The composite sorbent provides uniformity of active component dispersion and high capacity for 68Ge. It enables minimal elution volume without fractionation (up to 1.8 mL) and stability of 68Ge breakthrough (under 0.001%) after initial period of wash-out and low cerium leakage (under 5 ppm). [ABSTRACT FROM AUTHOR]

Published

2024

63. Random and site-specific radiolabeling of [89Zr]Zr-DFO-anti-PD-L1-mAb iPET tracer.

Author

Lin, Yi-Ching, Yang, Chao-Wei, Tsai, Shih-Chuan, Farn, Shiou-Shiow, Ou Yang, Fang-Yu, Lo, Wei-Lin, Chen, Liang-Cheng, Chen, Kuo-Ting, Weng, Mao-Chi, Kung, Jui-Yin, Qiu, Xin-Yu, Lu, Ching-Chun, and Huang, Feng-Yun J.

Subjects

*RADIOLABELING, *CELL death, *TOMOGRAPHY, *IMMUNOTHERAPY, *AUTOMOBILES

Abstract

Zirconium-89 radiolabeled immuno-positron emission tomography (89Zr-iPET) has become a critical tool for patient stratification before and after immunotherapies for therapeutic evaluation. In this study, random and site-specific radiolabeling of 89Zr-iPET tracers were investigated. Traditional lysine-based conjugation and enzyme-based GlyCLICK® kit method were used to prepare DFO-anti-PD-L1-mAb conjugates with a chelator-to-antibody ratio (CAR) of 0–7 and 2.0, respectively. Then, conjugates with different CAR levels were radiolabeled with 89Zr to obtain randomly or site-specifically radiolabeled 89Zr-iPET tracer. [ABSTRACT FROM AUTHOR]

Published

2024

64. Electrohydrogenation of Unsaturated Bonds Catalyzed by Earth‐Abundant Metal Complexes.

Author

Hua, Ying, Bi, Huihua, and Liu, Jie

Subjects

CATALYTIC hydrogenation, RADIOLABELING, UNSATURATED compounds, METAL complexes, HYDROGENATION

Abstract

Catalytic hydrogenation is one of the most important transformations in both academia and industry. Compared with direct hydrogenation with molecular hydrogen or transfer hydrogenations with hydrides, electrohydrogenation provides an alternative and practical pathway using proton as the hydrogen source. In this review, we have summarized the recent advances in electrohydrogenations of polar and non‐polar unsaturated compounds catalyzed by earth‐aubundant metal complexes. In addition, we also present a detailed discussion of the scope and limitations, plausible mechanisms and the opportunities for further development. [ABSTRACT FROM AUTHOR]

Published

2024

65. Comparative Proteomics of ccRCC Cell Lines to Identify Kidney Cancer Progression Factors.

Author

JUHEE PARK, HYUNCHAE SIM, EUN HYE LEE, BUM SOO KIM, JAE-WOOK CHUNG, YUN-SOK HA, TAE GYUN KWON, SANGKYU LEE, and JUN NYUNG LEE

Subjects

RENAL cell carcinoma, TANDEM mass spectrometry, RENAL cancer, RADIOLABELING, GENE expression

Abstract

Background/Aim: Clear cell renal cell carcinoma (ccRCC) is the most common type of kidney cancer, accounting for approximately 75% of kidney cancers. The objective of this study was to identify novel progression markers for ccRCC based on proteomics, with the goal of stage determination and early diagnosis of kidney cancer patients. Materials and Methods: We performed quantitative global proteomics coupled with Stable Isotope Labeling by Amino Acids in Cell Culture (SILAC) and high-resolution tandem mass spectrometry on kidney-derived cells, including HEK-293, 786-O (primary ccRCC), and Caki-1 (metastatic ccRCC) cells, to investigate the novel progression factors of ccRCC. Results: In this study, a total of 1,106 proteins were quantified. The Gene Ontology and Kyoto Encyclopedia of Genes and Genomes (KEGG) analyses were conducted for differentially expressed proteins (DEPs) that were increased in ccRCC cells compared to HEK-293 cells. Ultimately, 99 DEPs including 75 up-regulated and 24 down-regulated proteins, that were significantly altered in both ccRCC cells, were identified. Among DEPs, vimentin was identified as the most significantly changed protein. Its increased expression in ccRCC was verified through immunoblotting in ccRCC cell lines and immunohistochemistry in kidney tumors. Conclusion: From the global proteomics data detected in ccRCC, we propose 99 DEPs including vimentin as progression factors. [ABSTRACT FROM AUTHOR]

Published

2024

66. Optimization of the Use of the DOTATATE Kit Manufactured by the Thailand Institute of Nuclear Technology Using a SiO2-based 68Ge/68Ga Generator.

Author

Phattarayut Jaiuea, Somlak Kongmuang, Kanyapat Lumyong, Thanete Doungta, and Shuichi Shiratori

Subjects

RADIOCHEMICAL purification, NEUROENDOCRINE tumors, RADIOLABELING, RADIOACTIVITY, CLINICAL medicine

Abstract

Objective: The presence of somatostatin receptors on neuroendocrine tumours enables 68Ga-DOTATATE to precisely detect lesion localization and staging. Thailand Institute of Nuclear Technology (TINT) recently developed a DOTATATE kit for labelling with Ga-68, which is compatible with a TiO2-based 68Ge/68Ga generator eluted with 0.1 M HCl, but presents a discrepancy with other types of 68Ge/68Ga generators. This research aimed to optimize a radiolabelling method using TINT’s kit with a SiO2-based 68Ge/68Ga generator eluting Ga-68 in 0.05 M HCl. Additionally, a quality control protocol was developed to ensure the formulation’s efficacy and reliability in compliance with the 10th edition of the European Pharmacopoeia. Material and Methods: The SiO2-based 68Ge/68Ga generator was eluted with 2–4 ml of 0.05 M HCl, added into a lyophilized kit, heated in a dried-block heater at 100 ºC for 15 min, cooled down at room temperature, and finally purified using Sep-Pak C18 cartridge. The radiochemical purity was determined by radio thin-layer chromatography and the radioactivity was measured by a gamma well counter. Reproducibility and stability tests were conducted three times. Results: Employing 4 ml of eluted material, comprising the second and fifth millilitres of 68GaCl3, provided a radiochemical purity (RCP) exceeding 95% after purification. Also, 68Ga-DOTATATE remained stable in refrigerator for at least 4 half-lives. Conclusion: TINT’s DOTATATE kit can be successfully labelled with a SiO2-based 68Ge/68Ga generator, providing 68Ga-DOTATATE with an RCP > 95% for at least 4 half-lives when stored in refrigerator after production. This radiolabelling procedure is suitable for routine clinical application. [ABSTRACT FROM AUTHOR]

Published

2024

67. Radiosynthesis and in-vitro identification of a molecular probe 131I-FAPI targeting cancer-associated fibroblasts.

Author

Yaxin Tian, Yanghongyan Jiang, Ping Ma, Xiaowei Ma, Liang Du, Fengkui Wang, Xiaodong Yu, and Qian Zhao

Subjects

CELL migration, RADIOCHEMICAL purification, EPITHELIAL tumors, PANCREATIC cancer, RADIOLABELING, MOLECULAR probes

Abstract

Purpose: Fibroblast activation protein (FAP) is highly expressed in the mesenchyme of most malignant epithelial tumors, while its expression is low in normal tissues. FAP inhibitors (FAPIs) bind specifically to FAP and are used for tumor-targeted diagnosis and therapy. The aim of this study was to radiosynthesize a novel molecular probe 131I-FAPI and evaluate its in-vitro targeting and biological characteristics. Methods: The structurally modified FAPI was labelled with 131I through the chloramine-T method. The radiolabeling rate was then detected by thin-layer chromatography (TLC). The stability of 131I-FAPI was determined at PBS (room temperature) and serum (37°C). Its hydrophilicity was calculated by measuring its lipid-water partition coefficient. Pancreatic cancer PANC-1 cell line and glioma U87 cell line were cultured in vitro. Cell uptake assay was used to show the binding ability of 131I-FAPI. The CCK-8 assay was used to calculate the inhibitory effects of 131I-FAPI at different time points (4h, 8h, 12h, 24h, 48h) after comparing with the 131I and FAPI. The before-and-after-24h scratch areas of the two cells were determined in order to verify the effect of 131I-FAPI on the migration ability of the cells. Results: The radiolabeling rate was (84.9 ± 1.02) %. The radiochemical purity of 131I-FAPI remained over 80% in both 25°C PBS and 37°C serum. The value of the lipid-water partition coefficient was -0.869 ± 0.025, indicating the hydrophilic of the probe. The cellular uptake assay showed that U87 cells had a specific binding capacity for 131I-FAPI. In cell inhibition assays, the inhibitory effect of 131I-FAPI on U87 cells increased with time. The results of cell scratch assay showed that 131IFAPI had the strongest inhibitory effect on the migratory ability of U87 cells compared with 131I and FAPI (P<0.001). Conclusion: 131I-FAPI was synthesized with good in-vitro stability and hydrophilic properties. It can be specifically bound by U87 cells. The proliferation and migration of U87 cells can be effectively inhibited. 131I-FAPI is promising to become a therapeutic probe. [ABSTRACT FROM AUTHOR]

Published

2024

68. Optimized method for fluorine-18 radiolabeling of Affibody molecules using RESCA.

Author

Lechi, Francesco, Eriksson, Jonas, Odell, Luke R., Wegrzyniak, Olivia, Löfblom, John, Frejd, Fredrik Y., Zhang, Bo, and Eriksson, Olof

Subjects

*POSITRON emission tomography, *RADIOLABELING, *PEPTIDES, *SALINE solutions, *RADIOCHEMISTRY

Abstract

Background: In recent years, the interest in Al[18F]F as a labeling agent for Positron Emission Tomography (PET) radiotracers has risen, as it allows for fast and efficient fluorine-18 labeling by harnessing chelation chemistry. The introduction of Restrained Complexing Agent (RESCA) as a chelator has also shown that chelator-based radiolabeling reactions can be performed in mild conditions, making the radiolabeling process attractively more facile than most conventional radiofluorination methods. The aim of the study was to establish optimized conditions for Al[18F]F labeling of Affibody molecules using RESCA as a complexing agent, using Z09591 and Z0185, two Affibody proteins targeting PDGFRβ and TNFα, respectively, as model compounds. Results: The Al[18F]F labeling of RESCA-conjugated Z09591 was tested at different temperatures (rt to 60 °C) and with varying reaction times (12 to 60 min), and optimal conditions were then implemented on RESCA-Z0185. The optimized synthesis method was: 1.5–2.5 GBq of cyclotron produced fluorine-18 were trapped on a QMA cartridge and eluted with saline solution to react with 12 nmol of AlCl3 and form Al[18F]F. The respective RESCA-conjugated Affibody molecule (14 nmol) in NaOAc solution was added to the Al[18F]F solution and left to react at 60 °C for 12 min. The mixture was purified on a NAP5 size exclusion column and then analyzed by HPLC. The entire process took approximately 35 min, was highly reproducible, indicating the efficiency and reliability of the method. The labeled compounds demonstrated retained biological function for their respective targets after purification. Conclusions: We present a general and optimized method for Al[18F]F labeling of RESCA-conjugated Affibody molecules, which can be widely applied to this class of peptide-based imaging agents. Moreover, radiochemical yields were improved when the labeling was conducted at 37 °C or above. In vitro and in vivo assessment of the respective tracers was promising, showing retained binding capacity as well as moderate defluorination, which is usually regarded as a potential downside for RESCA-conjugated tracers. [ABSTRACT FROM AUTHOR]

Published

2024

69. One N-glycan regulates natural killer cell antibody-dependent cell-mediated cytotoxicity and modulates Fc γ receptor IIIa/CD16a structure.

Author

Kremer, Paul G., Lampros, Elizabeth A., Blocker, Allison M., and Barb, Adam W.

Subjects

*ANTIBODY-dependent cell cytotoxicity, *KILLER cells, *AMINO acid residues, *IMMUNE response, *RADIOLABELING, *FC receptors

Abstract

Both endogenous antibodies and a subset of antibody therapeutics engage Fc gamma receptor (FcγR)IIIa/CD16a to stimulate a protective immune response. Increasing the FcγRIIIa/IgG1 interaction improves the immune response and thus represents a strategy to improve therapeutic efficacy. FcγRIIIa is a heavily glycosylated receptor and glycan composition affects antibody-binding affinity. Though our laboratory previously demonstrated that natural killer (NK) cell N-glycan composition affected the potency of one key protective mechanism, antibody-dependent cell-mediated cytotoxicity (ADCC), it was unclear if this effect was due to FcγRIIIa glycosylation. Furthermore, the structural mechanism linking glycan composition to affinity and cellular activation remained undescribed. To define the role of individual amino acid and N-glycan residues, we measured affinity using multiple FcγRIIIa glycoforms. We observed stepwise affinity increases with each glycan truncation step, with the most severely truncated glycoform displaying the highest affinity. Removing the N162 glycan demonstrated its predominant role in regulating antibody-binding affinity, in contrast to four other FcγRIIIa N-glycans. We next evaluated the impact of the N162 glycan on NK cell ADCC. NK cells expressing the FcγRIIIa V158 allotype exhibited increased ADCC following kifunensine treatment to limit N-glycan processing. Notably, an increase was not observed with cells expressing the FcγRIIIa V158 S164A variant that lacks N162 glycosylation, indicating that the N162 glycan is required for increased NK cell ADCC. To gain structural insight into the mechanisms of N162 regulation, we applied a novel protein isotope labeling approach in combination with solution NMR spectroscopy. FG loop residues proximal to the N162 glycosylation site showed large chemical shift perturbations following glycan truncation. These data support a model for the regulation of FcγRIIIa affinity and NK cell ADCC whereby composition of the N162 glycan stabilizes the FG loop and thus the antibody-binding site. [ABSTRACT FROM AUTHOR]

Published

2024

70. Hydrogen isotope labeling unravels origin of soil-bound organic contaminant residues in biodegradability testing.

Author

Lennartz, Sophie, Byrne, Harriet A., Kümmel, Steffen, Krauss, Martin, and Nowak, Karolina M.

Subjects

HYDROGEN isotopes, RADIOLABELING, SOIL testing, ORGANIC compounds, CHEMICAL amplification, TRITIUM, DEUTERIUM

Abstract

Biodegradability testing in soil helps to identify safe synthetic organic chemicals but is still obscured by the formation of soil-bound 'non-extractable' residues (NERs). Present-day methodologies using radiocarbon or stable (13C, 15N) isotope labeling cannot easily differentiate soil-bound parent chemicals or transformation products (xenoNERs) from harmless soil-bound biomolecules of microbial degraders (bioNERs). Hypothesizing a minimal retention of hydrogen in biomolecules, we here apply stable hydrogen isotope – deuterium (D) – labeling to unravel the origin of NERs. Soil biodegradation tests with D- and 13C-labeled 2,4-D, glyphosate and sulfamethoxazole reveal consistently lower proportions of applied D than 13C in total NERs and in amino acids, a quantitative biomarker for bioNERs. Soil-bound D thus mostly represents xenoNERs and not bioNERs, enabling an efficient quantification of xenoNERs by just measuring the total bound D. D or tritium (T) labeling could thus improve the value of biodegradability testing results for diverse organic chemicals forming soil-bound residues. Non-extractable residues formation limits biodegradability testing in soil. Here, the authors show that hydrogen isotope tracers are hardly retained in microbial biomass, enabling an efficient distinction between biogenic and xenobiotic residues. [ABSTRACT FROM AUTHOR]

Published

2024

71. Insights into ubiquitinome dynamics in the host‒pathogen interplay during Francisella novicida infection.

Author

Yang, Luyu, Li, Yanfeng, Xie, Qingqing, Xu, Tao, and Qi, Xiaopeng

Subjects

*POST-translational modification, *TYPE I interferons, *RADIOLABELING, *STABLE isotopes, *CELL death

Abstract

Ubiquitination functions as an important posttranslational modification for orchestrating inflammatory immune responses and cell death during pathogenic infection. The ubiquitination machinery is a major target hijacked by pathogenic bacteria to promote their survival and proliferation. Type I interferon (IFN-I) plays detrimental roles in host defense against Francisella novicida (F. novicida) infection. The effects of IFN-I on the ubiquitination of host proteins during F. novicida infection remain unclear. Herein, we delineate the dynamic ubiquitinome alterations in both wild-type (WT) and interferon-alpha receptor-deficient (Ifnar–/–) primary bone marrow-derived macrophages (BMDMs) during F. novicida infection. Using diGly proteomics and stable isotope labeling (SILAC), we quantified ubiquitination sites in proteins from primary WT and Ifnar–/– BMDMs with and without F. novicida infection. Our mass spectrometry analysis identified 2,491 ubiquitination sites in 1,077 endogenous proteins. Our study revealed that F. novicida infection induces dynamic changes in the ubiquitination of proteins involved in the cell death, phagocytosis, and inflammatory response pathways. IFN-I signaling is essential for both the increase and reduction in ubiquitination in response to F. novicida infection. We identified IFN-I-dependent ubiquitination in proteins involved in glycolysis and vesicle transport processes and highlighted key hub proteins modified by ubiquitination within cell death pathways. These findings underscore the significant influence of IFN-I signaling on modulating ubiquitination during F. novicida infection and provide valuable insights into the complex interplay between the host and F. novicida. [ABSTRACT FROM AUTHOR]

Published

2024

72. CDS2 expression regulates de novo phosphatidic acid synthesis.

Author

Collins, Daniel M., Janardan, Vishnu, Barneda, David, Anderson, Karen E., Niewczas, Izabella, Taylor, Diane, Qiu, Danye, Jessen, Henning J., Lopez-Clavijo, Andrea F., Walker, Simon, Raghu, Padinjat, Clark, Jonathan, Stephens, Len R., and Hawkins, Phillip T.

Subjects

*PHOSPHATIDIC acids, *RADIOLABELING, *LIPID metabolism, *STABLE isotopes, *LIPIDS

Abstract

CDS enzymes (CDS1 and 2 in mammals) convert phosphatidic acid (PA) to CDP-DG, an essential intermediate in the de novo synthesis of PI. Genetic deletion of CDS2 in primary mouse macrophages resulted in only modest changes in the steady-state levels of major phospholipid species, including PI, but substantial increases in several species of PA, CDP-DG, DG and TG. Stable isotope labelling experiments employing both 13C6- and 13C6D7-glucose revealed loss of CDS2 resulted in a minimal reduction in the rate of de novo PI synthesis but a substantial increase in the rate of de novo PA synthesis from G3P, derived from DHAP via glycolysis. This increased synthesis of PA provides a potential explanation for normal basal PI synthesis in the face of reduced CDS capacity (via increased provision of substrate to CDS1) and increased synthesis of DG and TG (via increased provision of substrate to LIPINs). However, under conditions of sustained GPCR-stimulation of PLC, CDS2-deficient macrophages were unable to maintain enhanced rates of PI synthesis via the 'PI cycle', leading to a substantial loss of PI. CDS2-deficient macrophages also exhibited significant defects in calcium homeostasis which were unrelated to the activation of PLC and thus probably an indirect effect of increased basal PA. These experiments reveal that an important homeostatic response in mammalian cells to a reduction in CDS capacity is increased de novo synthesis of PA, likely related to maintaining normal levels of PI, and provides a new interpretation of previous work describing pleiotropic effects of CDS2 deletion on lipid metabolism/signalling. [ABSTRACT FROM AUTHOR]

Published

2024

73. A Chemoselective Enrichment Strategy for In‐Depth Coverage of the Methyllysine Proteome.

Author

Yan, Lufeng, Zheng, Manqian, Fan, Mingzhu, Yao, Rui, Zou, Kun, Feng, Shan, and Wu, Mingxuan

Subjects

*POST-translational modification, *DIAZONIUM compounds, *RADIOLABELING, *AFFINITY chromatography, *COVALENT bonds

Abstract

Proteomics is a powerful method to comprehensively understand cellular posttranslational modifications (PTMs). Owing to low abundance, tryptic peptides with PTMs are usually enriched for enhanced coverage by liquid chromatography‐mass spectrometry/mass spectrometry (LC–MS/MS). Affinity chromatography for phosphoproteomes by metal‐oxide and pan‐specific antibodies for lysine acetylome allow identification of tens of thousands of modification sites. Lysine methylation is a significant PTM; however, only hundreds of methylation sites were identified by available approaches. Herein we report an aryl diazonium based chemoselective strategy that enables enrichment of monomethyllysine (Kme1) peptides through covalent bonds with extraordinary sensitivity. We identified more than 10000 Kme1 peptides from diverse cell lines and mouse tissues, which implied a wide lysine methylation impact on cellular processes. Furthermore, we found a significant amount of methyl marks that were not S‐adenosyl methionine (SAM)‐dependent by isotope labeling experiments. [ABSTRACT FROM AUTHOR]

Published

2024

74. Astatine-211 radiolabelling chemistry: from basics to advanced biological applications.

Author

Vanermen, Maarten, Ligeour, Mathilde, Oliveira, Maria-Cristina, Gestin, Jean-François, Elvas, Filipe, Navarro, Laurent, and Guérard, François

Subjects

*SMALL molecules, *RADIOLABELING, *MOIETIES (Chemistry), *CANCER treatment, *PEPTIDES

Abstract

Background: 211At-radiopharmaceuticals are currently the subject of growing studies for targeted alpha therapy of cancers, which leads to the widening of the scope of the targeting vectors, from small molecules to peptides and proteins. This has prompted, during the past decade, to a renewed interest in developing novel 211At-labelling approaches and novel prosthetic groups to address the diverse scenarios and to reach improved efficiency and robustness of procedures as well as an appropriate in vivo stability of the label. Main body: Translated from the well-known (radio)iodine chemistry, the long preferred electrophilic astatodemetallation using trialkylaryltin precursors is now complemented by new approaches using electrophilic or nucleophilic At. Alternatives to the astatoaryl moiety have been proposed to improve labelling stability, and the range of prosthetic groups available to label proteins has expanded. Conclusion: In this report, we cover the evolution of radiolabelling chemistry, from the initial strategies developed in the late 1970's to the most recent findings. [ABSTRACT FROM AUTHOR]

Published

2024

75. Hydrogen‐Bonded Complexes of HPN⋅ and HNP⋅ Radicals with Carbon Monoxide.

Author

Jiang, Junjie, Huang, Longtian, Zhu, Bifeng, Fan, Wenbin, Wang, Lina, Zhang, Igor Ying, Fang, Wei, Trabelsi, Tarek, Francisco, Joseph S., and Zeng, Xiaoqing

Subjects

*QUANTUM tunneling, *MATRIX isolation, *RADICALS (Chemistry), *RADIOLABELING, *CARBON monoxide

Abstract

Phosphorus mononitride (PN) is a carrier of phosphorus in the interstellar medium. As the simplest derivatives of PN, the radical species HPN⋅ and HNP⋅ have remained elusive. Herein, we report the generation, characterization, and photochemistry of HPN⋅ and HNP⋅ in N2‐matrix at 3 K. Specifically, HPN⋅ was formed as a weakly bonded complex with CO in the matrix by 254 nm photolysis of the novel phosphinyl radical HPNCO⋅. The ⋅NPH−CO complex is extremely unstable, as it undergoes spontaneous isomerization to the lower‐energy isomer ⋅PNH−CO through fast quantum mechanical tunneling (QMT) with a half‐life of 6.1 min at 3 K. Upon further irradiation at 254 nm, the reverse conversion of ⋅PNH−CO to ⋅NPH−CO along with dehydrogenation to yield PN was observed. The characterization ⋅NPH−CO and ⋅PNH−CO with matrix‐isolation IR spectroscopy is supported by D, 15N, and 13C isotope labeling and quantum chemical calculations at the XYGJ‐OS/AVTZ level of theory, and the mechanism by hydrogen atom tunneling is consistent with multidimensional instanton theory calculations. [ABSTRACT FROM AUTHOR]

Published

2024

76. Rapid Concentration of Ga-68 and Proof-of-Concept Microscale Labeling of [ 68 Ga]Ga-PSMA-11 in a Droplet Reactor.

Author

Lu, Yingqing, Chao, Philip H., Collins, Jeffrey, and van Dam, R. Michael

Subjects

*RADIOCHEMICAL purification, *RADIOLABELING, *CANCER diagnosis, *PROOF of concept, *TOMOGRAPHY, *RADIOACTIVE tracers, *MICROFLUIDIC devices

Abstract

The radiometal gallium-68 (Ga-68) has garnered significant interest due to its convenient production via compact and widely available generators and the high performance of 68Ga-labeled compounds for positron-emission tomography (PET) imaging for cancer diagnosis and management of patients undergoing targeted radionuclide therapy. Given the short half life of Ga-68 (68 min), microfluidic-based radiosynthesis is a promising avenue to establish very rapid, efficient, and routine radiolabeling with Ga-68; however, the typical elution volume of Ga-68 from a generator (4–10 mL) is incompatible with the microliter reaction volumes of microfluidic devices. To bridge this gap, we developed a microscale cartridge-based approach to concentrate Ga-68. By optimizing cartridge design, resin type, resin mass, and eluent composition, Ga-68 was reliably concentrated from ~6 mL to ~80 µL with high recovery efficiency (>97%, n = 14). Furthermore, this method is suitable for both single- and dual-generator setups. To demonstrate suitability of the concentrated radiometal for radiolabeling, we performed microdroplet synthesis of [68Ga]Ga-PSMA-11, achieving high radiochemical yield (83 ± 11%, n = 3), excellent radiochemical purity (>99%), and high apparent specific activity (255–320 MBq/μg). The entire process, including Ga-68 concentration, radiosynthesis, purification, and formulation, was completed in 12 min. Starting with activity of 0.81–0.84 GBq, 0.51–0.64 GBq of product was produced, sufficient for multiple patient doses. This work paves the way to clinical-scale production of other 68Ga-labeled compounds using droplet microreactor methods, or high-throughput labeling optimization or compound screening of 68Ga-labeled probes using droplet reaction arrays. [ABSTRACT FROM AUTHOR]

Published

2024

77. Innovative Peptide Bioconjugation Chemistry with Radionuclides: Beyond Classical Click Chemistry.

Author

Leier, Samantha and Wuest, Frank

Subjects

*RADIOLABELING, *PEPTIDES, *RADIOCHEMISTRY, *COPPER, *RADIOISOTOPES, *CLICK chemistry

Abstract

Background: The incorporation of radionuclides into peptides and larger biomolecules requires efficient and sometimes biorthogonal reaction conditions, to which click chemistry provides a convenient approach. Methods: Traditionally, click-based radiolabeling techniques have focused on classical click chemistry, such as copper(I)-catalyzed alkyne-azide [3+2] cycloaddition (CuAAC), strain-promoted azide-alkyne [3+2] cycloaddition (SPAAC), traceless Staudinger ligation, and inverse electron demand Diels–Alder (IEDDA). Results: However, newly emerging click-based radiolabeling techniques, including tyrosine-click, sulfo-click, sulfur(VI) fluoride exchange (SuFEx), thiol-ene click, azo coupling, hydrazone formations, oxime formations, and RIKEN click offer valuable alternatives to classical click chemistry. Conclusions: This review will discuss the applications of these techniques in peptide radiochemistry. [ABSTRACT FROM AUTHOR]

Published

2024

78. Decoupling Analysis of Ignition Processes of Ammonia/N-Heptane Mixtures.

Author

Li, Zheng, Zhang, Yilin, Li, Jingrui, Xu, Changchun, Wen, Huabing, Shen, Jianhua, Jing, Haiguo, Liu, Haifeng, Wang, Xinyan, and Zhao, Hua

Subjects

*RADIOLABELING, *RADICALS (Chemistry), *LOW temperatures, *AMMONIA, *SENSITIVITY analysis

Abstract

To further understand the influence of n-heptane on the ignition process of ammonia, an isotope labeling method was applied in the current investigation to decouple the influence of the chemical effect, the thermal effect, and the effect of O radical from the oxidation of n-heptane on the ignition delay times (IDTs) of ammonia. An analysis of the time evolution of fuel, analysis of the time evolution of temperature, rate of consumption and production (ROP) analysis, and sensitivity analysis were conducted to gain a further understanding of the mechanism of the influence of the chemical effect, the thermal effect, and the effect of O radical on the ignition of ammonia. The results showed that the negative temperature coefficient (NTC) behavior of n-heptane is mitigated by the blending of ammonia, and this mitigated effect of ammonia is mainly due to the chemical effect. The IDTs of ammonia under low and medium temperatures are significantly shortened by the chemical effect at a n-heptane mass fraction of 10%. The promoting effect of the chemical effect decreases when the n-heptane mass fraction increases. The time evolution of n-heptane for NC7H16/ND3-G can be classified into three stages at 800 K, and the rapid consumption stage is mitigated by an increase in temperature. The rapid consumption stage is suppressed by the chemical effect of ammonia, while O radical has a promoting effect on the rapid consumption stage. The chemical effect will enhance the sensitivities of reactions associated with ammonia. As the n-heptane mass fraction increases, the sensitivities of reactions associated with n-heptane are enhanced. Correspondingly, the effect of reactions associated with ammonia is weakened. When the n-heptane mass fraction is 30%, only reactions related to n-heptane have a great influence on the ignition of ammonia/n-heptane fuel blends under the thermal effect + the effect of O radical or only the thermal effect. [ABSTRACT FROM AUTHOR]

Published

2024

79. Surfactant Phospholipid Kinetics in Ventilated Children after Therapeutic Surfactant Supplementation.

Author

Goss, Victoria M., Dushianthan, Ahilanandan, McCorkell, Jenni, Morton, Katy, Goss, Kevin C. W., Marsh, Michael J., Pappachan, John V., and Postle, Anthony D.

Subjects

*CHILD patients, *PEDIATRIC intensive care, *RADIOLABELING, *ARTIFICIAL respiration, *STABLE isotopes

Abstract

Acute lung Injury leads to alterations in surfactant lipid composition and metabolism. Although several mechanisms contribute to dysregulated surfactant metabolism, studies investigating in vivo surfactant metabolism are limited. The aim of this study is to characterise surfactant phospholipid composition and flux utilising a stable isotope labelling technique in mechanically ventilated paediatric patients. Paediatric patients (<16 years of age) received 3.6 mg/kg intravenous methyl-D9-choline chloride followed by the endotracheal instillation of 100 mg/kg of exogenous surfactant after 24 h. Bronchioalveolar fluid samples were taken at baseline and 12, 24, 36, 48, 72 and 96 h after methyl-D9-choline infusion. Nine participants (median age of 48 days) were recruited. The primary phosphatidylcholine (PC) composition consisted of PC16:0/16:0 or DPPC (32.0 ± 4.5%). Surfactant supplementation resulted in a 30% increase in DPPC. Methyl-D9 PC enrichment was detected after 12 h and differed significantly between patients, suggesting variability in surfactant synthesis/secretion by the CDP-choline pathway. Peak enrichment was achieved (0.94 ± 0.15% of total PC) at 24 h after methyl-D9-choline infusion. There was a trend towards reduced enrichment with the duration of mechanical ventilation prior to study recruitment; however, this was not statistically significant (p = 0.19). In this study, we demonstrated the fractional molecular composition and turnover of surfactant phospholipids, which was highly variable between patients. [ABSTRACT FROM AUTHOR]

Published

2024

80. A synthesis of [3H] cocaine at high specific activity.

Author

Filer, Crist N.

Subjects

*RADIOCHEMICAL purification, *DOPAMINE receptors, *TRITIUM, *RADIOLABELING, *COCAINE

Abstract

An efficient procedure is described to tritiate cocaine at high specific activity. Several tritium labelling methods were considered and evaluated against the goals of a robust synthesis employing a stable precursor, providing high radiochemical purity and specific activity [3H] cocaine of reasonable stability. Ultimately, the tritium dechlorination of a 3, 4-dichlorobenzoyl cocaine precursor became the radiolabelling method of choice. Experimental details are provided for the dichloro precursor preparation, tritium labelling as well as impure [3H] cocaine repurification. [ABSTRACT FROM AUTHOR]

Published

2024

81. Development of 52Mn Labeled Trastuzumab for Extended Time Point PET Imaging of HER2.

Author

Omweri, James M., Saini, Shefali, Houson, Hailey A., Tekin, Volkan, Pyles, Jennifer M., Parker, Candace C., and Lapi, Suzanne E.

Subjects

*POSITRON emission tomography, *BISPECIFIC antibodies, *RADIOCHEMICAL purification, *BLOOD circulation, *COMPUTED tomography

Abstract

Purpose: Due to their long circulation time in the blood, monoclonal antibodies (mAbs) such as trastuzumab, are usually radiolabeled with long-lived positron emitters for the development of agents for Positron Emission Tomography (PET) imaging. Manganese-52 (52Mn, t1/2 = 5.6 d, β+ = 29.6%, E(βave) = 242 keV) is suitable for imaging at longer time points providing a complementary technique to Zirconium-89 (89Zr, t1/2 = 3.3 d, β+ = 22.7%, E(βave) = 396 keV)) because of its long half-life and low positron energy. To exploit these properties, we aimed to investigate suitable bifunctional chelators that could be readily conjugated to antibodies and labeled with 52Mn under mild conditions using trastuzumab as a proof-of-concept. Procedures: Trastuzumab was incubated with S-2-(4-isothiocyanatobenzyl)-1,4,7,10-tetraazacyclododecane tetraacetic acid (p-SCN-Bn-DOTA), 1-Oxa-4,7,10-tetraazacyclododecane-5-S-(4-isothiocyantobenzyl)-4,7,10-triacetic acid (p-SCN-Bn-Oxo-DO3A), and 3,6,9,15-tetraazabicyclo[9.3.1] pentadeca-1(15),11,13-triene-4-S-(4-isothiocyanatobenzyl)-3,6,9-triacetic acid (p-SCN-Bn-PCTA) at a tenfold molar excess. The immunoconjugates were purified, combined with [52Mn]MnCl2 at different ratios, and the labeling efficiency was assessed by iTLC. The immunoreactive fraction of the radiocomplex was determined through a Lindmo assay. Cell studies were conducted in HER2 + (BT474) and HER2- (MDA-MB-468) cell lines followed by in vivo studies. Results: Trastuzumab-Oxo-DO3A was labeled within 30 min at 37 °C with a radiochemical yield (RCY) of 90 ± 1.5% and with the highest specific activity of the chelators investigated of 16.64 MBq/nmol. The labeled compound was purified with a resulting radiochemical purity of > 98% and retained a 67 ± 1.2% immunoreactivity. DOTA and PCTA immunoconjugates resulted in < 50 ± 2.5% (RCY) with similar specific activity. Mouse serum stability studies of [52Mn]Mn-Oxo-DO3A-trastuzumab showed 95% intact complex for over 5 days. Cell uptake studies showed higher uptake in HER2 + (12.51 ± 0.83% /mg) cells compared to HER2- (0.85 ± 0.10%/mg) cells. PET images of mice bearing BT474 tumors showed high tumor uptake that was consistent with the biodistribution (42.02 ± 2.16%ID/g, 14 d) compared to MDA-MB-468 tumors (2.20 ± 0.80%ID/g, 14 d). Additionally, both models exhibited low bone uptake of < 1% ID/g. Conclusion: The bifunctional chelator p-SCN-Bn-Oxo-DO3A is promising for the development of 52Mn radiopharmaceuticals as it was easily conjugated, radiolabeled at mild conditions, and illustrated stability for a prolonged duration both in vitro and in vivo. High-quality PET/CT images of [52Mn]Mn-Oxo-DO3A-trastuzumab were obtained 14 d post-injection. This study illustrates the potential of [52Mn]Mn-Oxo-DO3A for the evaluation of antibodies using PET imaging. [ABSTRACT FROM AUTHOR]

Published

2024

82. Parasitic plants regulate C and N distribution among common mycorrhizal networks linking host and neighboring plants.

Author

Yuan, Yongge, Han, Cheng, Wang, Jiani, and Li, Junmin

Subjects

*PARASITIC plants, *RED clover, *RADIOLABELING, *HOST plants, *NYLON

Abstract

Common mycorrhizal networks (CMNs) can link multiple plants and distribute nutrients among them. However, how parasitic plants regulate the carbon and nutrient exchange between CMNs and the linked plants is unknown. Thus, we conducted a container experiment with two Trifolium pratense grown in two plastic cores and connected only by CMNs using a 25‐μm nylon fabric in each container. Host T. pratense was parasitized or not parasitized by Cuscuta gronovii. CMNs were left intact or broken by rotating the cores with the host or neighboring T. pratense. The dual 15N and 13C labeling method was used to evaluate the N distributed by CMNs to the host and neighboring T. pratense and the recently fixed C from the host and neighboring T. pratense to CMNs. The results showed that CMNs distributed more 15N to unparasitized neighboring T. pratense than the parasitized host T. pratense. Moreover, the unparasitized neighboring T. pratense provides more recently fixed C to CMNs than the parasitized host T. pratense. These results revealed that the parasite regulated C and nutrient exchange between CMNs and the linked plants following the reciprocal rewards rule. Moreover, this study highlights the importance of parasitic plants in the regulation of mutualistic interactions in ecological webs. [ABSTRACT FROM AUTHOR]

Published

2024

83. Coordinated metabolic adaptation of Arabidopsis thaliana to high light.

Author

Balcke, Gerd Ulrich, Vahabi, Khabat, Giese, Jonas, Finkemeier, Iris, and Tissier, Alain

Subjects

*ARABIDOPSIS thaliana, *STABLE isotope analysis, *RADIOLABELING, *TRANSCRIPTOMES, *CONTENT analysis

Abstract

Significance Statement: This work analyses multi‐omics and stable isotope labeling data and provides a comprehensive overview on C3‐plant acclimation to high light. We show that Arabidopsis thaliana in abscene of a clockwise TCA cycle accumulates large amounts of C4 acids in vacuoles, which form a secondary pool of reduced carbon that exceeds the plastidic accumulation of carbon in form of starch. [ABSTRACT FROM AUTHOR]

Published

2024

84. A Brief Review of Radiolabelling Nucleic Acid‐Based Molecules for Tracking and Monitoring.

Author

Edelmann, Martin R., Sladojevich, Filippo, Husbands, Stephen M., Otteneder, Michael B., and Blagbrough, Ian S.

Subjects

*POSITRON emission tomography computed tomography, *MOLECULAR structure, *RADIOLABELING, *CHELATING agents, *TRITIUM

Abstract

The rise of nucleic acid‐based therapeutics continues apace. At the same time, the need for radiolabelled oligonucleotides for determination of spatial distribution is increasing. Complex molecular structures with mostly multiple charges and low solubility in organic solvents increase the challenge of integrating radionuclides. In preclinical research, it is important to understand the fate of new drug candidates in biodistribution studies, target binding or biotransformation studies. Depending on a specific question, the selection of a respective radiolabelling strategy is crucial. Radiometals for molecular imaging with positron emission tomography or single‐photon computed tomography generally require an attached chelating agent for stable complexation of the metal with the oligonucleotide, whereas labelling using carbon‐11/‐14 or tritium allows incorporation of the radioisotope into the native structure without altering it. Moreover, the suitability of direct radiolabelling of the oligonucleotide of interest or indirect radiolabelling, for example, by a two‐step pretargeting approach, for the study design requires consideration. This review focuses on the challenges of radiolabelling nucleic acid‐based molecules with beta‐plus, gamma and beta‐minus emitters and their use for tracking and monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

85. Next Generation of Solid Target Radionuclide Antibody Conjugates for Tumor Immuno‐Therapy.

Author

Hou, Xingguo, Kong, Xiangxing, Yao, Yuan, Liu, Song, Ren, Ya'nan, Hu, Muye, Wang, Zilei, Zhu, Hua, and Yang, Zhi

Subjects

*IMMUNE checkpoint proteins, *POSITRON emission tomography, *IMMUNITY, *RADIOLABELING, *LYMPHOCYTE transformation

Abstract

Immune checkpoint therapy has emerged as an effective treatment option for various types of cancers. Key immune checkpoint molecules, such as cytotoxic T‐lymphocyte‐associated protein 4 (CTLA‐4), programmed cell death protein 1 (PD‐1), and lymphocyte activation gene 3 (LAG‐3), have become pivotal targets in cancer immunotherapy. Antibodies designed to inhibit these molecules have demonstrated significant clinical efficacy. Nevertheless, the ability to monitor changes in the immune status of tumors and predict treatment response remains limited. Conventional methods, such as assessing lymphocytes in peripheral blood or conducting tumor biopsies, are inadequate for providing real‐time, spatial information about T‐cell distributions within heterogeneous tumors. Positron emission tomography (PET) using T‐cell specific probes represents a promising and noninvasive approach to monitor both systemic and intratumoral immune changes during treatment. This technique holds substantial clinical significance and potential utility. In this paper, we review the applications of PET probes that target immune cells in molecular imaging. [ABSTRACT FROM AUTHOR]

Published

2024

86. Alisertib'in İyot-123 ile Radyoişaretlenme Potansiyelinin Araştırılması: Aurora A Kinaz İnhibitörünün Görüntülenme Potansiyelinin Değerlendirilmesi.

Author

UYGUR, Emre, SEZGİN, Ceren, YILDIZ AKDAĞ, Berna, ÖZBEY, Taylan, PARLAK, Yasemin, KARATAY, Kadriye Büşra, GÜMÜŞER, Fikriye Gül, and MÜFTÜLER, Fazilet Zümrüt BİBER

Subjects

AURORA kinases, MOLECULAR structure, THIN layer chromatography, PROTON magnetic resonance, X-ray crystallography technique

Abstract

Copyright of Afyon Kocatepe University Journal of Science & Engineering / Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi is the property of Afyon Kocatepe University, Faculty of Science & Literature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

87. Synthesis of isotope‐substituted conjugated ladder polymers.

Author

Leng, Mingwan, Cao, Zhiqiang, Ma, Guorong, Cao, Yirui, Hays, Megan, Gu, Xiaodan, and Fang, Lei

Subjects

SCATTERING (Physics), NEUTRON scattering, RADIOLABELING, DEUTERATION, MACROMOLECULES, CONJUGATED polymers

Abstract

Conjugated ladder polymers (cLPs) represent an intriguing class of macromolecules, characterized by their multi‐stranded structure, with continuous fused π‐conjugated rings forming the backbone. Isotope substitution, such as deuteration and carbon‐13 labeling, offers unique approaches to address the significant challenges associated with elucidating the structure and solution phase dynamics of these polymers. For instance, selective deuteration can highlight parts of the polymer by controlling the scattering length density of specific molecular sections, thereby enhancing the contrast for neutron scattering experiments. In this context, deuteration of side‐chains in cLPs represents a promising approach to uncover the elusive polymer physics properties of their backbone. The synthesis of two distinct types of cLPs with perdeuterated side‐chains are reported here. During the synthesis, 13C isotope labeling was also employed to verify the low levels of defects in the synthesized polymers. Demonstrating these synthetic successes lays the foundation for rigorous characterization of the defects, conformation, and dynamics of cLPs. [ABSTRACT FROM AUTHOR]

Published

2024

88. Stabilization of nitrite in the presence of the nitrification inhibitor allylthiourea (ATU) in freshwater nitrification rate measurements.

Author

Bosviel, Jade, Kitzinger, Katharina, and Pester, Michael

Subjects

NITRIFICATION inhibitors, RADIOLABELING, NITRIFICATION, FRESH water, LIMNOLOGY

Abstract

Nitrification rate measurements provide critical information on the performance of an environmental process central to the N cycle and are best studied using isotope labeling techniques. However, combining the high sensitivity of isotope labeling techniques with selected inhibition of nitrifiers as a whole or of specific nitrifier guilds has not been established in limnology. This can be achieved with different concentrations of the commonly used nitrification inhibitor allylthiourea (ATU). In the 15N‐ammonium oxidation technique, the converted isotope label is typically captured in an excess pool of 14N‐nitrite. Here, we assessed how different storage conditions affect the stability of the nitrite pool in freshwater samples treated with ATU. When stored frozen, the nitrite pool was rapidly destabilized to 25–31% after 7 d of storage and even to less than 5% after storage exceeding 90 d for samples treated with ATU, thus making them unusable for rate determinations in these cost and labor‐intensive experiments. In comparison, this was not the case in marine samples or freshwater samples not treated with ATU, where the nitrite pool remained stable. Building on these results, we tested two options to stabilize nitrite during the storage of freshwater samples. The nitrite pool was stable if samples were stored at 4°C instead of freezing. We recommend this option for short‐term storage. For long‐term storage, samples should be supplemented with 0.5 mmol L−1 NaCl to increase salinity before freezing. As in marine samples, this stabilized the nitrite pool. Our results provide important guidance for the storage of non‐saline samples used for nitrification rate measurements in freshwater environments. [ABSTRACT FROM AUTHOR]

Published

2024

89. Gas-liquid flow set up for Pd-catalyzed aminocarbonylation with CO generated from CO2, towards radiolabeling application

Author

Mai, Qianhua, Dedieu, Pierre, and Lescot, Camille

Published

2025

90. Discovery and evaluation of a novel 18F-labeled vasopressin 1a receptor PET ligand with peripheral binding specificity

Author

Junqi Hu, Yinlong Li, Chenchen Dong, Huiyi Wei, Kai Liao, Junjie Wei, Chunyu Zhao, Ahmad Chaudhary, Jiahui Chen, Hao Xu, Ke Zhong, Steven H. Liang, Lu Wang, and Weijian Ye

Subjects

Vasopressin, Autism, V1a receptor, Positron emission tomography, PET imaging, Radiolabeling, Therapeutics. Pharmacology, RM1-950

Abstract

The arginine-vasopressin (AVP) hormone plays a pivotal role in regulating various physiological processes, such as hormone secretion, cardiovascular modulation, and social behavior. Recent studies have highlighted the V1a receptor as a promising therapeutic target. In-depth insights into V1a receptor-related pathologies, attained through in vivo imaging and quantification in both peripheral organs and the central nervous system (CNS), could significantly advance the development of effective V1a inhibitors. To address this need, we develop a novel V1a-targeted positron emission tomography (PET) ligand, [18F]V1A-2303 ([18F]8), which demonstrates favorable in vitro binding affinity and selectivity for the V1a receptor. Specific tracer binding in peripheral tissues was also confirmed through rigorous cell uptake studies, autoradiography, biodistribution assessments. Furthermore, [18F]8 was employed in PET imaging and arterial blood sampling studies in healthy rhesus monkeys to assess its brain permeability and specificity, whole-body distribution, and kinetic properties. Our research indicated [18F]8 as a valuable tool for noninvasively studying V1a receptors in peripheral organs, and as a foundational element for the development of next-generation, brain-penetrant ligands specifically designed for the CNS.

Published

2024

91. The P(III)‐Amidite Based Synthesis of Stable Isotope Labeled mRNA‐Cap‐Structures Enables their Sensitive Quantitation from Brain Tissue.

Author

Ripp, Alexander, Krämer, Martina, Barth, Vanessa, Moser, Patrick, Haas, Thomas M., Singh, Jyoti, Huck, Tamara, Gleue, Lukas, Friedland, Kristina, Helm, Mark, and Jessen, Henning J.

Subjects

*RADIOLABELING, *STABLE isotopes, *PYROPHOSPHATES, *NUCLEOSIDES, *NUCLEOTIDES

Abstract

The 5’ cap structure is crucial to mRNA function, with its diverse methylation patterns depending on the cellular state. Sensitive analytical methods are sought after to quantify this cap variety also referred to as cap epitranscriptome. To address a bottleneck for accurate and precise quantitation, we report a facile and fast access to high‐quality synthetic standards via a new route, involving P(III)‐amidite chemistry. A range of cap nucleotides and their stable heavy isotopic labeled analogues were derived from nucleoside diphosphates, which themselves were directly prepared in a one‐step reaction sequence starting from unprotected nucleosides using a triphosphorylating reagent in combination with ethylenediamine. Considering a wider scope, the route also enables direct access to magic spot nucleotides and diphosphates of isoprenyl‐alcohols. Stable‐isotope labeled cap nucleotides derived from this route paved the way for the development of a highly sensitive LC–MS/MS method, applied to the characterization of mouse brain cap epitranscriptomes, which turned out to be very different from those of cultured cell lines of widespread use in the life sciences. [ABSTRACT FROM AUTHOR]

Published

2024

92. Adenosine Deaminase‐Like Gene‐Carried Lentivirus Toolkit for Identification of DNA N6‐Methyladenine Origins.

Author

Liang, Ziyu, Chen, Shaokun, Li, Yao, Lai, Weiyi, and Wang, Hailin

Subjects

*BONE marrow cells, *RADIOLABELING, *DNA replication, *GENETIC transcription, *ADENOSINES

Abstract

Post‐replicative DNA N6‐methyladenine (pr6mdA) can form via bona fide methylase‐catalyzed adenine methylation, playing a pivotal role in embryonic development and other biological processes. Surprisingly, pre‐methylated adenine can be erroneously incorporated into DNA as misincorporated N6‐methyladenine (i6mdA) via DNA polymerase‐mediated replication. Despite pr6mdA and i6mdA sharing identical chemical structures, their biological functions diverge significantly, presenting a substantial challenge in distinguishing between the two. Here, for the first‐time, it is exploited that the adenosine deaminase‐like (Adal) protein and a corresponding activity‐null mutant to construct an Adal lentivirus toolkit. With this newly designed toolkit, both pr6mdA and i6mdA can be identified and quantified simultaneously. The presence of 6mdA in the bone marrow cells of mice is shown, with its levels serving as indicators for growth with age, probably reflecting the cellular stress‐caused changes in RNA decay, nucleotide pool sanitation, and transcription. Collectively, a powerful toolkit to advance understanding of both pr6mdA and i6mdA is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2024

93. Highly Selective Boron‐Wittig Reaction: A Practical Method to Synthesize Trans‐Aryl Alkenes.

Author

Guan, Qitao, Ding, Fupan, and Zhang, Chun

Subjects

*WITTIG reaction, *DOUBLE bonds, *RADIOLABELING, *STERIC hindrance, *ALKENES

Abstract

Olefins play an essential role in synthetic chemistry, serving not only as important synthons but also as key functional groups in numerous bio‐active molecules. Consequently, there has been considerable interest in the development of more powerful methods for olefins. While the Wittig reaction stands as a prominent choice for olefin synthesis due to its simplicity and the ready availability of raw materials, its limitation lies in the challenge of controlling cis‐trans selectivity, hampering its broader application. In this study, a novel Boron‐Wittig reaction has been developed utilizing gem‐bis(boryl)alkanes and aldehydes as starting materials. This method enables creating favourable intermediates, which possess less steric hindrance, and leading to trans‐olefins via intramolecular O−B bonds elimination. Notably, synthesis studies have validated its good efficacy in modifying bioactive molecules and synthesizing drug molecules with great trans‐selectivity. Furthermore, the reaction mechanism was elucidated based on intermediate trapping experiments, isotope labelling studies, and kinetic analyses. [ABSTRACT FROM AUTHOR]

Published

2024

94. Radiosynthesis and in-vitro identification of a molecular probe 131I-FAPI targeting cancerassociated fibroblasts.

Author

Yaxin Tian, Yanghongyan Jiang, Ping Ma, Xiaowei Ma, Liang Du, Fengkui Wang, Xiaodong Yu, and Qian Zhao

Subjects

CELL migration, RADIOCHEMICAL purification, EPITHELIAL tumors, PANCREATIC cancer, RADIOLABELING, MOLECULAR probes

Abstract

Purpose: Fibroblast activation protein (FAP) is highly expressed in the mesenchyme of most malignant epithelial tumors, while its expression is low in normal tissues. FAP inhibitors (FAPIs) bind specifically to FAP and are used for tumor-targeted diagnosis and therapy. The aim of this study was to radiosynthesize a novel molecular probe 131I-FAPI and evaluate its in-vitro targeting and biological characteristics. Methods: The structurally modified FAPI was labelled with 131I through the chloramine-T method. The radiolabeling rate was then detected by thin-layer chromatography (TLC). The stability of 131I-FAPI was determined at PBS (room temperature) and serum (37°C). Its hydrophilicity was calculated by measuring its lipid-water partition coefficient. Pancreatic cancer PANC-1 cell line and glioma U87 cell line were cultured in vitro. Cell uptake assay was used to show the binding ability of 131I-FAPI. The CCK-8 assay was used to calculate the inhibitory effects of 131I-FAPI at different time points (4h, 8h, 12h, 24h, 48h) after comparing with the 131I and FAPI. The before-and-after-24h scratch areas of the two cells were determined in order to verify the effect of 131I-FAPI on the migration ability of the cells. Results: The radiolabeling rate was (84.9 ± 1.02) %. The radiochemical purity of 131I-FAPI remained over 80% in both 25°C PBS and 37°C serum. The value of the lipid-water partition coefficient was -0.869 ± 0.025, indicating the hydrophilic of the probe. The cellular uptake assay showed that U87 cells had a specific binding capacity for 131I-FAPI. In cell inhibition assays, the inhibitory effect of 131I-FAPI on U87 cells increased with time. The results of cell scratch assay showed that 131IFAPI had the strongest inhibitory effect on the migratory ability of U87 cells compared with 131I and FAPI (P<0.001). Conclusion: 131I-FAPI was synthesized with good in-vitro stability and hydrophilic properties. It can be specifically bound by U87 cells. The proliferation and migration of U87 cells can be effectively inhibited. 131I-FAPI is promising to become a therapeutic probe. [ABSTRACT FROM AUTHOR]

Published

2024

95. Lattice Oxygen in Photocatalytic Gas–Solid Reactions: Participator vs. Dominator.

Author

Li, Zhonghua, Chen, Ping, Feng, Jianyong, Zhao, Minyue, Zhao, Zongyan, Zhang, Yuanming, Xu, Xiaoming, Huang, Huiting, Zou, Zhigang, and Li, Zhaosheng

Subjects

*RADIOLABELING, *OXYGEN, *PHOTOCATALYSTS

Abstract

Lattice‐oxygen activation has emerged as a popular strategy for optimizing the performance and selectivity of oxide‐based thermocatalysis and electrolysis. However, the significance of lattice oxygen in oxide photocatalysts has been ignored, particularly in gas–solid reactions. Here, using methane oxidation over a Ru1@ZnO single‐atom photocatalyst as the prototypical reaction and via 18O isotope labelling techniques, we found that lattice oxygen can directly participate in gas–solid reactions. Lattice oxygen played a dominant role in the photocatalytic reaction, as determined by estimating the kinetic constants in the initial stage. Furthermore, we discovered that dynamic diffusion between O2 and lattice oxygen proceeded even in the absence of targeted reactants. Finally, single‐atom Ru can facilitate the activation of adsorbed O2 and the subsequent regeneration of consumed lattice oxygen, thus ensuring high catalyst activity and stability. The results provide guidance for next‐generation oxide photocatalysts with improved activities and selectivities. [ABSTRACT FROM AUTHOR]

Published

2024

96. Molecular Engineering of Metal–Organic Frameworks for Boosting Photocatalytic Hydrogen Peroxide Production.

Author

Tang, Yu‐Ying, Luo, Xiao, Xia, Ri‐Qin, Luo, Jie, Peng, Su‐Kao, Liu, Zhen‐Na, Gao, Qiang, Xie, Mo, Wei, Rong‐Jia, Ning, Guo‐Hong, and Li, Dan

Subjects

*HYDROGEN peroxide, *METAL-organic frameworks, *HYDROGEN production, *BAND gaps, *RADIOLABELING, *OXYGEN in water

Abstract

The development of novel metal–organic frameworks (MOFs) as efficient photocatalysts for hydrogen peroxide production from water and oxygen is particularly interesting, yet remains a challenge. Herein, we have prepared four cyclic trinuclear units (CTUs) based MOFs, exhibiting good light absorption ability and suitable band gaps for photosynthesis of H2O2. However, Cu‐CTU‐based MOFs are not able to photocatalyzed the formation of H2O2, while the alteration of metal nodes from Cu‐CTU to Ag‐CTU dramatically enhances the photocatalytic performance for H2O2 production and the production rates can reach as high as 17476 μmol g−1 h−1 with an apparent quantum yield of 4.72 %, at 420 nm, which is much higher than most reported MOFs. The photocatalytic mechanism is comprehensively studied by combining the isotope labeling experiments and DFT calculation. This study provides new insights into the preparation of MOF photocatalysts with high activity for H2O2 production through molecular engineering. [ABSTRACT FROM AUTHOR]

Published

2024

97. A thiourea‐bridged 99mTc(CO)3‐dipicolylamine‐2‐nitroimidazole complex for targeting tumor hypoxia: Utilizing metabolizable thiourea‐bridge to improve pharmacokinetics.

Author

Mittal, Sweety, Kumar, Chandan, Jha, Laxmi, and Mallia, Madhava B.

Subjects

*MUSCLE tumors, *CHO cell, *RADIOLABELING, *RADIOACTIVE tracers, *HYPOXEMIA

Abstract

The 2‐nitroimidazole based 99mTc‐radiopharmaceuticals are widely explored for imaging tumor hypoxia. Radiopharmaceuticals for targeting hypoxia are often lipophilic and therefore, show significant uptake in liver and other vital organs. In this context, lipophilic radiopharmaceuticals with design features enabling faster clearance from liver may be more desirable. A dipicolylamine‐NCS bifunctional chelator that could generate a thiourea‐bridge up on conjugation to primary amine bearing molecule was used to synthesize a 2‐nitroimidazole‐dipicolyl amine ligand for radiolabeling with 99mTc(CO)3 core. Corresponding Re(CO)3‐analogue was prepared to establish the structure of 2‐nitroimidazole‐99mTc(CO)3 complex prepared in trace level. The 2‐nitroimidazole‐99mTc(CO)3 complex showed a hypoxic to normoxic ratio of ~2.5 in CHO cells at 3 h. In vivo, the complex showed accumulation and retention in tumor with high tumor to blood and tumor to muscle ratio. The study demonstrated the utility of metabolizable thiourea‐bridge in 2‐nitroimidazole‐99mTc(CO)3 complex in inducing faster clearance of the radiotracer from liver. The dipicolylamine‐NCS bifunctional chelator reported herein can also be used for radiolabeling other class of target specific molecules with 99mTc(CO)3 core. [ABSTRACT FROM AUTHOR]

Published

2024

98. Radiolabeled Probes from Derivatives of Natural Compounds Used in Nuclear Medicine.

Author

Tesse, Giuseppe, Tolomeo, Anna, De Filippis, Barbara, and Giampietro, Letizia

Subjects

*RADIOLABELING, *NUCLEAR medicine, *ALZHEIMER'S disease, *POSITRON emission tomography, *BIOMOLECULES

Abstract

Natural compounds are important precursors for the synthesis of new drugs. The development of novel molecules that are useful for various diseases is the main goal of researchers, especially for the diagnosis and treatment of many diseases. Some pathologies need to be treated with radiopharmaceuticals, and, for this reason, radiopharmaceuticals that use the radiolabeling of natural derivates molecules are arousing more and more interest. Radiopharmaceuticals can be used for both diagnostic and therapeutic purposes depending on the radionuclide. β+- and gamma-emitting radionuclides are used for diagnostic use for PET or SPECT imaging techniques, while α- and β−-emitting radionuclides are used for in metabolic radiotherapy. Based on these assumptions, the purpose of this review is to highlight the studies carried out in the last ten years, to search for potentially useful radiopharmaceuticals for nuclear medicine that use molecules of natural origin as lead structures. In this context, the main radiolabeled compounds containing natural products as scaffolds are analyzed, in particular curcumin, stilbene, chalcone, and benzofuran. Studies on structural and chemical modifications are emphasized in order to obtain a collection of potential radiopharmaceuticals that exploit the biological properties of molecules of natural origin. The radionuclides used to label these compounds are 68Ga, 44Sc, 18F, 64Cu, 99mTc, and 125I for diagnostic imaging. [ABSTRACT FROM AUTHOR]

Published

2024

99. Ways of Preparing and Using Biologically Active and Medicinal Compounds Labeled with Hydrogen Isotopes (Review).

Author

Shevchenko, V. P., Shevchenko, K. V., Nagaev, I. Yu., and Myasoedov, N. F.

Subjects

*HYDROGEN isotopes, *BIOACTIVE compounds, *DEUTERIUM compounds, *TRITIUM, *RADIOLABELING

Abstract

Various ways of using biologically active compounds labeled with hydrogen isotopes are described. The use of labeled compounds in studies of ligand(receptor binding, pharmacokinetics, the effects of biologically active compounds on the functioning of the body at the cellular level, etc., is demonstrated. The main methods of introducing hydrogen isotopes into compounds that are considered candidates and medicines are given. Attention is paid to methods of isolating labeled compounds and determining their characteristics (yield, label distribution, amount of included isotope). [ABSTRACT FROM AUTHOR]

Published

2024

100. Radiotracer Innovations in Breast Cancer Imaging: A Review of Recent Progress.

Author

Haidar, Mohamad, Rizkallah, Joe, El Sardouk, Omar, El Ghawi, Nour, Omran, Nadine, Hammoud, Zeinab, Saliba, Nina, Tfayli, Arafat, Moukadem, Hiba, Berjawi, Ghina, Nassar, Lara, Marafi, Fahad, Choudhary, Partha, Dadgar, Habibollah, Sadeq, Alyaa, and Abi-Ghanem, Alain S.

Subjects

*RADIOLABELING, *POSITRON emission tomography, *POSITRON emission, *EARLY diagnosis, *BREAST cancer

Abstract

This review focuses on the pivotal role of radiotracers in breast cancer imaging, emphasizing their importance in accurate detection, staging, and treatment monitoring. Radiotracers, labeled with radioactive isotopes, are integral to various nuclear imaging techniques, including positron emission tomography (PET) and positron emission mammography (PEM). The most widely used radiotracer in breast cancer imaging is 18F-fluorodeoxyglucose (18F-FDG), which highlights areas of increased glucose metabolism, a hallmark of many cancer cells. This allows for the identification of primary tumors and metastatic sites and the assessment of tumor response to therapy. In addition to 18F-FDG, this review will explore newer radiotracers targeting specific receptors, such as estrogen receptors or HER2, which offer more personalized imaging options. These tracers provide valuable insights into the molecular characteristics of tumors, aiding in tailored treatment strategies. By integrating radiotracers into breast cancer management, clinicians can enhance early disease detection, monitor therapeutic efficacy, and guide interventions, ultimately improving patient outcomes. Ongoing research aimed at developing more specific and sensitive tracers will also be highlighted, underscoring their potential to advance precision medicine in breast cancer care. [ABSTRACT FROM AUTHOR]

Published

2024