Radiolabeling of the antibody IgG M75 for epitope of human carbonic anhydrase IX by Cu and Cu and its biological testing.

Human carbonic anhydrase IX is a membrane enzyme that is significantly expressed in some types of cancer cells, while copper radioisotopes offer wide range of diagnostic, therapeutic and theranostic properties. The work was focused on a new approach to the labelling of antibody IgG M75 for epitope human carbonic anhydrase IX with copper radioisotopes Cu and Cu and its in vivo testing in mice with inoculated colorectal cancer. Monoclonal antibody IgG M75 for epitope human carbonic anhydrase IX was successfully conjugated with copper-specific chelator "phosphinate" and labelled with Cu and Cu The obtained molecule has considerable potential as a radioimmuno pharmaceutical suitable for imaging of tumours expressing carbonic anhydrase IX by positron emission tomography (PET).

In vitro evaluation of the monoclonal antibody Cu-IgG M75 against human carbonic anhydrase IX and its in vivo imaging.

Specific oncology diagnostics requires new types of the selective radiopharmaceuticals, particularly those suitable for the molecular PET imaging. The aim of this work is to present a new, specific PET-immunodiagnostic radiopharmaceutical based on the monoclonal antibody IgG M75 targeting human carbonic anhydrase IX labelled with Cu (T = 12.70h) and its in vitro and in vivo evaluation.

The involvement of selected membrane transport mechanisms in the cellular uptake of (177)Lu-labeled bombesin, somatostatin and gastrin analogues.

Introduction: Radiolabeled receptor-targeting peptides are a useful tool for the diagnostic imaging and radiotherapy of some malignancies. However, the retention of radioactivity in the kidney may result in renal radiotoxic injury. This study seeks to evaluate the role of endocytic receptor megalin, renal SLC influx transporters and fluid phase endocytosis (FPE) in the cellular accumulation of radiolabeled peptides.

Electrospinning of diosmin from aqueous solutions for improved dissolution and oral absorption.

A nanofibrous membrane carrier for nearly water insoluble drug diosmin was formulated. The aim of this study was to evaluate the drug release and dissolution properties in an aqueous buffer of pH 7.8, and to compare the suitability of the drug carrier with the available drug forms and screen diosmin absorption extent.

The effect of chelator type on in vitro receptor binding and stability in 177Lu-labeled cetuximab and panitumumab.

Monoclonal antibodies are used in the therapy of various diseases. Thanks to their high specific uptake in target tissues, these antibodies can be utilized in targeted radioimmunotherapy as carriers of radioisotopes to tumors. However, important characteristics of antibodies such as target binding and stability in the organism may be affected by various structural parameters.

Mono(pyridine-N-oxide) DOTA analog and its G1/G4-PAMAM dendrimer conjugates labeled with 177Lu: radiolabeling and biodistribution studies.

(177)Lu radiolabeling of the first (G1-) or fourth (G4-) generation polyaminoamide (PAMAM) dendrimer conjugates with DOTA-like bifunctional chelator with one methylenepyridine-N-oxide pendant arm (DO3A-py(NO-C)) stability of the radiolabeled species and their pharmacokinetic characteristics were evaluated in preclinical experiments. The results showed that the G1- and G4-dendrimer conjugates, modified in average with 7.5 or 57 DO3A-py(NO-C) chelating units, respectively, can also be labeled with (177)Lu with a high specific activity and radiochemical purity even at 37 °C.

Preclinical evaluation of radiolabelled nimotuzumab, a promising monoclonal antibody targeting the epidermal growth factor receptor.

Background: Radiolabelled monoclonal antibodies with affinity towards tumour-associated antigens may enhance the efficacy of cancer treatment with targeted radiotherapy. The humanized antibody nimotuzumab represents a promising vector to deliver radioactivity to tumours overexpressing epidermal growth factor receptor type 1 (ErbB1). We analysed the effect of radiolabelling nimotuzumab on its uptake in cancer cells and its biodistribution profile in preclinical experiments.

Preclinical evaluation of gastrin derivatives labelled with 111In: radiolabelling, affinity profile and pharmacokinetics in rats.

Background: Cholecystokinin receptor subtype 2 (CCK-2) is overexpressed in various tumours like medullary thyroid carcinomas and small cell lung cancer. Radiolabelled peptides that bind with high affinity and specificity to CCK-2 receptors, thus hold great potential for visualizing such tumours.

Methods: We compared four 111In labelled gastrin analogues, called minigastrins (MG), namely MG11, MG45, MG47 and MG48 linked to metal chelating DOTA in preclinical experiments.

2,3-dihydro-1H-cyclopenta[b]quinoline derivatives as acetylcholinesterase inhibitors-synthesis, radiolabeling and biodistribution.

In the present study we describe the synthesis and biological assessment of new tacrine analogs in the course of inhibition of acetylcholinesterase. The obtained molecules were synthesized in a condensation reaction between activated 6-BOC-hydrazinopyridine-3-carboxylic acid and 8-aminoalkyl derivatives of 2,3-dihydro-1H-cyclopenta[b]quinoline. Activities of the newly synthesized compounds were estimated by means of Ellman's method.

Preclinical evaluation of wound treatment with hyaluronan-iodine hydrogel.

Unlabelled: A mixture of hyaluronan and iodine complex KI3 (Hyiodine®) has been developed to support wound healing. In this study, the effect of hyaluronan, KI3, and their combination on progression of wound healing in excision skin wounds in rats was determined.

Methods: To evaluate the possible toxic effects of iodine after Hyiodine application for wound healing, iodine systemic absorption from the Hyiodine-treat- ed wounds and its distribution profile were quantitatively described and compared after intravenous iodide administration using 131I as a radiolabel.

Preclinical pharmacokinetics of radiolabelled hyaluronan.

Background: Hyaluronan (HYA) is a high molecular weight glucosaminoglycan with a great perspective for medical applications. Because HYA is widespread in the body, it is difficult to determine the fate of exogenously administered HYA.

Methods: In this study, HYAof different molecular weights (0.

A comparison of in vitro methods for determining the membrane receptor expression in cell lines.

Introduction: Determining the number of expressed receptors per cell (NRPC) in cell lines is an important prerequisite for many experimental procedures in biomedical research. This paper focuses on the comparison of a newly developed method of determining NRPC - the Kinetic extrapolation method (KEX) - with the standard saturation method. These two methods, both based on radiolabeled ligand-receptor binding, were compared with the data on receptor expression found using quantified western blotting.

Distribution, elimination, and renal handling of (99m)technetium-Demogastrin 1.

Radiolabeled cholecystokinin/gastrin (CCK) receptor-targeting peptides are promising compounds for radiodiagnosis and radiotherapy of certain malignancies. This study evaluated the pharmacokinetic profile of a CCK-2 receptor-specific peptide, Demogastrin 1, labeled with technetium-99m ((99m)Tc-Demogastrin 1), in rats. To investigate the fate of (99m)Tc-Demogastrin 1 in the rat, biodistribution and elimination studies in vivo were performed, and elimination parameters in perfused rat liver and kidney were determined.

Different radioactivity uptake between somatostatin analogues labelled with ¹¹¹In and ⁹⁰/⁸⁸Y in rat kidney.

Unlabelled: Somatostatin receptor targeting is a valuable method to treat somatostatin receptor-positive tumours. In peptide receptor radionuclide therapy, it is essential to determine the highest activity that can be safely administered to the patient. As (90)Y emits no gamma rays, absorbed doses for (90)Y are usually estimated using the same peptide labelled with (111)In.

Receptor affinity and preclinical biodistribution of radiolabeled somatostatin analogs.

In this study, we investigated the relationship between affinity to somatostatin receptor subtype2 (SSTR(2)) and uptake of radioactivity from a group of radiolabeled somatostatin analogues in somatostatin receptor-rich tissues of rats. Organs with a high density of somatostin receptors (namely the adrenals and pancreas bearing mainly SSTR(2); this receptor subtype is also the most abundant in somatostatin receptor-positive tumors) were chosen as markers of specific binding of the peptides in vivo. Accumulations of radioactivity in these organs 24 h and 48 h after intravenous administration of six (111)In-labeled octreotide and octreotate derivatives with predominant affinity to SSTR(2) were correlated with affinity to SSTR(2) determined in vitro (IC(50) values).

Protein interactions with HER-family receptors can have different characteristics depending on the hosting cell line.

Cell lines are common model systems in the development of therapeutic proteins and in the research on cellular functions and dysfunctions. In this field, the protein interaction assay is a frequently used tool for assessing the adequacy of a protein for diagnostic and therapeutic purposes. In this study, we investigated the extent to which the interaction characteristics depend on the choice of cell line for HER-family receptors.

Radiolabeling of PAMAM dendrimers conjugated to a pyridine-N-oxide DOTA analog with ¹¹¹In: Optimization of reaction conditions and biodistribution.

Polyamidoamine dendrimers (PAMAMs) of generations 1 (G1) and 4 (G4) were conjugated with a bifunctional pyridine-N-oxide DOTA analog, 10-[(4-carboxy-1-oxidopyridin-2-yl)methyl]-1,4,7,10-tetraazacyclododecane-1,4,7-triacetic acid (H(4)do3a-py(NO-C)), through the pyridine-4-carboxylic acid group, and the conjugates were radiolabeled with indium-111. Reaction conditions for the radiolabelling were optimized. Both radiolabeled conjugates, G1-[(111)In(do3a-py(NO-C))] and G4-[(111)In(do3a-py(NO-C))], were kinetically stable for at least 48h after preparation; in the presence of competitive ligands, the radiochemical purity of the conjugates slightly decreased (4-7%) over the same time period.

Preclinical evaluation of (177)lu-nimotuzumab: a potential tool for radioimmunotherapy of epidermal growth factor receptor-overexpressing tumors.

Background: The humanized monoclonal antibody Nimotuzumab (h-R3) has demonstrated an exceptional and better clinical profile than other monoclonal antibodies for immunotherapy of epidermal growth factor receptor-overexpressing tumors. This work deals with the preparation and radiolabeling optimization of (177)Lu-Nimotuzumab and their preclinical evaluation.

Methods: Nimotuzumab was conjugated with S-2-(4-isothiocyanatobenzyl)-1,4,7,10-tetraazacyclododecane tetraacetic acid (p-SCN-Bn-DOTA), testing different molar ratios.

Biodistribution of two octreotate analogs radiolabeled with indium and yttrium in rats.

Background: In this study, two octreotate derivatives N-[4-carboxy-4-[4,7,10-tris(carboxymethyl)-1,4,7,10-tetraazacyclododecane-1-yl]butanoyl]-Tyr(3)-octreotate (DOTAGA-tate) and N-[[4,10-bis(carboxymethyl)-7-(1(1,3-dicarboxypropyl))-1,4,7,10-tetraaza-cyclododec-1-yl]acetyl]-Tyr(3)-octreotate (DOTA-t-GA-tate) were radio-labeled with (111)In or (88)Y and their biodistribution profiles together with their elimination characteristics in rats were compared.

Materials And Methods: Radiolabeling of the peptides with high radiochemical purity was carried out in an acetate buffer with gentisic acid as radioprotective compound. Biodistribution profiles of the radiolabeled peptides were determined in intact male Wistar rats after an intravenous dose of 1 microg/kg.

Preparation and the kinetic stability of hyaluronan radiolabeled with 111In, 125I and 14C.

Three different procedures for the labeling of hyaluronan (HA) with (111)In, (125)I and (14)C radionuclides were compared, and the kinetic stability of radiolabeled HA under different conditions (saline, artificial gastric juice and plasma) was established. Modification of HA structure with bifunctional chelating agents (DTPA) or with the prosthetic group (tyramine or tyrosine) was essential prior (111)In and (125)I labeling. These chemical labeling techniques were fast, simple and inexpensive, and labeled agents with a high specific activity were obtained.

In vitro comparison of renal handling and uptake of two somatostatin receptor-specific peptides labeled with indium-111.

Objective: Radiolabeled receptor-specific somatostatin analogs labeled with gamma- or beta-emitting radionuclides are useful for scintigraphic imaging and/or therapy of selected neuroendocrine tumors. However, significant renal uptake may result in radiotoxicological injury of the kidney and can limit clinical application of the agents. The aim of the study was to analyze renal handling, rate, and mechanism of renal accumulation of two somatostatin receptor-targeted peptides, [DOTA(0), Tyr(3), Thr(8)]-octreotide (DOTA-TATE) and [DOTA(0), 1-Nal(3)]-octreotide (DOTA-NOC), labeled with indium-111 using in vitro methods.

The effect of molecular weight on the biodistribution of hyaluronic acid radiolabeled with 111In after intravenous administration to rats.

Hyaluronic acid (HA), is a high molecular weight (HMW) glucosaminoglycan with significant acitivity, and which influences a number of physiological and pathological processes such as tumorogenesis, arthritis, etc. The aim of this study was to determine the difference in the biodistributional pathways of 111In-labeled diethylenetriaminepentaacetic acid-hyaluronic acid (111In-DTPA-HA) molecule of three different MWs (10, 100 and 450 kDA) in a rat model, and to determine possible relationships between the biodistribution and the MW of the investigated agent for future medical applications. 111In-DTPA-HA was prepared by mixing activated DTPA and activated HA, then adding 111InCl3 to the previously prepared mixture at pH 5,5 in an acetic buffer.

Complexation and biodistribution study of 111In and 90Y complexes of bifunctional phosphinic acid analogs of H4dota.

In this study, the complexation rates of two new phosphinate H(4)dota (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid) analogs, H(5)do3ap(PrA) and H(4)do3ap(ABn), and H(4)dota itself were compared under identical conditions (H(5)do3ap(PrA)=10-{[(2-carboxyethyl)hydroxyphosphoryl]methyl}-1,4,7,10-tetraazacyclododecane-1,4,7-triacetic acid; H(4)do3ap(ABn)=10-{[(4-aminophenyl)hydroxyphosphoryl]methyl}-1,4,7,10-tetraazacyclododecane-1,4,7-triacetic acid). The biodistribution of their (111)In and (90)Y complexes in healthy rats was also studied. Unlike the observation obtained under "chemical" conditions where differences between the ligands were observed no such differences in complexation rates were found under radiochemical conditions.

Comparison of 111In-DOTA-NOC and 111I-DOTA-TATE distribution in the target and dose-limiting tissues: conflicting results in vitro and in vivo.

Background: In this study, some important biological characteristics of two radiolabelled somatostatin analogues 111In-DOTA-1-Nal3-octreotide (DOTA-NOC) and 111In-DOTA-Tyr3-octreotate (DOTA-TATE) were compared.

Materials And Methods: Rats were used for in vivo biodistribution experiments and in vitro cell models (OK and AR42J cell lines) were used for simulating the internalization in the kidney and in subtype 2 somatostatin receptor (SSTR2)-positive tissues, respectively.

Results: Significantly higher radioactivity concentrations in rat organs with high density of somatostatin receptors after 111In-DOTA-NOC administration in comparison with 111In-DOTA-TATE were observed.

[Radiolabelled peptides in the diagnosis and therapy of tumours].

In the last two decades, radiolabelled receptor-specific peptides have profiled themselves as excellent tools that have expressively increased the diagnostic and therapeutical possibilities of tumours predominantly of neuroendocrine origin. The aim of this review paper is to transparently inform the Czech scientific fraternity about the significance and limitations of the use of this group of radiopharmaceuticals in clinical practice.