Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report a binary targeted enzymatic system that is composed of two covalent monoclonal antibody conjugates for specific labeling of cellular targets in vivo. The system utilizes low-molecular weight peroxidase-reducing substrates synthesized by linking 5-hydroxytryptamine (serotonin) with DTPA (5HT-DTPA) for magnetic resonance and radionuclide imaging or with Cy5.5 for near-infrared optical imaging. Initially, the conjugation reaction conditions were optimized to achieve a low level of antiepidermal growth factor receptor (EGFR) antibody (EMD 72000) modification with the N-hydroxysuccinimide ester of 4-hydrazinonicotinate acetone hydrazone (SANH), yielding mAb-HNH conjugate. The resultant modified antibodies were incubated with the periodate-oxidized peroxidase (HRP) or 4-formylbenzoyl-conjugated glucose oxidase (GO), followed by the purification of the resultant mAb-enzyme conjugates by size-exclusion HPLC. The conjugates were further characterized by electrophoresis and were tested by cross-titration on A431 EGFR+ squamous carcinoma or SW620 adenocarcinoma cells (negative control). The conjugates at the optimized concentration ratios were further tested using near-infrared fluorescence microscopy in the presence of Cy5.5 monocarboxy-5-hydroxytryptamide. Further in vitro experiments demonstrated that (1) antibody binding was specific and could be inhibited by free antibody; (2) both antibody conjugates exhibited high enzymatic activity after the binding to the cells; (3) 111In-labeled 5-HT-DTPA was avidly binding to EGFR-positive cells only if both HRP- and GO-conjugates were bound to the cells. The conjugates were tested in vivo using a SPECT imaging experiment, which demonstrated the accumulation of 111In-labeled 5-HT-DTPA substrate at the site containing both conjugates.
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PMID:Synthesis and testing of a binary catalytic system for imaging of signal amplification in vivo. 1750 10

The epidermal growth factor receptor, EGFR, is overexpressed in many carcinomas. Targeting this receptor with radionuclides is important for imaging and therapy applications in nuclear medicine. We investigated the in vitro and in vivo properties of a new high affinity EGFR binding affibody molecule, (ZEGFR:955)2, when conjugated with CHX-A''-DTPA and labelled with 111In. The binding time patterns and retention studies were performed using cultured squamous carcinoma A431 cells that overexpress EGFR. In the in vivo studies, female BALB/c nu/nu mice carrying tumours from xenografted A431 cells were used. The in vitro studies showed EGFR specific binding, high uptake and good retention of 111In when delivered as [111In](ZEGFR:955)2. The retention after 72 h of incubation was 38.0+/-1.15% of the initial level. The biodistribution study showed a tumour specific 111In uptake of 3.8+/-1.4% of injected dose per gram tumour tissue 4 h post-injection. The tumour to blood ratio was 9.1 and the tumours could easily be visualized with a gamma camera at this time-point. 111In delivered with [111In](ZEGFR:955)2 gave an EGFR specific uptake and the results indicated that the (ZEGFR:955)2 affibody molecule is a candidate for radionuclide-based tumour imaging. Potential therapy applications are discussed.
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PMID:In vivo and in vitro uptake of 111In, delivered with the affibody molecule (ZEGFR:955)2, in EGFR expressing tumour cells. 1835 67

Affibody molecules are a new class of small targeting proteins based on a common three-helix bundle structure. Affibody molecules binding a desired target may be selected using phage-display technology. An Affibody molecule Z HER2:342 binding with subnanomolar affinity to the tumor antigen HER2 has recently been developed for radionuclide imaging in vivo. Introduction of a single cysteine into the cysteine-free Affibody scaffold provides a unique thiol group for site-specific labeling of recombinant Affibody molecules. The recently developed maleimido-CHX-A'' DTPA was site-specifically conjugated at the C-terminal cysteine of Z HER2:2395-C, a variant of Z HER2:342, providing a homogeneous conjugate with a dissociation constant of 56 pM. The yield of labeling with (111)In was >99% after 10 min at room temperature. In vitro cell tests demonstrated specific binding of (111)In-CHX-A'' DTPA-Z 2395-C to HER2-expressing cell-line SKOV-3 and good cellular retention of radioactivity. In normal mice, the conjugate demonstrated rapid clearance from all nonspecific organs except kidney. In mice bearing SKOV-3 xenografts, the tumor uptake of (111)In-CHX-A'' DTPA-Z 2395-C was 17.3 +/- 4.8% IA/g and the tumor-to-blood ratio 86 +/- 46 (4 h postinjection). HER2-expressing xenografts were clearly visualized 1 h postinjection. In conclusion, coupling of maleimido-CHX-A'' DTPA to cysteine-containing Affibody molecules provides a well-defined uniform conjugate, which can be rapidly labeled at room temperature and provides high-contrast imaging of molecular targets in vivo.
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PMID:Evaluation of a maleimido derivative of CHX-A'' DTPA for site-specific labeling of affibody molecules. 1862 Apr 47

The main goal of this study was to optimize the radioimmunoconjugation of monoclonal anti-vascular endothelial growth factor receptor 1 (VEGFR 1) with (177)Lu as a potential angiogenic molecular tracer for radioimmunotherapy (RIT). For a successful radiolabeling, we chose cysteine derivative DTPA-NCS as the bifunctional chelating agent and optimized radiolabeling condition with modifications on the factors such as the reaction time and molar ratio which are known to be very critical in radiolabeling. Under the optimized conditions, radiolabeling yield was greater than 99%. Immunoactivity of the radioimmunoconjugate was investigated using combinations of radioanalytical and bioanalytical techniques (ITLC-SG, Cyclone phosphorimager, and SDS-PAGE). For biological evaluations we carried out the cell binding assay and biodistribution study using mice bearing Calu6 non-small cell lung cancer xenografts. The biodistribution study showed high specificity in accumulating in tumor tissues where the tumor-to-blood ratio was 3.25:1 24h post-injection. In conclusion, the anti-VEGFR1 monoclonal antibody for angiogenesis targeting was effectively radioconjugated with (177)Lu. This radioimmunoconjugate is applicable to detect of angiogenesis sites in various diseases and treat tumors overexpressing VEGFR 1.
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PMID:Radiolabeling of monoclonal anti-vascular endothelial growth factor receptor 1 (VEGFR 1) with (177)Lu for potential use in radioimmunotherapy. 1932 58

The selective EGFR tyrosine kinase inhibitor, gefitinib has been shown to be active against certain human carcinomas. It had been noted that a proportion of volunteers consistently had lower gefitinib exposure following oral administration. The shape of the elimination profile in this subset was also different, showing a monophasic elimination pattern rather than the biphasic pattern observed in the majority of subjects. A gamma scintigraphic study was conducted to examine the relationship of gastrointestinal transit and drug absorption in a cohort of rapid clearance subjects (n=5) and normal profile volunteers (n=7). The fasted volunteer panel received a 250 mg gefitinib tablet labelled with [(111)In]-DTPA together with 240 mL [(99m)Tc]-labelled water. The rapid clearance cohorts were shown to have a faster mean gastric emptying T90 (37 min vs 74 min) and shorter small intestinal transit time (156 min vs 204 min), resulting in an earlier colonic arrival time (181 min vs 244 min). Mean plasma C(max) was lower (99.2 ng/mL vs 116 ng/mL) and AUC almost half in the rapid clearance group (2162+/-81 ngh/mL vs 4996+/-64 ngh/mL). These data suggest that gastrointestinal transit parameters play a role in the differences in the rapid clearance profile group, also contributing to the biphasic to monophasic switch. However, historical data show, at the recommended dose of 250 mg/day steady-state plasma concentrations adequate for clinical benefit are achieved in patients with non-small cell lung cancer.
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PMID:Do gastrointestinal transit parameters influence the pharmacokinetics of gefitinib? 1949 91

The validation of high sensitivity and high resolution microSPECT/CT imaging for tracking the in vivo pathway and fate of an 111Indium-labeled (111In) amphiphilic diblock copolymer micelle formulation is presented. Heterobifunctional poly(ethylene glycol) was used to initiate cationic ring opening polymerization of epsilon-caprolactone, which was then conjugated to 2-(4-isothiocyanatobenzyl)-diethylenetriaminepentaacetic acid (p-SCN-Bn-DTPA) for chelation with 111In. The micelles were characterized in terms of their physicochemical properties including size, size distribution, zeta-potential, and radiochemical purity. Elimination kinetics and tissue deposition were evaluated in healthy mice following administration of 111In-micelles, 111In-DTPA-b-PCL unimers (i.e., administered under the critical micelle concentration) or 111In-Bn-DTPA. Healthy and MDA-MB-231 tumor-bearing mice were imaged using microSPECT/CT following iv administration of 111In-micelles or 111In-Bn-DTPA. Overall, incorporation of 111In onto the surface of thermodynamically stable micelles results in long plasma residence times for the radionuclide and preferential localization within the spleen (22 +/- 5% i.d/g), liver (13 +/- 3% i.d./g), and tumor (9 +/- 2% i.d./g). MicroSPECT/CT imaging provided noninvasive longitudinal visualization of circulation dynamics and tissue deposition. A strong correlation between image-based region of interest (ROI) analysis and biodistribution data was found, implying that nuclear imaging can be used as a noninvasive tool to accurately quantify tissue distribution. As well, the image-based assessment provided unique insight into the intratumoral distribution of the micelles in vivo.
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PMID:Noninvasive monitoring of the fate of 111In-labeled block copolymer micelles by high resolution and high sensitivity microSPECT/CT imaging. 1971 6

Block copolymer micelles (BCMs) can improve the payload delivery of therapeutic agents to tumors. Our aim was to construct hEGF-modified BCMs for the delivery of 111In to tumor cells for Auger electron-emission radiotherapy of EGFR-positive breast cancer (BC). Multifunctional nanosized BCMs were prepared from MePEG(2500)-b-PCL(1200) and 111In-DTPA-PEG(3000)-b-PCL(1600) with or without hEGF-PEG(2900)-b-PCL(1400) (111In-hEGF-BCMs or 111In-BCMs). The resulting BCMs were analyzed by dynamic light scattering and transmission electron microscopy. Cellular uptake and nuclear importation were assessed in MDA-MB-468, MDA-MB-231 and MCF-7 BC cells with decreasing EGFR density. In vitro antiproliferative effects were evaluated using the WST-1 assay after 48 h with 111In-hEGF-BCMs, and the clonogenic assay was used to determine the survival fraction (SF) after a 21 h exposure. Results were compared with 111In-DTPA-hEGF, an established Auger electron-emitting radiotherapeutic that is currently in clinical development. Cell uptake and nuclear importation of 111In-hEGF-BCMs decreased in the following order: MDA-MB-468 > MDA-MB-231 > MCF-7. Cellular uptake of 111In-hEGF-BCMs was less than 111In-DTPA-hEGF (P < 0.05) but was 4-fold higher than for 111In-BCMs (P < 0.001). There was a significant growth inhibition of MDA-MB-468 cells by 111In-hEGF-BCMs (6-fold inhibition, P < 0.05) while the growth of MDA-MB-231 and MCF-7 were not significantly inhibited. The SF of MDA-MB-468 cells was decreased to 2.6% while that for MCF-7 cells was 132.7%. 111In-DTPA-hEGF reduced the SF of MDA-MB-468 cells to 0.4%. Nontargeted 111In-BCMs had minimal effect on the SF of BC cells. Therefore, the 111In-hEGF-BCMs were bound, internalized and transported to the nuclei of EGFR-positive BC cells, where the Auger electron emissions were lethal. The 111In-hEGF-BCMs are a promising delivery system for targeted radiotherapy of BC.
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PMID:Multifunctional block copolymer micelles for the delivery of 111In to EGFR-positive breast cancer cells for targeted Auger electron radiotherapy. 1992 93

Methionine-diethylenetriaminepentaaceticacid-methionine [DTPA-bis(Met)] was synthesized by covalently conjugating two molecules of methionine (Met) to DTPA and was labeled with (99m)Tc in high radiochemical purity and specific activity (166-296 MBq/micromol). Kinetic analysis showed K(m) of 12.95 +/- 3.8 nM and a maximal transport rate velocity (V(max)) of 80.35 +/- 0.42 pmol microg protein(-1) min(-1) of (99m)Tc-DTPA-bis(Met) in U-87MG cells. DTPA-bis(Met) had dissociation constants (K(d)) of 0.067 and 0.077 nM in U-87MG and BMG, respectively. (35)S-methionine efflux was trans-stimulated by (99m)Tc-labeled DTPA conjugate demonstrating concentrative transport. The blood kinetic studies showed fast clearance with t(1/2) (F) = 36 +/- 0.5 min and t(1/2) (S) = 5 h 55 min +/- 0.85 min. U-87MG and BMG tumors saturated at approximately 2000 +/- 280 nmol/kg of (99m)Tc-DTPA-bis(Met). Initial rate of transport of (99m)Tc-DTPA-bis(Met) in U-87MG tumor was found to be 4.68 x 10(-4) micromol/kg/min. The tumor (BMG cell line, malignant glioma) grafted in athymic mice were readily identifiable in the gamma images. Semiquantitative analysis from region of interest (ROI) placed over areas counting average counts per pixel with maximum radiotracer uptake on the tumor was found to be 11.05 +/- 3.99 and compared ROI with muscle (0.55 +/- 0.13). The tumor-to-contralateral muscle tissue ratio of (99m)Tc-DTPA-bis(Met) was found to be 23 +/- 3.3. Biodistribution revealed significant tumor uptake and good contrast in the U-87MG, BMG, and EAT tumor-bearing mice. In clinical trials, the sensitivity, specificity, and positive predictive values were found to be 87.8%, 92.8%, and 96.6%, respectively. (99m)Tc-DTPA-bis(Met) showed excellent tumor targeting and has promising utility as a SPECT-radiopharmaceutical for imaging methionine-dependent human tumors and to quantify the ratio of MET(+)/HCY(-).
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PMID:Synthesis of specific SPECT-radiopharmaceutical for tumor imaging based on methionine: 99mTc-DTPA-bis(methionine). 2010 38

To improve the targeting to tumors expressing the cholecystokinin receptor subtype 2 (CCK2R) with limited kidney uptake, we synthesized a novel cholecystokinin C-terminal tetrapeptide (CCK4)-based derivative conjugated to an original bipyridine-chelator (BPCA), 111In-BPCA-(Ahx)2-CCK4. To our knowledge this is the first CCK4-based radioligand that presents a high affinity for the CCK2R, a high and specific tumor uptake, a low renal accumulation and a very good visualization of tumors in vivo compared with an internal control, 111Indium-trans-cyclohexyldiethylenetriaminepenta-acetic acid-cholecystokinin octapeptide (111In-CHX-A''-DTPA-CCK8). These properties make 111In-BPCA-(Ahx)2-CCK4, a promising candidate for imaging and peptide receptor radionuclide therapy of CCK2R positive tumors.
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PMID:Development of a new radioligand for cholecystokinin receptor subtype 2 scintigraphy: from molecular modeling to in vivo evaluation. 2054 2

Current treatment for late-stage metastatic breast cancer is largely palliative. alpha-Particles are highly potent, short-range radiation emissions capable of sterilizing individual cells with one to three traversals of the cell nucleus. The alpha-emitter, (213)Bi (T(1/2) = 45.6 min), was conjugated to a 100-nm diameter liposomal-CHX-A''-DTPA construct, upon which the rat HER2/neu reactive antibody, 7.16.4, was grafted. A conjugation time of 10 minutes was achieved giving a specific activity corresponding to 0.1 (213)Bi atom per liposome; stability in vitro and in vivo was confirmed. Efficacy in a rat/neu transgenic mouse model of metastatic mammary carcinoma was investigated. Three days after left cardiac ventricular injection of 10(5) rat HER-2/neu-expressing syngeneic tumor cells, macrophage-depleted Neu-N mice were treated by i.v. injection with (a) 19.2 MBq (520 muCi) of liposome-CHX-A''-DTPA-(213)Bi, (b) 19.2 MBq of liposome-CHX-A''-DTPA-(213)Bi-7.16.4, (c) 4.44 MBq (120 muCi) of (213)Bi-7.16.4, and (d) cold (nonradioactive) liposome-CHX-A''-DTPA-7.16.4 as control. Treatment with (a) increased median survival time to 34 days compared with 29 days for the untreated controls (P = 0.013) and 27 days for treated cold controls. Treatment with the radiolabeled antibody-conjugated liposome (b) increased median survival time to 38 days (P = 0.0002 relative to untreated controls). The radiolabeled antibody-treated group (c) gave a median survival of 39 days, which was similar to that for the radiolabeled antibody-conjugated liposome-treated group (P = 0.5). We have shown that the (213)Bi radiolabeled immunoliposomes are effective in treating early-stage micrometastases, giving median survival times similar to those obtained with antibody-mediated delivery of (213)Bi in this animal model.
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PMID:Immunoliposomal delivery of 213Bi for alpha-emitter targeting of metastatic breast cancer. 2065 Dec 54


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