An artificial amino acid, 4-iodo-L-meta-tyrosine: Biodistribution and excretion via kidney

金沢大学大学院医学系研究科We evaluated the use of radiolabeled 4-iodo-L-meta-tyrosine as an amino acid transport marker. The pharmacologic features of this compound, particularly the biodistribution and excretion, were examined by conducting in vivo and in vitro studies using 4-125I-iodo-L-meta-tyrosine (4- 125I-mTyr). Results obtained for L-14C-Tyr and 3- 125I-iodo-α-methyl-L-tyrosine (125I-IMT) were used for comparison. Methods: In vivo biodistribution studies of 4- 125I-mTyr were performed in male ddY mice. Urinary excretion of 4-125I-mTyr and 125I-IMT with administration of probenecid was studied. Local distribution of 4-125I-mTyr and 125I-IMT in kidney was visualized by autoradiography. We performed metabolite analysis of 4-125I-mTyr in mice. For in vitro studies, reabsorption mechanisms of 4-125I-mTyr were compared with those of 125I-IMT and the parent L-14C-Tyr using superconfluent monolayers of the porcine kidney epithelial cell line LLC-PK1 in medium containing inhibitor (L-Tyr, D-Tyr, and 2,4-dinitrophenol), in Na +-free medium, and at 4°C. Results: 4-125I-mTyr demonstrated high accumulation in the pancreas and kidney and comparable brain uptake to that of 125I-IMT. Blood clearance of 4-125I-mTyr was faster than that of 125I-IMT. Three hours after administration, >70% of 4-125I-mTyr was excreted via the urine, whereas 98.1% of the total present in kidney and >96.3% in urine. Protein incorporation was not observed. Uptake of 4-125I-mTyr into LLC-PK1 cell monolayers was remarkably reduced by 5 mmol/L L-Tyr (4.6%) and incubation at 4°C (15.6%) but was reduced by 5 mmol/L D-Tyr (50.0%). L-14C-Tyr and 125I-IMT showed similar results; however, uptake of 125I-IMT was enhanced by 0.1 mmol/L 2,4-dinitrophenol (165.1%), an inhibitor of generation of energy-rich phosphates. Conclusion: The artificial amino acid 4-125I-mTyr demonstrated high metabolic stability, rapid blood clearance, rapid urinary excretion, and similar biodistribution to other radioiabeled L-Tyr analogs. 4-125I-mTyr can be a competitive substrate of L-Tyr reabsorption. However, 4-125I-mTyr demonstrates different pharmacologic features than those of 125I-IMT, particularly in renal handling. 4-125I-mTyr may potentially be applied as a new amino acid transport marker

In vivo radioactive metabolite analysis for individualized medicine: A basic study of a new method of CYP activity assay using 123I-IMP

Introduction: 123I-N-isopropyl-p-iodoamphetamine (123I-IMP) is metabolized and converted to 123I-p-iodoamphetamine (123I-PIA) by CYP2C19 in humans. Since variations in 123I-PIA levels reflect variations in CYP2C19 activity, CYP2C19 activity can be estimated by quantitative analysis of 123I-PIA levels. Thus, 123I-IMP administration can provide diagnostic information not only regarding cerebral blood flow (rCBF) but also regarding metabolic function. The aim of the present study was to detect variations in CYP activity in mice using metabolite analysis. Methods: Metabolism of 125I-IMP in pooled homogenates of mouse liver (MLH) was analyzed by high-performance liquid chromatography (HPLC) in the presence or absence of NADPH. The amount of 125I-PIA generated was calculated as the normalized peak area of the chromatogram. Inhibition of 125I-IMP metabolism was evaluated using the inhibitor SKF-525A. A biodistribution study of 125I-IMP was performed to determine the organ distribution of 125I-IMP/125I-IMP metabolites and the effect of SKF-525A. Variations in CYP activity in vivo were detected by administration of 123I-IMP and/or SKF-525A to mice. The liver and the kidney were then excised, homogenized and analyzed using HPLC. Results: 125I-IMP was metabolized by MLH in the presence of NADPH, and the production of 125I-PIA was inhibited by SKF-525A. SKF-525A did not greatly affect the biodistribution of 125I-IMP/125I-IMP metabolites in vivo. Both 123I-IMP and 123I-PIA were detected in organs of control mice. However, 123I-PIA was not detected in the livers or kidneys of mice treated with SKF-525A. Conclusions: CYP activity in vivo was inhibited by SKF-525A treatment. Variations in CYP activity could be detected in the blood, liver and kidney as changes in the peak area of 123I-PIA. Advances in knowledge and implications for patient care: 123I-IMP metabolite analysis has the potential to provide beneficial information for prediction of the effect of medicines, in addition to its contribution to more accurate rCBF diagnosis that reflects individual CYP activity

First Observation of Small Fractures on a Human Dried Proximal Phalanx by Synchrotron X-Ray Interference Radiography

By taking photographs using wiggler synchrotron radiation (SR), clear images of fine fissures on a human dried proximal phalanx were obtained. This has never been achieved by the conventional X-ray method. The 40 mm × 40 mm exposure field used to cover the object was prepared by magnifying the original SR beam cross section (7 mm × 7 mm) with two successive asymmetric reflections of Si crystals. The width of the fissures images was approximately 20 µm on medical X-ray film. These images can be explained by X-ray phase contrast. This new method may enable an accurate diagnostic method in the field of orthopedics, such as that for small fractures associated with a bruise

Parallelizing compilation scheme for reduction of power consumption of chip multiprocessors

Abstract. With the advance of semiconductor technology, chip multiprocessor architectures, or multi core processor architectures have attracted much attention to achieve low power consumption, high effective performance, good cost performance and short hardware/software development period. To this end, parallelizing compilers for chip multiprocessors are expected that allow us to parallelize program effectively and to control the voltage and clock frequency of processors and storages carefully inside an application program. This paper proposes parallelizing compilation scheme with power reduction control under the multigrain parallel processing environment that controls Voltage/Frequency and power supply of each processor core on a chip. In the evaluation, the OSCAR compiler with the proposed scheme achieves 60.7 percent energy reduction for SPEC CFP95 applu without performance degradation on 4 processors, and 85.6 percent energy reduction for SPEC CFP95 tomcatv with real-time deadline constraint on 4 processors, and 86.7 percent energy reduction for SPEC CFP95 swim with the deadline constraint on 4 processors.

Differences in accumulation and the transport mechanism of l- and d-methionine in high- and low-grade human glioma cells.

Although [S-methyl-11C]-labeled L-methionine and D-methionine ((11)C-L-MET and (11)C-D-MET) are useful radiotracers for positron emission tomography imaging of brain tumors, it is not known whether the accumulation and transport mechanisms underlying uptake of (11)C-D-MET and (11)C-L-MET are the same. (11)C-L-MET is mainly taken up by the amino acid transport system L. We evaluated accumulation and the transport mechanism of D-MET in high- and low-grade human glioma cells in vitro

Transport mechanism and affinity of [99mTc]Tc-mercaptoacetyltriglycine ([99mTc]MAG3) on the apical membrane of renal proximal tubule cells

Technetium-99m-labeled mercaptoacetyltriglycine ([99mTc]MAG3) is widely used for evaluation of transplanted kidneys, diagnosis of tubular necrosis, and scintigraphic studies of tubular function. [99mTc]MAG3 is a substrate for organic anion transporter (OAT)1 and OAT3 on the basolateral membrane side for renal secretion. We investigated the transport mechanism and affinity of [99mTc]MAG3 on the apical membrane of renal proximal tubule cells for renal secretion. Adenosine triphosphate-binding cassette (ABC) transporters for renal secretion of [99mTc]MAG3 were examined using ABC transporter vesicles expressing multiple drug resistance 1 (MDR1), breast cancer resistance protein (BCRP), multidrug resistance-associated protein (MRP)2, and MRP4. MK-571, a MRP inhibitor, was applied to measure the Km and Vmax of MRP2 and MRP4 in a vesicle transport assay. Single photon emission computed tomography (SPECT) was performed in normal rats and MRP2-deficient Eisai hyperbilirubinuria rats (EHBR) using [99mTc]MAG3 with and without MK-571. [99mTc]MAG3 uptake in adenosine triphosphate was significantly higher than that in adenosine monophosphate in vesicles that highly expressed MRP2 and MRP4. The affinity of [99mTc]MAG3 for MRP4 was higher than that for MRP2. Renal secretion via MRP2 and MRP4 was identified by comparing normal and EHBR rats with and without MK-571 on SPECT. [99mTc]MAG3 is transported via MRP2 and MRP4 on the apical membrane of renal proximal tubule cells. The affinity of MRP4 is higher than that of MRP2

The relationship among [14C]MeAIB and [3H]MET uptake, gene expression levels of amino acid transporter and proliferative activity assessed by accumulation of [3H]FLT in in-vitro study using human carcinomas.

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