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41.
Evaluation of monoclonal antibody (mAb) fragments (e.g., Fab', Fab, or engineered fragments) as cancer-targeting reagents for therapy with the α-particle emitting radionuclide astatine-211 ((211)At) has been hampered by low in vivo stability of the label and a propensity of these proteins localize to kidneys. Fortunately, our group has shown that the low stability of the (211)At label, generally a meta- or para-[(211)At]astatobenzoyl conjugate, on mAb Fab' fragments can be dramatically improved by the use of closo-decaborate(2-) conjugates. However, the higher stability of radiolabeled mAb Fab' conjugates appears to result in retention of radioactivity in the kidneys. This investigation was conducted to evaluate whether the retention of radioactivity in kidney might be decreased by the use of an acid-cleavable hydrazone between the Fab' and the radiolabeled closo-decaborate(2-) moiety. Five conjugation reagents containing sulfhydryl-reactive maleimide groups, a hydrazone functionality, and a closo-decaborate(2-) moiety were prepared. In four of the five conjugation reagents, a discrete poly(ethylene glycol) (PEG) linker was used, and one substituent adjacent to the hydrazone was varied (phenyl, benzoate, anisole, or methyl) to provide varying acid sensitivity. In the initial studies, the five maleimido-closo-decaborate(2-) conjugation reagents were radioiodinated ((125)I or (131)I), then conjugated with an anti-PSMA Fab' (107-1A4 Fab'). Biodistributions of the five radioiodinated Fab' conjugates were obtained in nude mice at 1, 4, and 24 h post injection (pi). In contrast to closo-decaborate(2-) conjugated to 107-1A4 Fab' through a noncleavable linker, two conjugates containing either a benzoate or a methyl substituent on the hydrazone functionality displayed clearance rates from kidney, liver, and spleen that were similar to those obtained with directly radioiodinated Fab' (i.e., no conjugate). The maleimido-closo-decaborate(2-) conjugation reagent containing a benzoate substituent on the hydrazone was chosen for study with (211)At. That reagent was conjugated with 107-1A4 Fab', then labeled (separately) with (125)I and (211)At. The radiolabeled Fab' conjugates were coinjected into nude mice bearing LNCaP human tumor xenografts, and biodistribution data were obtained at 1, 4, and 24 h pi. Tumor targeting was achieved with both (125)I- and (211)At-labeled Fab', but the (211)At-labeled Fab' reached a higher concentration (25.56 ± 11.20 vs 11.97 ± 1.31%ID/g). Surprisingly, while the (125)I-labeled Fab' was cleared from kidney similar to earlier studies, the (211)At-labeled Fab'was not (i.e., kidney conc. for (125)I vs (211)At; 4 h, 13.14 ± 2.03 ID/g vs 42.28 ± 16.38%D/g; 24 h, 4.23 ± 1.57 ID/g vs 39.52 ± 15.87%ID/g). Since the Fab' conjugate is identical in both cases except for the radionuclide, it seems likely that the difference in tissue clearance seen is due to an effect that (211)At has on either the hydrazone cleavage or on the retention of a metabolite. Results from other studies in our laboratory suggest that the latter case is most likely. The hydrazone linkers tested do not provide the tissue clearance sought for (211)At, so additional hydrazones linkers will be evaluated. However, the results support the use of hydrazone linkers when Fab' conjugated with closo-decaborate(2-) reagents are radioiodinated. 相似文献
42.
Kita A Sakurai Y Myers DR Rounsevell R Huang JN Seok TJ Yu K Wu MC Fletcher DA Lam WA 《PloS one》2011,6(10):e26437
To activate clot formation and maintain hemostasis, platelets adhere and spread onto sites of vascular injury. Although this process is well-characterized biochemically, how the physical and spatial cues in the microenvironment affect platelet adhesion and spreading remain unclear. In this study, we applied deep UV photolithography and protein micro/nanostamping to quantitatively investigate and characterize the spatial guidance of platelet spreading at the single cell level and with nanoscale resolution. Platelets adhered to and spread only onto micropatterned collagen or fibrinogen surfaces and followed the microenvironmental geometry with high fidelity and with single micron precision. Using micropatterned lines of different widths, we determined that platelets are able to conform to micropatterned stripes as thin as 0.6 μm and adopt a maximum aspect ratio of 19 on those protein patterns. Interestingly, platelets were also able to span and spread over non-patterned regions of up to 5 μm, a length consistent with that of maximally extended filopodia. This process appears to be mediated by platelet filopodia that are sensitive to spatial cues. Finally, we observed that microenvironmental geometry directly affects platelet biology, such as the spatial organization and distribution of the platelet actin cytoskeleton. Our data demonstrate that platelet spreading is a finely-tuned and spatially-guided process in which spatial cues directly influence the biological aspects of how clot formation is regulated. 相似文献
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Wilbur A. Sawyer 《The Western journal of medicine》1915,13(12):494-495
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New faces of the familiar clathrin lattice 总被引:1,自引:1,他引:0
The clathrin triskelion self-assembles into a lattice that coats transport vesicles participating in several key membrane traffic pathways. A new model of a clathrin lattice at approximately 8 angstrom resolution, generated by Fotin et al. (Nature 2004;432:573) confirmed the basic structural features of clathrin that were defined over many years of biochemical and structural analysis. In addition, new structural features of the clathrin trimerization domain were modelled for the first time, and the predictions correlated well with previous biochemical studies. A second model, placing auxilin within the lattice suggested a possible lattice contact targeted during lattice disassembly (Fotin et al. Nature 2004;432:649). This contact predicts interactions of the newly modelled trimerization domain with a newly defined extension of the clathrin triskelion, the ankle domain. These aspects of the new models were emphasized in the published reports describing them and in recent commentary (Brodsky, Nature 2004;432:568). Also emerging from the new models is a better picture of how the clathrin structure is distributed throughout the lattice, allowing the first predictions of interacting molecular interfaces contributing to contacts in the assembled lattice. The focus of this interchange is to emphasize these additional features revealed by the recently published models from Fotin and colleagues. 相似文献
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Bacterial Activity, Community Structure, and Centimeter-Scale Spatial Heterogeneity in Contaminated Soil 总被引:5,自引:0,他引:5
In an anthropogenically disturbed soil (88% sand, 8% silt, 4% clay), 150-mg samples were studied to examine the fine-scale
relationship of bacterial activity and community structure to heavy metal contaminants. The soils had been contaminated for
over 40 years with aromatic solvents, Pb, and Cr. Samples from distances of <1, 5, 15, and 50 cm over a depth range of 40–90 cm
underwent a sequential analysis to determine metabolic potential (from 14C glucose mineralization), bacterial community structure [using polymerase chain reaction-denaturing gradient gel electrophoresis
(PCR-DGGE)], and total extractable Pb and Cr levels. Metabolic potential varied by as much as 10,000-fold in samples <1 cm
apart; log–log plots of metal concentration and microbial metabolic potential showed no correlation with each other. Overall,
metal concentrations ranged from 9 to 29,000 mg kg−1 for Pb and from 3 to 8500 mg kg−1 for Cr with small zones of high contamination present. All regions exhibited variable metal concentrations, with some soil
samples having 30-fold differences in metal concentration in sites <1 cm apart. Geostatistical analysis revealed a strong
spatial dependence for all three parameters tested (metabolic activity, Pb, and Cr levels) with a range up to 30 cm. Kriging
maps showed that in zones of high metal, the corresponding metabolic activity was low suggesting that metals negatively impacted
the microbial community. PCR-DGGE analysis revealed that diverse communities were present in the soils with a random distribution
of phylotypes throughout the sampling zones. These results suggest the presence of spatially isolated microbial communities
within the soil profile. 相似文献