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Kurt R. Gehlsen Rui Gong Dave Bramhill David A. Wiersma Shaun A. Kirkpatrick Yangping Wang Yang Feng Dimiter S. Dimitrov 《MABS-AUSTIN》2012,4(4):466-474
Therapeutic monoclonal antibodies have several advantages over small molecule drugs and small proteins and peptides, including a long serum half-life. The long serum half-life of IgG is due, in part, to its molecular weight (150kDa) and its ability to bind FcRn. Both the CH2 and CH3 domains of Fc are involved in FcRn binding. Antibody fragments and antibody-like scaffolds have improved penetration into tissues due to their small size, yet suffer from a short serum half-life of less than one hour. The human CH2 domain (CH2D) of IgG1 retains a portion of the FcRn binding site, is amenable to modification for target binding, and may represent the smallest antibody-like scaffold retaining a relatively long serum half-life. Here we describe the generation of a dimeric CH2D (dCH2D) and determination of its pharmacokinetics (PK), as well as the PK of wild-type monomeric CH2D (mCH2D) and a short stabilized CH2D variant (ssCH2D) in normal B6 mice, human FcRn transgenic mice and cynomolgus macaques. The elimination half-life of dCH2D was 9.9, 10.4 and 11.2 hours, and that of ssCH2D was 13.1, 9.9 and 11.4 hours, in B6 mice, hFcRn mice and cynomolgus macaques, respectively. These half-lives were slightly longer than that of mCH2D (6.9 and 8.8 hours) in B6 and hFcRn mice, respectively. These data demonstrate that engineered CH2D-based variants have relatively long serum half-lives, making them a unique scaffold suitable for development of targeted therapeutics. 相似文献
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Zhenhong Hu Han Y. H. Chen Chao Yue Xiao Ying Gong Junjiong Shao Guiyao Zhou Jiawei Wang Minhuang Wang Jianyang Xia Yongtao Li Xuhui Zhou Sean T. Michaletz 《Global Change Biology》2020,26(6):3429-3442
CO2 fluxes from wood decomposition represent an important source of carbon from forest ecosystems to the atmosphere, which are determined by both wood traits and climate influencing the metabolic rates of decomposers. Previous studies have quantified the effects of moisture and temperature on wood decomposition, but these effects were not separated from the potential influence of wood traits. Indeed, it is not well understood how traits and climate interact to influence wood CO2 fluxes. Here, we examined the responses of CO2 fluxes from dead wood with different traits (angiosperm and gymnosperm) to 0%, 35%, and 70% rainfall reduction across seasonal temperature gradients. Our results showed that drought significantly decreased wood CO2 fluxes, but its effects varied with both taxonomical group and drought intensity. Drought‐induced reduction in wood CO2 fluxes was larger in angiosperms than gymnosperms for the 35% rainfall reduction treatment, but there was no significant difference between these groups for the 70% reduction treatment. This is because wood nitrogen density and carbon quality were significantly higher in angiosperms than gymnosperms, yielding a higher moisture sensitivity of wood decomposition. These findings were demonstrated by a significant positive interaction effect between wood nitrogen and moisture on CO2 fluxes in a structural equation model. Additionally, we ascertained that a constant temperature sensitivity of CO2 fluxes was independent of wood traits and consistent with previous estimates for extracellular enzyme kinetics. Our results highlight the key role of wood traits in regulating drought responses of wood carbon fluxes. Given that both climate and forest management might extensively modify taxonomic compositions in the future, it is critical for carbon cycle models to account for such interactions between wood traits and climate in driving dynamics of wood decomposition. 相似文献
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Long Xing‐yu Gong Jiang‐ning Deng Mao Wu Di Chen Zhuo Xia Pin‐hua Gong Xiao‐jian Deng Qin Shi Zhi‐hui Yan Xue‐mei Tian Ru‐qing Jiang Cai‐yun 《Luminescence》2019,34(3):316-323
A novel, rapid and sensitive chemiluminescence (CL) method for the determination of oxytetracycline hydrochloride (OTCH) is described in this paper. The presented method was based on the fact that OTCH could immensely enhance the CL of the reaction of cerium sulfate and tris(2,2‐bipyridyl) ruthenium (II) in acidic medium. Under optimal experimental conditions, CL intensity was favorably linear for OTCH in the range 5.0 × 10?7 to 5.0 × 10?5 g/ml, with a detection limit of 1.5 × 10?7 g/ml (S/N = 3). The relative standard detection was 4.76% for 5.0 × 10?6 g/ml (n = 11). This method was successfully applied to the analysis of OTCH in milk and egg white samples. According to the results of the kinetic curves for OTCH in the Ru(bipy)32+–Ce(SO4)2 CL system, together with CL and ultraviolet (UV)–visible spectra, the possible mechanism of the CL reaction is discussed briefly. 相似文献
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Pengfei Pang Chun Wu Min Shen Faming Gong Kangshun Zhu Zaibo Jiang Shouhai Guan Hong Shan Xintao Shuai 《PloS one》2013,8(10)
The neural ganglioside GD2 has recently been reported to be a novel surface marker that is only expressed on human bone marrow mesenchymal stem cells within normal marrow. In this study, an MRI-visible, targeted, non-viral vector for effective gene delivery to human bone marrow mesenchymal stem cells was first synthesized by attaching a targeting ligand, the GD2 single chain antibody (scAbGD2), to the distal ends of PEG-g-PEI-SPION. The targeted vector was then used to condense plasmid DNA to form nanoparticles showing stable small size, low cytotoxicity, and good biocompatibility. Based on a reporter gene assay, the transfection efficiency of targeting complex reached the highest value at 59.6% ± 4.5% in human bone marrow mesenchymal stem cells, which was higher than those obtained using nontargeting complex and lipofectamine/pDNA (17.7% ± 2.9% and 34.9% ± 3.6%, respectively) (P<0.01). Consequently, compared with the nontargeting group, more in vivo gene expression was observed in the fibrotic rat livers of the targeting group. Furthermore, the targeting capacity of scAbGD2-PEG-g-PEI-SPION was successfully verified in vitro by confocal laser scanning microscopy, Prussian blue staining, and magnetic resonance imaging. Our results indicate that scAbGD2-PEG-g-PEI-SPION is a promising MRI-visible non-viral vector for targeted gene delivery to human bone marrow mesenchymal stem cells. 相似文献
220.
Msb1 is not essential for growth in the budding yeast Saccharomyces cerevisiae since msb1Δ cells do not display obvious phenotypes. Genetic studies suggest that Msb1 positively regulates Cdc42 function during bud development, since high-copy MSB1 suppressed the growth defect of temperature-sensitive cdc24 and cdc42 mutants at restrictive temperature, while deletion of MSB1 showed synthetic lethality with cdc24, bem1, and bem2 mutations. However, the mechanism of how Msb1 regulates Cdc42 function remains poorly understood. Here, we show that Msb1 localizes to sites of polarized growth during bud development and interacts with Cdc42 in the cells. In addition, Msb1 interacts with Boi1 and Boi2, two scaffold proteins that also interact with Cdc42 and Bem1. These findings suggest that Msb1 may positively regulate Cdc42 function by interacting with Cdc42, Boi1, and Boi2, which may promote the efficient assembly of Cdc42, Cdc24, and other proteins into a functional complex. We also show that Msb1 interacts with Rho1 in the cells and Msb1 overproduction inhibits the growth of rho1-104 and rho1-3 but not rho1-2 cells. The growth inhibition appears to result from the down-regulation of Rho1 function in glucan synthesis, specifically during early stage of bud development. These results suggest that Msb1 may coordinate Cdc42 and Rho1 functions during early stage of bud development by promoting Cdc42 function and inhibiting Rho1 function. Msb1 overproduction also affects cell morphology, septin organization, and causes increased, aberrant deposition of 1,3-β-glucan and chitin at the mother-bud neck. However, the stimulation of glucan synthesis mainly occurs during late, but not early, stage of bud development. 相似文献