Your search keyword '"Intact form"' showing total 6 results

1. In vivo self-assembly of an intact functional cage protein: Intracellular generation of chimeric ferritins without disassembly-involved damage.

Author

Kim, Koung Hee, Ki, Mi-Ran, Nguyen, Thi Khoa My, Min, Ki Ha, and Pack, Seung Pil

Subjects

PEPTIDES, FUNCTIONAL analysis, MONOMERS, DESIGN templates, NANOSTRUCTURED materials, FERRITIN

Abstract

[Display omitted] Ferritin (Fn) is an attractive nano-biomaterial with a hollow structure. Functional chimeric cage-protein Fns (chimera-Fn) can be designed by combining two different monomer subunits. However, unavoidable damage is induced by the severe disassembly conditions required for preparing the Fn monomer. Here, a biocompatible method using a designed dual-expression vector to obtain chimera-Fns without a damage-inducing process is described. Fn monomer and silica-forming peptide (Kpt)-fused Fn monomer are expressed simultaneously and assembled within host-cells to form chimera-Fn of Kpt. Characteristic analysis showed that the chimera-Fns obtained intracellularly were composed of the two monomers in a ratio of 1:1. Morphological and functional analyses determined that the intracellularly-generated chimera-Fns had more intact forms and bioactive functions compared with those produced by chemical-involved disassembly and reassembly. This is the first report about the in vivo self-assembly of chimera-Fn with intact function and hold promise in designing functional templates for various nanomaterial preparations. [ABSTRACT FROM AUTHOR]

Published

2025

2. Liposomes and lipid disks traverse the BBB and BBTB as intact forms as revealed by two-step Förster resonance energy transfer imaging.

Author

Dai, Tongcheng, Jiang, Kuan, and Lu, Weiyue

Subjects

BLOOD-brain barrier, GLIOMA treatment, LIPOSOMES, DRUG delivery systems, NANOMEDICINE, FLUORESCENCE resonance energy transfer

Abstract

The blood–brain barrier (BBB) and the blood–brain tumor barrier (BBTB) prevent drug and nano-drug delivery systems from entering the brain. However, ligand-mediated nano-drug delivery systems have significantly enhanced the therapeutic treatment of glioma. In this study we investigated the mechanism especially the integrity of liposomes and lipid disks while traversing the BBB and BBTB both in vitro and in vivo . Fluorophores (DiO, DiI and DiD) were loaded into liposomes and lipid disks to form Förster resonance energy transfer (FRET) nano-drug delivery systems. Using brain capillary endothelial cells as a BBB model, we show that liposomes and disks are present in the cytoplasm as their intact forms and traverse the BBB with a ratio of 0.68‰ and 1.67‰, respectively. Using human umbilical vein endothelial cells as BBTB model, liposomes and disks remained intact and traversed the BBTB with a ratio of 2.31‰ and 8.32‰ at 3 h. Ex vivo imaging and immunohistochemical results revealed that liposomes and disks could traverse the BBB and BBTB in vivo as intact forms. In conclusion, these observations explain in part the mechanism by which nano-drug delivery systems increase the therapeutic treatment of glioma. [ABSTRACT FROM AUTHOR]

Published

2018

3. Factors Specifically Expressed in Osteoblasts

Author

Kawaguchi, Jitsutaro, Horiuchi, Keisuke, Kudo, Hisaaki, Takeshita, Sunao, Kudo, Akira, Ikura, Kouji, editor, Nagao, Masaya, editor, Masuda, Seiji, editor, and Sasaki, Ryuzo, editor

Published

2002

4. Modes of Absorption of Macromolecular Substances

Author

Gebert, G., Gardner, Michael L. G., and Steffens, Klaus-Jürgen

Published

1995

5. Liposomes and lipid disks traverse the BBB and BBTB as intact forms as revealed by two-step Förster resonance energy transfer imaging

Author

Kuan Jiang, Weiyue Lu, and Tongcheng Dai

Subjects

Intact form, BBTB, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Umbilical vein, In vivo, Glioma, medicine, General Pharmacology, Toxicology and Pharmaceutics, Liposome, Chemistry, lcsh:RM1-950, 021001 nanoscience & nanotechnology, medicine.disease, In vitro, 0104 chemical sciences, Disks, lcsh:Therapeutics. Pharmacology, Förster resonance energy transfer, Cytoplasm, Liposomes, FRET, Biophysics, Original Article, 0210 nano-technology, BBB, Ex vivo

Abstract

The blood–brain barrier (BBB) and the blood–brain tumor barrier (BBTB) prevent drug and nano-drug delivery systems from entering the brain. However, ligand-mediated nano-drug delivery systems have significantly enhanced the therapeutic treatment of glioma. In this study we investigated the mechanism especially the integrity of liposomes and lipid disks while traversing the BBB and BBTB both in vitro and in vivo. Fluorophores (DiO, DiI and DiD) were loaded into liposomes and lipid disks to form Förster resonance energy transfer (FRET) nano-drug delivery systems. Using brain capillary endothelial cells as a BBB model, we show that liposomes and disks are present in the cytoplasm as their intact forms and traverse the BBB with a ratio of 0.68‰ and 1.67‰, respectively. Using human umbilical vein endothelial cells as BBTB model, liposomes and disks remained intact and traversed the BBTB with a ratio of 2.31‰ and 8.32‰ at 3 h. Ex vivo imaging and immunohistochemical results revealed that liposomes and disks could traverse the BBB and BBTB in vivo as intact forms. In conclusion, these observations explain in part the mechanism by which nano-drug delivery systems increase the therapeutic treatment of glioma., Graphical abstract Fluorophores (DiO, DiI and DiD) were loaded into liposomes and disks to form Förster resonance energy transfer (FRET) nano-drug delivery systems. Using this method, we investigated the integrity of liposomes and disks traversing BBB and BBTB both in vitro and in vivo.fx1

Published

2018

6. Production of XynX, a Large Multimodular Protein of Clostridium thermocellum, by Protease-Deficient Bacillus subtilis Strains.

Author

Phuong, Nguyen, Jeong, Yu, Selvaraj, Thangaswamy, Kim, Sung, Kim, Yong, Jung, Kyung, Kim, Jungho, Yun, Han, Wong, Sui-Lam, Lee, Jung-Kul, and Kim, Hoon

Abstract

XynX of Clostridium thermocellum is a large, multimodular xylanase of 116 kDa. An Escherichia coli transformant carrying the entire xynX produced three active truncated xylanase species of 105, 85, and 64 kDa intracellularly. The Bacillus subtilis WB700 transformant with the xynX, a strain deficient in seven proteases including Vpr, secreted two active truncated xylanase species of 65 and 44 kDa. The B. subtilis WB800 transformant with xynX, a strain deficient in eight proteases including Vpr and WprA, secreted more active enzymes, 8.46 U ml, mostly in the form of 105 and 85 kDa, than the WB700 transformant, 6.93 U ml. This indicates that the additional deletion of wprA enabled the WB800 to secrete XynX in its intact form. B. subtilis WB800 produced more total enzyme activity than E. coli (1,692 ± 274 U vs. 141.9 ± 27.1 U), and, more importantly, secreted almost all the enzyme activity. The results suggest the potential use of B. subtilis WB800 as a host system for the production of large multimodular proteins. [ABSTRACT FROM AUTHOR]

Published

2012