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1.
Biotechnol Bioeng ; 117(8): 2351-2361, 2020 08.
Article in English | MEDLINE | ID: mdl-32369186

ABSTRACT

The immunoglobulin G (IgG) molecule has a long circulating serum half-life (~3 weeks) through pH- dependent FcRn binding-mediated recycling. To hijack the intracellular trafficking and recycling mechanism of IgG as a way to extend serum persistence of non-antibody therapeutic proteins, we have evolved the ectodomain of a low-affinity human FcγRIIa for enhanced binding to the lower hinge and upper CH2 region of IgG, which is very far from the FcRn binding site (CH2-CH3 interface). High-throughput library screening enabled isolation of an FcγRIIa variant (2A45.1) with 32-fold increased binding affinity to human IgG1 Fc (equilibrium dissociation constant: 9.04 × 10-7 M for wild type FcγRIIa and 2.82 × 10-8 M for 2A45.1) and significantly improved affinity to mouse serum IgG compared to wild type human FcγRIIa. The in vivo pharmacokinetic profile of PD-L1 fused with engineered FcγRIIa (PD-L1-2A45.1) was compared with that of PD-L1 fused with wild type FcγRIIa (PD-L1-wild type FcγRIIa) and human PD-L1 in mice. PD-L1-2A45.1 showed 11.7- and 9.7-fold prolonged circulating half-life (t1/2 ) compared to PD-L1 when administered intravenously and intraperitoneally, respectively. In addition, the AUCinf of PD-L1-2A45.1 was two-fold higher compared to that of PD-L1-wild type FcγRIIa. These results demonstrate that engineered FcγRIIa fusion offers a novel and successful strategy for prolonging serum half-life of therapeutic proteins.


Subject(s)
Protein Engineering/methods , Receptors, IgG , Recombinant Fusion Proteins , Animals , Directed Molecular Evolution , Gene Library , Half-Life , Humans , Immunoglobulin G , Mice , Mutation/genetics , Protein Binding , Receptors, IgG/chemistry , Receptors, IgG/genetics , Receptors, IgG/metabolism , Recombinant Fusion Proteins/chemistry , Recombinant Fusion Proteins/genetics , Recombinant Fusion Proteins/metabolism
2.
Biotechnol Bioeng ; 115(12): 2849-2858, 2018 12.
Article in English | MEDLINE | ID: mdl-30171695

ABSTRACT

Multimer formation is indispensable to the intrinsicbiologicalfunctions of many natural proteins. For example, the human immunoglobulin G (IgG) antibody has two variable regions (heavy chain variable domain [VH] and light chain variable domain [VL]) that must be assembled for specific antigen binding, and homodimerization of the antibody's Fc domain is essential for eliciting therapeutic effector functions. For the more efficient high-throughput directed evolution of multimeric proteins with ease of cultivation and handling, here we report a membrane protein drift and assembly (MPDA) system, in which a multimeric protein is displayed on a bacterial inner membrane by drifting and auto-assembling membrane-anchored subunit polypeptides. This system enabled the auto-assembly of membrane-tethered Fv domains (VH and VL) or the monomeric Fc domain into a functional hetero- or homodimeric protein complex on the bacterial inner membrane. This system could also be used to enrich a desired engineered Fc variant from a mixture containing a million-fold excess of wild-type Fc domain, indicating the applicability of the MPDA system for the high-throughput directed evolution of a variety of multimeric proteins, such as cytokines, enzymes, or structural proteins.


Subject(s)
Cell Membrane/metabolism , Directed Molecular Evolution/methods , Escherichia coli , Immunoglobulin Fragments/metabolism , Recombinant Proteins/metabolism , Cell Membrane/chemistry , Cytokines/chemistry , Cytokines/genetics , Cytokines/metabolism , Escherichia coli/cytology , Escherichia coli/genetics , Escherichia coli/metabolism , High-Throughput Screening Assays/methods , Humans , Immunoglobulin Fragments/chemistry , Immunoglobulin Fragments/genetics , Peptide Library , Recombinant Proteins/chemistry , Recombinant Proteins/genetics
3.
Langmuir ; 30(7): 1729-34, 2014 Feb 25.
Article in English | MEDLINE | ID: mdl-24512519

ABSTRACT

Monodisperse core-shell-structured poly(styrene-co-butyl acrylate-co-[2-(methacryloxy)ethyl] trimethylammonium chloride)/silica (PSBM/SiO2) nanoparticles were applied as new electrorheological (ER) materials in which the particles were dispersed in an insulating oil. These nanoparticles were prepared by the consecutive precipitation of cetyltrimethylammonium bromide and negatively charged tetraethylorthosilicate onto the cationic surfaces of PSBM colloidal particles. The successful deposition of the shell phase of the particles and their morphology was examined by transmission and scanning electron microscopy. Their ER properties were studied with a rotational rheometer under different shear modes: controlled shear rate, steady shear under constant shear rate, and creep test. The silica shell allowed the PSBM/SiO2 particles to exhibit typical ER performance under an applied electric field. The dielectric spectra of the PSBM/SiO2-based ER fluid were also recorded using an LCR meter, which was correlated to the ER performance of the ER fluid.


Subject(s)
Acrylic Resins/chemistry , Electrochemical Techniques , Nanoparticles/chemistry , Polystyrenes/chemistry , Silicon Dioxide/chemistry , Molecular Structure , Particle Size , Rheology , Surface Properties , Suspensions/chemistry
4.
J Agric Food Chem ; 67(43): 12037-12043, 2019 Oct 30.
Article in English | MEDLINE | ID: mdl-31581772

ABSTRACT

Despite remarkable contribution of green fluorescent protein and its variants for better understanding of various biological functions, its application for anaerobic microorganisms has been limited because molecular oxygen is essential for chromophore formation. To overcome the limitation, we engineered a plant-derived light, oxygen, or voltage (LOV) domain containing flavin mononucleotide for enhanced spectral properties. The resulting LOV variants exhibited improved fluorescence intensity (20 and 70% higher for SH3 and 70% for BR1, respectively) compared to iLOV, an LOV variant isolated in a previous study, and the quantum yields of the LOV variants (0.40 for SH3 and 0.45 for BR1) were also improved relative to that of iLOV (Q = 0.37). In addition to fluorescence intensity, the identified mutations of SH3 enabled an improved thermostability of the protein. The engineered LOV variants with enhanced spectral properties could provide a valuable tool for fluorescent molecular probes under anaerobic conditions.


Subject(s)
Arabidopsis Proteins/chemistry , Arabidopsis/genetics , Arabidopsis/metabolism , Arabidopsis/chemistry , Arabidopsis/radiation effects , Arabidopsis Proteins/genetics , Arabidopsis Proteins/metabolism , Flavin Mononucleotide/metabolism , Fluorescence , Light , Protein Domains , Protein Stability
5.
Nanoscale ; 7(35): 14774-85, 2015 Sep 21.
Article in English | MEDLINE | ID: mdl-26287395

ABSTRACT

A new approach for synthesizing well-defined hollow nanochanneled-silica nanosphere particles is demonstrated, and the structural details of these particles are described for the first time. Positively charged styrene copolymer nanospheres with a clean, smooth surface and a very narrow size distribution are synthesized by surfactant-free emulsion copolymerization and used as a thermal sacrificial core template for the production of core-shell nanoparticles. A surfactant/silica composite shell with a uniform thickness is successfully produced and deposited onto the polymeric core template by charge density matching between the polymer nanosphere template surface and the negatively charged silica precursors and then followed by selective thermal decomposition of the polymeric core and the surfactant cylinder domains in the shell, producing the hollow nanochanneled-silica nanospheres. Comprehensive, quantitative structural analyses collectively confirm that the obtained nanoparticles are structurally well defined with a hollow core and a shell composed of cylindrical nanochannels that provide facile accessibility to the hollow interior space. Overall, the hollow nanochanneled-silica nanoparticles have great potential for applications in various fields.

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