A simple, fast, and orientation-controllable technology for preparing antibody-modified liposomes.

Modification with antibodies is a useful strategy for the delivery of nanoparticles to target cells. However, the complexity of the required chemical modifications makes them time-consuming and low efficiency, and the orientation of the antibody is challenging to control. To develop a simple, fast, effective, and orientation-controllable technology, we employed staphylococcal protein A, which can bind to the Fc region of antibodies, as a tool for conjugating antibodies to nanoparticles.

Rapid modification of antibodies on the surface of liposomes composed of high-affinity protein A-conjugated phospholipid for selective drug delivery.

Antibody-modified liposomes, immuno-liposomes, can selectively deliver encapsulated drug 'cargos' to cells via the interaction of cell surface proteins with antibodies. However, chemical modification of both the antibodies and phospholipids is required for the preparation of immuno-liposomes for each target protein using conventional methods, which is time-consuming. In the present study, we demonstrated that high-affinity protein A- (Protein A-R28: PAR28) displaying liposomes prepared by the post-insertion of PAR28-conjugated phospholipid through polyethylene glycol (PEG)-linkers (PAR28-PEG-lipo) can undergo rapid modification of antibodies on their surface, and the liposomes can be delivered to cells based on their modified antibodies.

Effective capture of proteins inside living cells by antibodies indirectly linked to a novel cell-penetrating polymer-modified protein A derivative.

Antibodies against cytoplasmic proteins are useful tools that can control cellular function and clarify signaling mechanisms. However, it is difficult to capture proteins inside living cells, and thus appropriate methods for antibody delivery to the cytoplasm of living cells are required. Cell-penetrating materials, such as the TAT-peptide, have received attention for their ability to deliver various cargos into living cells.

Increased expression of aquaporin-4 with methylmercury exposure in the brain of the common marmoset.

The relationship between methylmercury (MeHg) exposure and aquaporin (AQP) expression in the brain is currently unknown. To investigate this, we used a common marmoset model of acute MeHg exposure to examine AQP1, AQP4 and AQP11 gene expression. MeHg (1.

[Structural and functional properties of the C-terminal region of mitochondrial ADP/ATP carrier].

Mitochondrial ADP/ATP carrier (AAC) is a protein catalyzing the transport of adenine nucleotides across inner mitochondrial membrane. In this review article, we first briefly introduce structural and functional properties of this protein. Next, we describe the results of our recent studies on the difference in the C-terminal region between yeast type 2 AAC isoform and bovine type 1 AAC isoform.