Viscosity Control of Protein Solution by Small Solutes: A Review

Hong, Taehun; Iwashita, Kazuki; Shiraki, Kentaro

doi:10.2174/1389203719666171213114919

Cited by 92 publications

(71 citation statements)

References 124 publications

(151 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…It is well documented that hydrophobic effect is an important phenomenon that drives the interaction between proteins which stabilizes the protein conformation. [ 67 ] Hence, it is logical that GelMA-Tyr, which is more hydrophobic thanGelMA, has an increased interaction between the macromer chains and thus requires a higher yield stress to facilitate extrusion of the material. Importantly, ACPCs were able to withstand the shear stress during extrusion where cell-laden GelMA or GelMA-Tyr bionks showed high cell viability (>70%, Figure 4B ) and sustained metabolic activity ( Figure S7, Supporting Information ) 1 and 7 days postprinting, demonstrating the suitability of the dual functionalized bioinks for applications in such a bioprinting approach.…”

Section: Resultsmentioning

confidence: 99%

One‐Step Photoactivation of a Dual‐Functionalized Bioink as Cell Carrier and Cartilage‐Binding Glue for Chondral Regeneration

Lim

Abinzano

Bernal

et al. 2020

Adv Healthcare Materials

View full text Add to dashboard Cite

Cartilage defects can result in pain, disability, and osteoarthritis. Hydrogels providing a chondroregeneration-permissive environment are often mechanically weak and display poor lateral integration into the surrounding cartilage. This study develops a visible-light responsive gelatin ink with enhanced interactions with the native tissue, and potential for intraoperative bioprinting. A dual-functionalized tyramine and methacryloyl gelatin (GelMA-Tyr) is synthesized. Photo-crosslinking of both groups is triggered in a single photoexposure by cell-compatible visible light in presence of tris(2,2'-bipyridyl)dichlororuthenium(II) and sodium persulfate as initiators. Neo-cartilage formation from embedded chondroprogenitor cells is demonstrated in vitro, and the hydrogel is successfully applied as bioink for extrusion-printing. Visible light in situ crosslinking in cartilage defects results in no damage to the surrounding tissue, in contrast to the native chondrocyte death caused by UV light (365–400 nm range), commonly used in biofabrication. Tyramine-binding to proteins in native cartilage leads to a 15-fold increment in the adhesive strength of the bioglue compared to pristine GelMA. Enhanced adhesion is observed also when the ink is extruded as printable filaments into the defect. Visible-light reactive GelMA-Tyr bioinks can act as orthobiologic carriers for in situ cartilage repair, providing a permissive environment for chondrogenesis, and establishing safe lateral integration into chondral defects.

show abstract

Section: Resultsmentioning

confidence: 99%

One‐Step Photoactivation of a Dual‐Functionalized Bioink as Cell Carrier and Cartilage‐Binding Glue for Chondral Regeneration

Lim

Abinzano

Bernal

et al. 2020

Adv Healthcare Materials

View full text Add to dashboard Cite

show abstract

“…The high solubility of albumin (up to 40% w / v ) at pH 7.4, its stability at pH values of 4 to 9, and temperature variations (up to 60 °C when heated for 10 h) without any deleterious effects make it an attractive macromolecular stabilizer [ 22 , 23 , 24 , 25 ]. As an example, Chang and co-workers demonstrated that BSA was able to stabilize an enzyme by promoting hydrophobic interactions and increasing the viscosity of the enzyme solution [ 26 ]; however, this must be carefully balanced as increasing the protein concentration and viscosity increases the probability of aggregation which could lead to decreased enzyme availability or non-uniform NP formation [ 27 ].…”

Section: Introductionmentioning

confidence: 99%

Enzyme Stability in Nanoparticle Preparations Part 1: Bovine Serum Albumin Improves Enzyme Function

et al. 2020

View full text Add to dashboard Cite

Enzymes have gained attention for their role in numerous disease states, calling for research for their efficient delivery. Loading enzymes into polymeric nanoparticles to improve biodistribution, stability, and targeting in vivo has led the field with promising results, but these enzymes still suffer from a degradation effect during the formulation process that leads to lower kinetics and specific activity leading to a loss of therapeutic potential. Stabilizers, such as bovine serum albumin (BSA), can be beneficial, but the knowledge and understanding of their interaction with enzymes are not fully elucidated. To this end, the interaction of BSA with a model enzyme B-Glu, part of the hydrolase class and linked to Gaucher disease, was analyzed. To quantify the natural interaction of beta-glucosidase (B-Glu,) and BSA in solution, isothermal titration calorimetry (ITC) analysis was performed. Afterwards, polymeric nanoparticles encapsulating these complexes were fully characterized, and the encapsulation efficiency, activity of the encapsulated enzyme, and release kinetics of the enzyme were compared. ITC results showed that a natural binding of 1:1 was seen between B-Glu and BSA. Complex concentrations did not affect nanoparticle characteristics which maintained a size between 250 and 350 nm, but increased loading capacity (from 6% to 30%), enzyme activity, and extended-release kinetics (from less than one day to six days) were observed for particles containing higher B-Glu:BSA ratios. These results highlight the importance of understanding enzyme:stabilizer interactions in various nanoparticle systems to improve not only enzyme activity but also biodistribution and release kinetics for improved therapeutic effects. These results will be critical to fully characterize and compare the effect of stabilizers, such as BSA with other, more relevant therapeutic enzymes for central nervous system (CNS) disease treatments.

show abstract

“…Several types of protein-excipient interactions (hydrogen bonding, preferential hydration, electrostatic interactions, dispersive interactions, cationep interactions) could each effectively disrupt the PPIs within proteins. 37,38 Although TMPAI and TrpNH 2 HCl have the potential for pep interactions (via their aromatic rings interacting with aromatic rings in amino acid residues in mAb-C), GdnHCl, as a chaotropic salt, 39 was more effective in terms of diminishing PPIs for mAb-C. 40 Preferential interactions of GdnHCl with mAb-C might more effectively compete PPIs. 38 However, comparisons are complicated because I À from TMPAI is a stronger chaotrope than Cl À .…”

Section: Effects Of Hydrophobic (Tmpai and Trpnh 2 Hcl) And Chaotropimentioning

confidence: 99%

“…37,38 Although TMPAI and TrpNH 2 HCl have the potential for pep interactions (via their aromatic rings interacting with aromatic rings in amino acid residues in mAb-C), GdnHCl, as a chaotropic salt, 39 was more effective in terms of diminishing PPIs for mAb-C. 40 Preferential interactions of GdnHCl with mAb-C might more effectively compete PPIs. 38 However, comparisons are complicated because I À from TMPAI is a stronger chaotrope than Cl À . 41 Therefore, albeit similar properties exist between cations of TMPAI and TrpNH 2 HCl, the anions of these 2 additives, including I À and Cl À , may play roles that differentiate their RSA-disrupting efficiency.…”

Section: Effects Of Hydrophobic (Tmpai and Trpnh 2 Hcl) And Chaotropimentioning

confidence: 99%

Characterization of Excipient Effects on Reversible Self-Association, Backbone Flexibility, and Solution Properties of an IgG1 Monoclonal Antibody at High Concentrations: Part 2

Toth

Joshi

et al. 2020

Journal of Pharmaceutical Sciences

View full text Add to dashboard Cite

Viscosity Control of Protein Solution by Small Solutes: A Review

Cited by 92 publications

References 124 publications

One‐Step Photoactivation of a Dual‐Functionalized Bioink as Cell Carrier and Cartilage‐Binding Glue for Chondral Regeneration

One‐Step Photoactivation of a Dual‐Functionalized Bioink as Cell Carrier and Cartilage‐Binding Glue for Chondral Regeneration

Enzyme Stability in Nanoparticle Preparations Part 1: Bovine Serum Albumin Improves Enzyme Function

Characterization of Excipient Effects on Reversible Self-Association, Backbone Flexibility, and Solution Properties of an IgG1 Monoclonal Antibody at High Concentrations: Part 2

Contact Info

Product

Resources

About