Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Cluster Formation and Entanglement in the Rheology of Antibody Solutions.

Literature DB >> 30986054

Cluster Formation and Entanglement in the Rheology of Antibody Solutions.

Nelson Ramallo¹, Subhash Paudel¹, Jeremy Schmit¹.

Abstract

Antibody solutions deviate from the dynamical and rheological response expected for globular proteins, especially as the volume fraction is increased. Experimental evidence shows that antibodies can reversibly bind to each other via Fab and Fc domains and form larger structures (clusters) of several antibodies. Here, we present a microscopic equilibrium model to account for the distribution of cluster sizes. Antibody clusters are modeled as polymers that can grow via reversible bonds either between two Fab domains or between Fab and Fc domain. We propose that the dynamical and rheological behavior is determined by molecular entanglements of the clusters. This entanglement does not occur at low concentrations where antibody-antibody binding contributes to the viscosity by increasing the effective size of the particles. The model explains the observed shear-thinning behavior of antibody solutions.

Entities: Chemical Disease Gene

Year: 2019 PMID： 30986054 PMCID： PMC6691888 DOI： 10.1021/acs.jpcb.9b01511

Source DB: PubMed Journal: J Phys Chem B ISSN： 1520-5207 Impact factor: 2.991

15 in total

1. Viscosity behavior of high-concentration protein mixtures.

Authors: William J Galush; Lan N Le; Jamie M R Moore
Journal: J Pharm Sci Date: 2011-12-13 Impact factor: 3.534

2. Factors affecting the viscosity in high concentration solutions of different monoclonal antibodies.

Authors: Sandeep Yadav; Steven J Shire; Devendra S Kalonia
Journal: J Pharm Sci Date: 2010-12 Impact factor: 3.534

3. Celebrating Soft Matter's 10th anniversary: Testing the foundations of classical entropy: colloid experiments.

Authors: Michael E Cates; Vinothan N Manoharan
Journal: Soft Matter Date: 2015-09-07 Impact factor: 3.679

4. Effect of Hierarchical Cluster Formation on the Viscosity of Concentrated Monoclonal Antibody Formulations Studied by Neutron Scattering.

Authors: P Douglas Godfrin; Isidro E Zarraga; Jonathan Zarzar; Lionel Porcar; Peter Falus; Norman J Wagner; Yun Liu
Journal: J Phys Chem B Date: 2016-01-07 Impact factor: 2.991

5. High shear rheology and anisotropy in concentrated solutions of monoclonal antibodies.

Authors: Isidro E Zarraga; Rosalynn Taing; Jonathan Zarzar; Jacob Luoma; Jenny Hsiung; Ankit Patel; Fredric J Lim
Journal: J Pharm Sci Date: 2013-07-19 Impact factor: 3.534

6. Weak interactions govern the viscosity of concentrated antibody solutions: high-throughput analysis using the diffusion interaction parameter.

Authors: Brian D Connolly; Chris Petry; Sandeep Yadav; Barthélemy Demeule; Natalie Ciaccio; Jamie M R Moore; Steven J Shire; Yatin R Gokarn
Journal: Biophys J Date: 2012-07-03 Impact factor: 4.033

7. Concentration dependent viscosity of monoclonal antibody solutions: explaining experimental behavior in terms of molecular properties.

Authors: Li Li; Sandeep Kumar; Patrick M Buck; Christopher Burns; Janelle Lavoie; Satish K Singh; Nicholas W Warne; Pilarin Nichols; Nicholas Luksha; Davin Boardman
Journal: Pharm Res Date: 2014-06-07 Impact factor: 4.200

8. Entanglement model of antibody viscosity.

Authors: Jeremy D Schmit; Feng He; Shradha Mishra; Randal R Ketchem; Christopher E Woods; Bruce A Kerwin
Journal: J Phys Chem B Date: 2014-05-02 Impact factor: 2.991

9. Observation of small cluster formation in concentrated monoclonal antibody solutions and its implications to solution viscosity.

Authors: Eric J Yearley; Paul D Godfrin; Tatiana Perevozchikova; Hailiang Zhang; Peter Falus; Lionel Porcar; Michihiro Nagao; Joseph E Curtis; Pradad Gawande; Rosalynn Taing; Isidro E Zarraga; Norman J Wagner; Yun Liu
Journal: Biophys J Date: 2014-04-15 Impact factor: 4.033

10. Hydrogen exchange mass spectrometry reveals protein interfaces and distant dynamic coupling effects during the reversible self-association of an IgG1 monoclonal antibody.

Authors: Jayant Arora; John M Hickey; Ranajoy Majumdar; Reza Esfandiary; Steven M Bishop; Hardeep S Samra; C Russell Middaugh; David D Weis; David B Volkin
Journal: MAbs Date: 2015 Impact factor: 5.857

7 in total

1. DeepSCM: An efficient convolutional neural network surrogate model for the screening of therapeutic antibody viscosity.

Authors: Pin-Kuang Lai
Journal: Comput Struct Biotechnol J Date: 2022-04-29 Impact factor: 6.155

Review 2. The Protein Folding Problem: The Role of Theory.

Authors: Roy Nassar; Gregory L Dignon; Rostam M Razban; Ken A Dill
Journal: J Mol Biol Date: 2021-07-03 Impact factor: 6.151

3. Calculation of therapeutic antibody viscosity with coarse-grained models, hydrodynamic calculations and machine learning-based parameters.

Authors: Pin-Kuang Lai; James W Swan; Bernhardt L Trout
Journal: MAbs Date: 2021 Jan-Dec Impact factor: 5.857

4. Differences in human IgG1 and IgG4 S228P monoclonal antibodies viscosity and self-interactions: Experimental assessment and computational predictions of domain interactions.

Authors: Pin-Kuang Lai; Gaurav Ghag; Yao Yu; Veronica Juan; Laurence Fayadat-Dilman; Bernhardt L Trout
Journal: MAbs Date: 2021 Jan-Dec Impact factor: 5.857