Your search keyword '"Lai, Joyce"' showing total 3 results

1. Immune repertoire mining for rapid affinity optimization of mouse monoclonal antibodies

Author

Hsiao, Yi-Chun, Shang, Yonglei, DiCara, Danielle M., Yee, Angie, Lai, Joyce, Kim, Si Hyun, Ellerman, Diego, Corpuz, Racquel, Chen, Yongmei, Rajan, Sharmila, Cai, Hao, Wu, Yan, Seshasayee, Dhaya, and Hötzel, Isidro

Abstract

ABSTRACTTraditional hybridoma and B cell cloning antibody discovery platforms have inherent limits in immune repertoire sampling depth. One consequence is that monoclonal antibody (mAb) leads often lack the necessary affinity for therapeutic applications, thus requiring labor-intensive and time-consuming affinity in vitroengineering optimization steps. Here, we show that high-affinity variants of mouse-derived mAbs can be rapidly obtained by testing of somatic sequence variants obtained by deep sequencing of antibody variable regions in immune repertories from immunized mice, even with a relatively sparse sampling of sequence variants from large sequence datasets. Affinity improvements can be achieved for mAbs with a wide range of affinities. The optimized antibody variants derived from immune repertoire mining have no detectable in vitro off-target binding and have in vivo clearance comparable to the parental mAbs, essential properties in therapeutic antibody leads. As generation of antibody variants in vitro is replaced by mining of variants generated in vivo, the procedure can be applied to rapidly identify affinity-optimized mAb variants.

Published

2019

2. Functional GLP-1R antibodies identified from a synthetic GPCR-focused library demonstrate potent blood glucose control

Author

Liu, Qiang, Garg, Pankaj, Hasdemir, Burcu, Wang, Linya, Tuscano, Emily, Sever, Emily, Keane, Erica, Hernandez, Ana G Lujan, Yuan, Tom Z., Kwan, Eric, Lai, Joyce, Szot, Greg, Paruthiyil, Sreenivasan, Axelrod, Fumiko, and K. Sato, Aaron

Abstract

ABSTRACTG protein-coupled receptors (GPCRs) are a group of seven-transmembrane receptor proteins that have proven to be successful drug targets. Antibodies are becoming an increasingly promising modality to target these receptors due to their unique properties, such as exquisite specificity, long half-life, and fewer side effects, and their improved pharmacokinetic and pharmacodynamic profiles compared to peptides and small molecules, which results from their more favorable biodistribution. To date, there are only two US Food and Drug Administration-approved GPCR antibody drugs, namely erenumab and mogamulizumab, and this highlights the challenges encountered in identifying functional antibodies against GPCRs. Utilizing Twist’s precision DNA writing technologies, we have created a GPCR-focused phage display library with 1 × 1010diversity. Specifically, we mined endogenous GPCR binding ligand and peptide sequences and incorporated these binding motifs into the heavy chain complementarity-determining region 3 in a synthetic antibody library. Glucagon-like peptide-1 receptor (GLP-1 R) is a class B GPCR that acts as the receptor for the incretin GLP-1, which is released to regulate insulin levels in response to food intake. GLP-1 R agonists have been widely used to increase insulin secretion to lower blood glucose levels for the treatment of type 1 and type 2 diabetes, whereas GLP-1 R antagonists have applications in the treatment of severe hypoglycemia associated with bariatric surgery and hyperinsulinomic hypoglycemia. Here we present the discovery and creation of both antagonistic and agonistic GLP-1 R antibodies by panning this GPCR-focused phage display library on a GLP-1 R-overexpressing Chinese hamster ovary cell line and demonstrate their in vitro and in vivo functional activity.

Published

2021

3. Adult flatfoot

Author

Tang, Chris Yuk Kwan, Ng, Ka Ho, and Lai, Joyce

Published

2020