First pan-specific vNAR against human TGF-β as a potential therapeutic application: in silico modeling assessment.
Mirna Burciaga-FloresAna Laura Márquez-AguirreSalvador DueñasJahaziel Gasperin-BulbarelaAlexei Fedorovish Licea-NavarroTanya Amanda Camacho-VillegasPublished in: Scientific reports (2023)
Immunotherapies based on antibody fragments have been developed and applied to human diseases, describing novel antibody formats. The vNAR domains have a potential therapeutic use related to their unique properties. This work used a non-immunized Heterodontus francisci shark library to obtain a vNAR with recognition of TGF-β isoforms. The isolated vNAR T1 selected by phage display demonstrated binding of the vNAR T1 to TGF-β isoforms (-β1, -β2, -β3) by direct ELISA assay. These results are supported by using for the first time the Single-Cycle kinetics (SCK) method for Surface plasmon resonance (SPR) analysis for a vNAR. Also, the vNAR T1 shows an equilibrium dissociation constant (K D ) of 9.61 × 10 -8 M against rhTGF-β1. Furthermore, the molecular docking analysis revealed that the vNAR T1 interacts with amino acid residues of TGF-β1, which are essential for interaction with type I and II TGF-β receptors. The vNAR T1 is the first pan-specific shark domain reported against the three hTGF-β isoforms and a potential alternative to overcome the challenges related to the modulation of TGF-β levels implicated in several human diseases such as fibrosis, cancer, and COVID-19.
Keyphrases
- transforming growth factor
- molecular docking
- endothelial cells
- induced pluripotent stem cells
- molecular dynamics simulations
- coronavirus disease
- pluripotent stem cells
- sars cov
- epithelial mesenchymal transition
- amino acid
- signaling pathway
- molecular dynamics
- papillary thyroid
- risk assessment
- young adults
- respiratory syndrome coronavirus
- electron transfer