Background
In avian species, primordial germ cells (PGCs) migrate to the gonadal primordium through the vascular system. Because this mode of migration is reminiscent of cancer metastasis, it would be useful to elucidate the mechanisms underlying PGC migration via the bloodstream. Here, we sought to determine when, where, and how PGCs enter the vascular network by double visualization of PGCs and endothelial cells (ECs) in tie1:H2B‐eYFP transgenic quails.
Results
In the left and right lateral germinal crescent regions corresponding to the anterior‐most area vasculosa, more than 60% of PGCs were enveloped by differentiating ECs forming blood islands prior to vascular network formation. Cell morphology analysis suggested that the PGC‐EC interaction was instructed by differentiating ECs. At a later developmental stage, ECs anastomosed to form a vascular network with a lumen that retained PGCs within it. As a consequence, many PGCs localized within the luminal space of the mature vascular network at later stages.
Conclusions
Our findings demonstrate that the major type of avian PGC translocation into vascular tissue is not a typical intravasation, as performed by types of metastatic cancer cells, but rather a passive translocation (envelopment) mediated by differentiating ECs during early vasculogenesis.
Nanodisc technology has dramatically advanced the analysis of molecular interactions for membrane proteins. A nanodisc is designed as a vehicle for membrane proteins that provide a native-like phospholipid environment and better thermostability in a detergent-free buffer. This enables the determination of the thermodynamic and kinetic parameters of small molecule binding by surface plasmon resonance. In this study, we generated a nanodisc specific anti-MSP (membrane scaffold protein) monoclonal antibody biND5 for molecular interaction analysis of nanodiscs. The antibody, biND5 bound to various types of nanodiscs with sub-nanomolar to nanomolar affinity. Epitope mapping analysis revealed specific recognition of 8 amino acid residues in the exposed helix structure of MSP. Further, we performed kinetics binding analysis between adenosine A2a receptor reconstituted nanodiscs and small molecule antagonist ZM241385 using biND5 immobilized sensor chips. These results show that biND5 facilitates the molecular interaction kinetics analysis of membrane proteins substituted in nanodiscs.
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