Agnathans possess a convergent adaptive immune system in comparison to that of jawed vertebrates. In lieu of immunoglobulins, agnathans deploy variable lymphocyte receptors (VLRs), single chain protein effector molecules consisting of leucine rich repeat modules. Foundational work for this discovery utilized the parasitic sea lamprey, Petromyzon marinus. However, for several reasons, it is desirable to employ a local species for further studies of lamprey immunity. A disjunct freshwater species from the Kings River of California, Lampetra hubbsi, was evaluated for this purpose. Validation that its adaptive immune system was analogous to that of P. marinus entailed detailed examination of its immune tissue organization and of its VLRB cDNA transcripts. The VLRB molecules showed high degrees of homology with P. marinus VLRB. Furthermore, hemato-lymphopoietic tissue expression of VLRB protein was confirmed. We conclude that L. hubbsi should be a viable alternative for studying the lamprey adaptive immune system and for generation of monoclonal antibodies.
Keywords: Antibody; Brook lamprey; Gene; Transcript; Variable lymphocyte receptor.
Copyright © 2021 Elsevier Ltd. All rights reserved.