TY - JOUR

T1 - The early ontogenetic development of immune cells and organs in teleosts

AU - Buchmann, Kurt

AU - Karami, Asma M.

AU - Duan, Yajiao

N1 - Publisher Copyright: © 2024 The Authors

PY - 2024

Y1 - 2024

N2 - Fully developed teleosts possess a highly developed immune system comprising both innate and adaptive elements, but when hatching from the egg, the yolksac larva is still at an ontogenetically incomplete stage with regard to physiological, including immunological, functions. The immune system in these young fish stages is far less developed when compared to the youngs appearing from reptile and avian eggs and from most mammals at parturition. In those vertebrate groups the early ontogenetic development of the fetus is highly protected. The lack of a fully developed immune system in yolksac larvae of fish is critical, because this stage encounters a potentially hostile and infectious aquatic environment. The strong selective pressure on the immune system of the yolksac larva and the youngest fry stages explains the existence of a multi-facetted innate system, which is protecting the young fish stages against viral, bacterial and parasitic infections. The sequential development of immune cells and organs depends on host species and its environmental setting. However, a strong armament comprising innate cells (neutrophilic granulocytes, macrophages) and molecules (receptors, lectins, complement, AMPs and constitutively expressed immunoglobulins) protect the earliest stages. The adaptive immune elements, including T-cells and B-cells, occur gradually in headkidney, spleen, thymus, tonsils, bursa equivalent (if present) and mucosa associated lymphoid cells. A functional protective response following immunization occur later.

AB - Fully developed teleosts possess a highly developed immune system comprising both innate and adaptive elements, but when hatching from the egg, the yolksac larva is still at an ontogenetically incomplete stage with regard to physiological, including immunological, functions. The immune system in these young fish stages is far less developed when compared to the youngs appearing from reptile and avian eggs and from most mammals at parturition. In those vertebrate groups the early ontogenetic development of the fetus is highly protected. The lack of a fully developed immune system in yolksac larvae of fish is critical, because this stage encounters a potentially hostile and infectious aquatic environment. The strong selective pressure on the immune system of the yolksac larva and the youngest fry stages explains the existence of a multi-facetted innate system, which is protecting the young fish stages against viral, bacterial and parasitic infections. The sequential development of immune cells and organs depends on host species and its environmental setting. However, a strong armament comprising innate cells (neutrophilic granulocytes, macrophages) and molecules (receptors, lectins, complement, AMPs and constitutively expressed immunoglobulins) protect the earliest stages. The adaptive immune elements, including T-cells and B-cells, occur gradually in headkidney, spleen, thymus, tonsils, bursa equivalent (if present) and mucosa associated lymphoid cells. A functional protective response following immunization occur later.

KW - Adaptive immunity

KW - Fish

KW - Innate immunity

KW - Ontogeny

U2 - 10.1016/j.fsi.2024.109371

DO - 10.1016/j.fsi.2024.109371

M3 - Journal article

C2 - 38232790

AN - SCOPUS:85184906450

VL - 146

JO - Fish and Shellfish Immunology

JF - Fish and Shellfish Immunology

SN - 1050-4648

M1 - 109371

ER -