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- Title
Temporal dynamics and plasticity in the cellular immune response of the sea fan coral, Gorgonia ventalina.
- Authors
Couch, Courtney; Weil, Ernesto; Harvell, C.
- Abstract
The temporal dynamics of the invertebrate immune response often determines an organism's success in responding to physiological stress, physical damage, and pathogens. To date, most immune challenge studies have been conducted under highly controlled laboratory conditions, with few attempts to study immune function in the wild. In this study, we characterized the temporal dynamics of the Caribbean sea fan, Gorgonia ventalina, cellular immune response [granular amoebocyte aggregation and prophenoloxidase (PPO) activation] to allogenic grafts in the laboratory and field using a clonally replicated design. Amoebocyte reaction time differed markedly between the lab (% amoebocyte surface area in tissue sections peaked at 2 days) and field (peak at 6 days). PPO activity decreased between 0 and 6 days after grafting in both ungrafted and grafted tissue, suggesting PPO is decoupled from other cellular components. The reaction norms of the fold induction in % amoebocyte area between disease-grafted and healthy-grafted tissue of each colony across time indicate high intercolony plasticity in cellular immune response. The plasticity between colonies was also evident in the magnitude of cellular immune response, ranging from a 0.88- to 1.60-fold increase in amoebocyte area between initial and 6 days for the disease-grafted tissue. With the demonstration of highly dynamic cnidarian cellular immune responses, our study expands understanding of the evolutionary ecology of metazoan immune defense mechanisms.
- Subjects
PHENOTYPIC plasticity; IMMUNE response; ALCYONACEA; CORALS; PROPHENOLOXIDASE; HOMOGRAFTS
- Publication
Marine Biology, 2013, Vol 160, Issue 9, p2449
- ISSN
0025-3162
- Publication type
Article
- DOI
10.1007/s00227-013-2240-6