Abstract
Reptiles are declining worldwide yet our understanding of their immune function lags far behind other taxa. The innate immune system is the primary mode of defense in reptiles, and the serum complement cascade is its major component. We assessed serum complement activity of plasma in two closely related aquatic turtle species, the common snapping turtle (CST; Chelydra serpentina) and alligator snapping turtle (AST; Macrochelys temminckii). We used a sheep red blood cell (SRBC) hemolysis assay to assess serum complement activity. Although the antibacterial activities of the plasma of these turtle species are similar, the hemolytic activity was much stronger in CST than AST. Treatment with inhibitors of the serum complement cascade indicated differences in the mechanisms of complement activation between the turtle species. We subjected plasma from both turtle species to mannan affinity chromatography and analyzed the eluate with SDS-PAGE, which revealed that plasma from the CSTs contained only small amounts of one C-type lectin protein while the AST plasma contained high concentrations of two C-type lectins (31.0 and 35.9 kDa). Edman degradation analyses confirmed that the two AST proteins contained identical N-terminal sequences. Thus, the CST appears to rely more heavily on the alternative mechanism of serum complement activation, while the AST appears to rely more on the lectin-mediated pathway, which is a pattern recognition response to prokaryotes not activated by the SRBCs. These results are unique in that the use of serum complement pathways are generally assumed to be conserved within clades.
Highlights
The animal immune system is divided into two branches, innate and adaptive immunity, which work both individually and in tandem to provide defense from pathogens
The common snapping turtle (CST) plasma exhibited near maximal activity at 30–60 min., but the plasma from alligator snapping turtle (AST) only showed 13.2 ± 0.3% activity at 120 min
The initial hemolytic activity (2–20 min) of the CST show an approximate 50-fold increase in slop compared that of plasma from ASTs
Summary
The animal immune system is divided into two branches, innate and adaptive immunity, which work both individually and in tandem to provide defense from pathogens. The primary mechanism of the innate immune response is the serum complement system. Chelydridae split from other turtle families roughly 110 MYA and the last common ancestor of CSTs and ASTs likely existed 21 MYA [22]. These two genera share many characteristics and are broadly referred to as snapping turtles. Previous work has shown that CSTs have a relatively more robust innate immune response when compared to ASTs, likely due to differences in geographic range and habitat requirements [25]. This study evaluated serum complement immune activity of snapping turtles (Chelydridae) in response to time and temperature, and investigated the primary activation pathway used by each species
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