Improved purification and enzymatic properties of a mixture of Sticholysin I and II: Isotoxins with hemolytic and phospholipase A2 activities from the sea anemone Stichodactyla helianthus

•We recovered 95% of StI–StII from S. helianthus extract by affinity chromatography.•StI–StII PLA2 activity is optimum toward soybean PC at 40mM Ca2+ and pH 8.•Ca2+ is required for PLA2 activity but not for binding to soybean PC monolayers.•We propose that StI–StII PLA2 activity is not required to b...

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Published inProtein expression and purification Vol. 95; pp. 57 - 66
Main Authors del Monte-Martínez, Alberto, González-Bacerio, Jorge, Romero, Lázara, Aragón, Carlos, Martínez, Diana, Chávez, María de los Á., Álvarez, Carlos, Lanio, María E., Guisán, José M., Díaz, Joaquín
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.03.2014
Subjects
Affinity chromatography
Hemolysin
PLA2
Stichodactyla helianthus
Sticholysin I
Sticholysin II
PLA2
Sticholysin II
Stichodactyla helianthus
Sticholysin I
Affinity chromatography
Hemolysin
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Summary:•We recovered 95% of StI–StII from S. helianthus extract by affinity chromatography.•StI–StII PLA2 activity is optimum toward soybean PC at 40mM Ca2+ and pH 8.•Ca2+ is required for PLA2 activity but not for binding to soybean PC monolayers.•We propose that StI–StII PLA2 activity is not required to binding to membranes. Sticholysin I and Sticholysin II (StI and StII) are two potent hemolysins which form pores in natural and model membranes at nanomolar concentrations. These proteins were purified from the aqueous extract of the sea anemone Stichodactyla helianthus, Ellis 1768, by gel filtration and ionic exchange chromatography. This procedure rendered StI and StII with high purity (purification factors: 36 and 50, respectively) but a low yield of hemolytic activity, HA (<3%). Additionally, these toxins exhibited very low phospholipase activity (10−3U/mg of protein). In this work, a mixture StI–StII was obtained (yield >95%, with an increase in specific activity: 14 times) from the animal extract using an oxidized phospholipid-based affinity chromatographic matrix binding phospholipases. Cytolysin identification in the mixture was performed by immunoblotting and N-terminal sequence analyses. Phospholipase A2 (PLA2) activity of StI–StII was relatively high (1.85U/mg) and dependent of Ca2+. The activity resulted optimum when was measured with the mostly unsaturated soybean phosphatidylcholine (PC), when compared to the less unsaturated egg PC or completely saturated dipalmitoyl PC, in the presence of 40mM Ca2+ at pH 8.0. This Ca2+ concentration did not exert any effect on binding of StI–StII with soybean PC monolayers. Then, PLA2 activity seems not be required to binding to membranes.
ISSN:1046-5928
1096-0279
DOI:10.1016/j.pep.2013.11.016