Identification of calpastatin, μ-calpain and m-calpain in Atlantic salmon (Salmo salar L.) muscle

A soft fish muscle is generally considered as a poor quality trait among consumers and producers. This degradation and softening of post mortem muscle is thought to be partly caused by proteolytic enzymes such as the calpain system. Separation and identification of μ-calpain and m-calpain and their inhibitor – calpastatin, from Atlantic salmon (Salmo salar) muscle were for the first time assessed in this study. A two-step chromatography approach was used, starting with a hydrophobic interaction column and followed by an anion exchange column. Calpastatin was successfully separated from calpain by hydrophobic interaction chromatography, and following the anion exchange chromatography, two forms of calpastatin (I and II) and two forms of calpain (micro (μ) and milli (m)) were revealed. The proteolytic activity of μ-calpain was detectable with column chromatography, but not consistently detected with casein zymography, and m-calpain was detected with both chromatography and casein zymogram. The proteolytic activity of m-calpain per g muscle was 15 times higher than that of μ-calpain. μ-Calpain had a temperature optimum of 15 °C and a maximum calcium requirement at 0.2 mM, while m-calpain had temperature optimum at 25 °C and a maximum calcium requirement of 0.6 mM. The two forms of calpastatin differed in inhibitory activity with calpastatin II having the highest activity. Both calpastatins tolerated heat treatment, as previously seen for mammals, and they kept their activity when stored at −80 °C, but not at −20 °C. The calpain to calpastatin ratio was 1:4.5 as observed for beef muscle. This study provides evidence that two calpain isoforms, likely to be μ- and m-calpain, in addition to two forms of calpastatin exist in Atlantic salmon muscle.