Abstract
Phytocystatins are potent inhibitors of cysteine proteases and have been shown to participate in senescence, seed and organ biogenesis, and plant defense. However, phytocystatins are generally poor inhibitors of the cysteine protease, bromelain, of pineapple (Ananas comosus). Here, we demonstrated that pineapple cystatin, AcCYS1, inhibited (>95%) stem and fruit bromelain. AcCYS1 is a unique cystatin in that it contains an extended N-terminal trunk (NTT) of 63 residues rich in alanine and glutamate. A signal peptide preceding the NTT is processed in vitro by microsomal membranes giving rise to a 27-kD species. AcCYS1 mRNA was present in roots and leaves but was most abundant in fruit. Using immunofluorescence and immunoelectron microscopy with an AcCYS1-specific antiserum, AcCYS1 was found in the apoplasm. Immunoblot analysis identified a 27-kD protein in fruit, roots, and leaves and a 15-kD species in mature ripe fruit. Ripe fruit extracts proteolytically removed the NTT of 27-kD AcCYS1 in vitro to produce the 15-kD species. Mass spectrometry analysis was used to map the primary cleavage site immediately after a conserved critical glycine-94. The AE-rich NTT was required to inhibit fruit and stem bromelain (>95%), whereas its removal decreased inhibition to 20% (fruit) and 80% (stem) and increased the dissociation equilibrium constant by 1.8-fold as determined by surface plasmon resonance assays. We propose that proteolytic removal of the NTT results in the decrease of the inhibitory potency of AcCYS1 against fruit bromelain during fruit ripening to increase tissue proteolysis, softening, and degradation.
Highlights
Phytocystatins are cysteine protease inhibitors from plants that reside in the cystatin superfamily and contain a distinctive -helix-forming sequence [LVI]-[AGT]-[RKE]-[FY]-[AS]-[VI]-x-[EDQV][HYFQ]-N in the main body (Margis et al, 1998)
We propose that proteolytic removal of the N-terminal trunk (NTT) results in the decrease of the inhibitory potency of AcCYS1 against fruit bromelain during fruit ripening to increase tissue proteolysis, softening and degradation
AcCYS1 contains a signal peptide and an extended NTT rich in Ala and Glu A full-length cDNA encoding AcCYS1 was isolated after reverse northern hybridization analysis (Neuteboom et al, 2002) for mRNAs that are up-regulated in fruit
Summary
Phytocystatins are cysteine protease inhibitors from plants that reside in the cystatin superfamily and contain a distinctive -helix-forming sequence [LVI]-[AGT]-[RKE]-[FY]-[AS]-[VI]-x-[EDQV][HYFQ]-N in the main body (Margis et al, 1998). Its three-dimensional structure (Nagata et al, 2000) resembles the structure of chicken egg white cystatin (Bode et al, 1988). These structural features of OC-I include a five-stranded antiparallel -pleated sheet, which is wrapped around the -helix. Two regions are predicted to reversibly bind to the active site of papain-like cysteine-proteases. They are the highly conserved QxVxG motif that is situated on a loop between the second and third -strand, and a conserved W on a loop between the fourth and fifth -strand (Arai et al, 1991; Urwin et al, 1995). The region preceding the conserved G is referred to as the N-terminal trunk (NTT) and has been shown to interact with cysteine protease (Björk et al, 1995; Girard et al, 2007; Machleidt et al, 1989), but the role of the NTT in phytocystatins is less clear
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