Autoproteolytic Activation of a Symbiosis-regulated Truffle Phospholipase A2

Davide Cavazzini,Francesca Meschi,Romina Corsini,Angelo Bolchi,Gian Luigi Rossi,Oliver Einsle,Simone Ottonello

doi:10.1074/jbc.m112.384156

Davide Cavazzini, Francesca Meschi + Show 5 more

Open Access

https://doi.org/10.1074/jbc.m112.384156

Copy DOI

Abstract

Fungal phospholipases are members of the fungal/bacterial group XIV secreted phospholipases A(2) (sPLA(2)s). TbSP1, the sPLA(2) primarily addressed in this study, is up-regulated by nutrient deprivation and is preferentially expressed in the symbiotic stage of the ectomycorrhizal fungus Tuber borchii. A peculiar feature of this phospholipase and of its ortholog from the black truffle Tuber melanosporum is the presence of a 54-amino acid sequence of unknown functional significance, interposed between the signal peptide and the start of the conserved catalytic core of the enzyme. X-ray diffraction analysis of a recombinant TbSP1 form corresponding to the secreted protein previously identified in T. borchii mycelia revealed a structure comprising the five α-helices that form the phospholipase catalytic module but lacking the N-terminal 54 amino acids. This finding led to a series of functional studies that showed that TbSP1, as well as its T. melanosporum ortholog, is a self-processing pro-phospholipase A(2), whose phospholipase activity increases up to 80-fold following autoproteolytic removal of the N-terminal peptide. Proteolytic cleavage occurs within a serine-rich, intrinsically flexible region of TbSP1, does not involve the phospholipase active site, and proceeds via an intermolecular mechanism. Autoproteolytic activation, which also takes place at the surface of nutrient-starved, sPLA(2) overexpressing hyphae, may strengthen and further control the effects of phospholipase up-regulation in response to nutrient deprivation, also in the context of symbiosis establishment and mycorrhiza formation.

Highlights

TbSP1 is a phospholipase A2 strongly up-regulated during the symbiotic phase of the truffle Tuber borchii
Autoproteolytic activation is described for the first time for a microbial Phospholipases A2 (PLA2), with possible implications for symbiosis establishment
TbSP1, the Secreted PLA2s (sPLA2s) primarily addressed in this study, is up-regulated by nutrient deprivation and is preferentially expressed in the symbiotic stage of the ectomycorrhizal fungus Tuber borchii

Summary

Conclusion

TbSP1 autoproteolysis is a site-specific post-translational modification not involving the phospholipase active site. X-ray diffraction analysis of a recombinant TbSP1 form corresponding to the secreted protein previously identified in T. borchii mycelia revealed a structure comprising the five ␣-helices that form the phospholipase catalytic module but lacking the N-terminal 54 amino acids This finding led to a series of functional studies that showed that TbSP1, as well as its T. melanosporum ortholog, is a self-processing pro-phospholipase A2, whose phospholipase activity increases up to 80-fold following autoproteolytic removal of the N-terminal peptide. This finding, which pointed to a self-cleavage reaction taking place within the time required for crystallization, was confirmed and extended by targeted experiments carried out in solution These showed that both recombinant TbSP1 (as well as the orthologous sPLA2 from T. melanosporum) and the protein isolated from T. borchii mycelia are capable of region-specific autoproteolytic processing. Autoproteolytic activation may strengthen and further control the effects of TbSP1 up-regulation in response to nutrient deprivation, perhaps in the context of symbiosis establishment and mycorrhiza formation

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION