Cell Wall-linked Cryptococcal Phospholipase B1 Is a Source of Secreted Enzyme and a Determinant of Cell Wall Integrity

A Rosemary Siafakas,Tania C Sorrell,Lesley C Wright,Christabel Wilson,Michelle Larsen,Ross Boadle,Peter R Williamson,Julianne T Djordjevic

doi:10.1074/jbc.m707913200

A Rosemary Siafakas, Tania C Sorrell + Show 6 more

Open Access

https://doi.org/10.1074/jbc.m707913200

Copy DOI

Abstract

Phospholipase B (Plb1) is secreted by pathogenic fungi and is a proven virulence determinant in Cryptococcus neoformans. Cell-associated Plb1 is presumptively involved in fungal membrane biogenesis and remodelling. We have also identified it in cryptococcal cell walls. Motif scanning programs predict that Plb1 is attached to cryptococcal membranes via a glycosylphosphatidylinositol (GPI) anchor, which could regulate Plb1 export and secretion. A functional GPI anchor was identified in cell-associated Plb1 by (G)PI-specific phospholipase C (PLC)-induced release of Plb1 from strain H99 membrane rafts and inhibition of GPI anchor synthesis by YW3548, which prevented Plb1 secretion and transport to membranes and cell walls. Plb1 containing beta-1,6-linked glucan was released from H99 (wild-type strain) cell walls by beta-1,3 glucanase, consistent with covalent attachment of Plb1 via beta-1,6-linked glucans to beta-1,3-linked glucan in the central scaffold of the wall. Naturally secreted Plb1 also contained beta-1,6-linked glucan, confirming that it originated from the cell wall. Plb1 maintains cell wall integrity because a H99 deletion mutant, DeltaPLB1, exhibited a morphological defect and was more susceptible than H99 to cell wall disruption by SDS and Congo red. Growth of DeltaPLB1 was unaffected by caffeine, excluding an effect of Plb1 on cell wall biogenesis-related signaling pathways. Environmental (heat) stress caused Plb1 accumulation in cell walls, with loss from membranes and reduced secretion, further supporting the importance of Plb1 in cell wall integrity. This is the first demonstration that Plb1 contributes to fungal survival by maintaining cell wall integrity and that the cell wall is a source of secreted enzyme.

Highlights

Inate from the lung and cause a potentially fatal meningitis, especially in patients with AIDS
Plb1 Is Released from Membranes by Exogenous (G)PI-PLC and Partitions into TX-114—We have shown previously that Plb1 is present in cryptococcal membranes [7]
DNA sequencing, hydropathy plotting, and GPI anchor motif scanning using the DGPI/GPI-SOM prediction programs, predict that cryptococcal Plb1 is attached to the cell membrane by a GPI anchor

Summary

The abbreviations used are

Phospholipase B1; GPI, glycosylphosphatidylinositol anchor; (G)PI-PLC, GPI-specific phospholipase C; SOD, superoxide dismutase; MES, 4-morpholineethanesulfonic acid; HRP, horseradish peroxidase. There is evidence that cryptococcal Plb is covalently bound to ␤-glucans in the cell wall because it is released from cell walls of both C. neoformans and S. cerevisiae expressing heterologous cryptococcal Plb, by treatment with fungal ␤-1,3 glucanase [9]. This raises the possibility that cryptococcal Plb serves dual functions in the cryptococcal cell, namely, that it is involved in membrane homeostasis and remodelling and in the maintenance of cell wall integrity. Secreted Plb, which facilitates tissue invasion, may be directly derived from the cell wall, in which case, the cell membrane is not, as is currently believed, the only source of extracellular Plb

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION