The Non-host Pathogen Botrytis cinerea Enhances Glucose Transport in Pinus pinaster Suspension-cultured Cells

doi:10.1093/pcp/pci248

Plant and Cell Physiology Advance Access originally published online on January 11, 2006
Plant and Cell Physiology 2006 47(2):290-298; doi:10.1093/pcp/pci248

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The Non-host Pathogen Botrytis cinerea Enhances Glucose Transport in Pinus pinaster Suspension-cultured Cells

Herlânder Azevedo, Carlos Conde, Hernâni Gerós and Rui Manuel Tavares^*

Departamento de Biologia, Universidade do Minho, Campus de Gualtar, 4710-057 Braga, Portugal

^* Corresponding author: E-mail, tavares{at}bio.uminho.pt; Fax, +351 253678980.

Botrytis cinerea is the causal agent of grey mould disease anda non-host necrotrophic pathogen of maritime pine (Pinus pinaster).Recent evidence suggests that pathogen challenge can alter carbonuptake in plant cells; however, little is known on how elicitor-derivedsignalling pathways control sugar transport activity. P. pinastersuspended cells are able to absorb D-[¹⁴C]glucose with highaffinity, have an H⁺-dependent transport system (K _m, 0.07 mM;V _max, 1.5 nmol min^–1 mg^–1 DW), are specificfor D-glucose, D-fructose, D-galactose and D-xylose, and aresubject to glucose repression. When elicited by B. cinera spores,suspended cells exhibit calcium-dependent biphasic reactiveoxygen species (ROS) production, the second burst also beingdependent on NADPH oxidase, mitogen-activated protein kinase(MAPK), and de novo transcription and protein synthesis. Challengingsuspended cells incubated in sugar-free medium resulted in anup to 3-fold increase in glucose transport capacity over non-elicitedcultures 24 h after elicitation, and a 14-fold increaseover elicited cells incubated with 2% glucose. Enhanced glucoseuptake depended on NADPH oxidase and calcium influx, but notMAPK. In contrast, the increase of glucose transport activityinduced by sugar starvation was dependent on the activationof MAPK but not NADPH oxidase. Both responses appeared to bedependent on de novo transcription and protein synthesis.

(Received June 28, 2005; Accepted December 15, 2005)
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