Home > Publications > Molecular pathogenesis of EBV susceptibility in XLP as revealed by analysis of female carriers with heterozygous expression of SAP
Centenary Institute - Medical Research
Centenary Institute - Medical Research

Molecular pathogenesis of EBV susceptibility in XLP as revealed by analysis of female carriers with heterozygous expression of SAP

X-linked lymphoproliferative disease (XLP) is a primary immunodeficiency caused by mutations in SH2D1A which encodes SAP. SAP functions in signalling pathways elicited by the SLAM family of leukocyte receptors. A defining feature of XLP is exquisite sensitivity to infection with EBV, a B-lymphotropic virus, but not other viruses. Although previous studies have identified defects in lymphocytes from XLP patients, the unique role ofSAP in controlling EBV infection remains unresolved. We describe a novel approach to this question usingfemale XLP carriers who, due to random X-inactivation, contain both SAP(+) and SAP(-) cells. This represents the human equivalent of a mixed bone marrow chimera in mice. While memory CD8(+) T cells specific for CMV and influenza were distributed across SAP(+) and SAP(-) populations, EBV-specific cells were exclusivelySAP(+). The preferential recruitment of SAP(+) cells by EBV reflected the tropism of EBV for B cells, and the requirement for SAP expression in CD8(+) T cells for them to respond to Ag-presentation by B cells, but not other cell types. The inability of SAP(-) clones to respond to Ag-presenting B cells was overcome by blocking the SLAM receptors NTB-A and 2B4, while ectopic expression of NTB-A on fibroblasts inhibited cytotoxicity ofSAP(-) CD8(+) T cells, thereby demonstrating that SLAM receptors acquire inhibitory function in the absence ofSAP. The innovative XLP carrier model allowed us to unravel the mechanisms underlying the uniquesusceptibility of XLP patients to EBV infection in the absence of a relevant animal model. We found that this reflected the nature of the Ag-presenting cell, rather than EBV itself. Our data also identified a pathological signalling pathway that could be targeted to treat patients with severe EBV infection. This system may allow the study of other human diseases where heterozygous gene expression from random X-chromosome inactivation can be exploited.

Umaimainthan Palendira, Carol Low, Anna Chan, Andrew D Hislop, Edwin Ho, Tri Giang Phan, Matthew C Cook, D Sean Riminton, Sharon Choo, Richard Loh, Frank Alvaro, Claire Booth, H. Bobby Gaspar, Alessandro Moretta, Rajiv Khanna, Alan B Rickinson and Stuart G Tangye.

PLoS Biology. 2011 November 9:11

Date: 2011