Astrid P. Heikema scite author profile

LIR-1 is a class I MHC receptor related to natural killer inhibitory receptors (KIRs). Binding of LIR-1 or KIRs to class I molecules results in inhibitory signals. Unlike individual KIRs, LIR-1 recognizes many class I alleles and also binds UL18, a human cytomegalovirus class I MHC homolog. Here, we show that LIR-1 interacts with the relatively nonpolymorphic alpha3 domain of class I proteins and the analogous region of UL18 using its N-terminal immunoglobulin-like domain. The >1000-fold higher affinity of LIR-1 for UL18 than for class I illustrates how a viral protein competes with host proteins to subvert the host immune response. LIR-1 recognition of class I molecules resembles the CD4-class II MHC interaction more than the KIR-class I interaction, implying a functional distinction between LIR-1 and KIRs.

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The crucial role of Campylobacter jejuni genes in anti-ganglioside antibody induction in Guillain-Barré syndrome

Godschalk¹,

Heikema²,

Gilbert³

et al. 2004

J. Clin. Invest.

123

165

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Molecular mimicry of Campylobacter jejuni lipo-oligosaccharides (LOS) with gangliosides in nervous tissueis considered to induce cross-reactive antibodies that lead to Guillain-Barré syndrome (GBS), an acute polyneuropathy. To determine whether specific bacterial genes are crucial for the biosynthesis of ganglioside-like structures and the induction of anti-ganglioside antibodies, we characterized the C. jejuni LOS biosynthesis gene locus in GBS-associated and control strains. We demonstrated that specific types of the LOS biosynthesis gene locus are associated with GBS and with the expression of ganglioside-mimicking structures. Campylobacter knockout mutants of 2 potential GBS marker genes, both involved in LOS sialylation, expressed truncated LOS structures without sialic acid, showed reduced reactivity with GBS patient serum, and failed to induce an anti-ganglioside antibody response in mice. We demonstrate, for the first time, to our knowledge, that specific bacterial genes are crucial for the induction of anti-ganglioside antibodies.

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A novel link between Campylobacter jejuni bacteriophage defence, virulence and Guillain–Barré syndrome

Louwen

Horst-Kreft

Boer

et al. 2012

Eur J Clin Microbiol Infect Dis

140

158

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Guillain-Barré syndrome (GBS) is a post-infectious disease in which the human peripheral nervous system is affected after infection by specific pathogenic bacteria, including Campylobacter jejuni. GBS is suggested to be provoked by molecular mimicry between sialylated lipooligosaccharide (LOS) structures on the cell envelope of these bacteria and ganglioside epitopes on the human peripheral nerves, resulting in autoimmune-driven nerve destruction. Earlier, the C. jejuni sialyltransferase (Cst-II) was found to be linked to GBS and demonstrated to be involved in the biosynthesis of the ganglioside-like LOS structures. Apart from a role in pathogenicity, we report here that Cst-II-generated ganglioside-like LOS structures confer efficient bacteriophage resistance in C. jejuni. By bioinformatic analysis, it is revealed that the presence of sialyltransferases in C. jejuni and other potential GBS-related pathogens correlated significantly with the apparent degeneration of an alternative anti-virus system: type II Clusters of Regularly Interspaced Short Palindromic Repeat and associated genes (CRISPR-Cas). Molecular analysis of the C. jejuni CRISPR-Cas system confirmed the bioinformatic investigation. CRISPR degeneration and mutations in the cas genes cas2, cas1 and csn1 were found to correlate with Cst-II sialyltransferase presence (p < 0.0001). Remarkably, type II CRISPR-Cas systems are mainly found in mammalian pathogens. To study the potential involvement of this system in pathogenicity, we inactivated the type II CRISPR-Cas marker gene csn1, which effectively reduced virulence in primarily cst-II-positive C. jejuni isolates. Our findings indicate a novel link between viral defence, virulence and GBS in a pathogenic bacterium.

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Crystal Structure and Ligand Binding Properties of the D1D2 Region of the Inhibitory Receptor LIR-1 (ILT2)

et al. 2000

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LIR-1 is an inhibitory receptor that recognizes class I MHC molecules and the human cytomegalovirus class I homolog UL18. Here, we report the 2.1 A resolution crystal structure of the ligand binding portion of LIR-1 (domains 1 and 2 [D1D2]) and localize the binding region for UL18. LIR-1 D1D2 is composed of two immunoglobulin-like domains arranged at an acute angle to form a bent structure resembling the structures of natural killer inhibitory receptors (KIRs). The LIR-1 binding site comprises a portion of D1 distant from the interdomain hinge region that constitutes the KIR binding site, consistent with differences in LIR-1 and KIR recognition properties and functions.

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Astrid P. Heikema

The Inhibitory Receptor LIR-1 Uses a Common Binding Interaction to Recognize Class I MHC Molecules and the Viral Homolog UL18

The crucial role of Campylobacter jejuni genes in anti-ganglioside antibody induction in Guillain-Barré syndrome

A novel link between Campylobacter jejuni bacteriophage defence, virulence and Guillain–Barré syndrome

Crystal Structure and Ligand Binding Properties of the D1D2 Region of the Inhibitory Receptor LIR-1 (ILT2)

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