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LRR Domain (lrr + domain)

Distribution by Scientific Domains
Medical Sciences50%
Life Sciences37%

Selected Abstracts

Binding of platelet glycoprotein Ib, through the convex surface of leucine-rich repeats domain of glycoprotein IX

JOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 9 2009
X. MO
Summary.,Background: The mechanism of assembly of the platelet glycoprotein (GP) Ib-IX complex from GPIb,, GPIb, and GPIX subunits is not entirely clear. In this complex, ectodomains of both GPIb, and GPIX subunits contain two leucine-rich repeats (LRR) and share high sequence similarity. However, they differ noticeably in stability, hampering further analysis of their interaction. Objectives and methods: Guided by analysis of the LRR structure, we report a well-folded Ib,/IX chimera and its usage in dissecting GPIX function. Results: In this chimera, three non-contiguous sequences that may constitute the putative convex surface of the GPIb, ectodomain are replaced by their GPIX counterparts. Like GPIb, but unlike GPIX ectodomain, it can secrete from transfected Chinese hamster ovary cells and fold into a stable conformation. Furthermore, replacing the ectodomain in GPIX with the Ib,/IX chimera, but not the GPIb, ectodomain, preserved its interaction with GPIb, as demonstrated by its native-like GPIb,-induced increase in surface expression and coimmunoprecipitation. Conclusions: The putative convex surface of the LRR domain in GPIX is sufficient, in the context of full-length subunit, to mediate its association with GPIb,. [source]

Role of the leucine-rich repeat domain of cryopyrin/NALP3 in monosodium urate crystal,induced inflammation in mice

ARTHRITIS & RHEUMATISM, Issue 7 2010
Hal M. Hoffman
Objective The mechanism by which monosodium urate monohydrate (MSU) crystals intracellularly activate the cryopyrin inflammasome is unknown. The aim of this study was to use a mouse molecular genetics,based approach to test whether the leucine-rich repeat (LRR) domain of cryopyrin is required for MSU crystal,induced inflammation. Methods Cryopyrin-knockout lacZ (Cryo,Z/,Z) mice and mice with the cryopyrin LRR domain deleted and fused to the lacZ reporter (Cryo,LRR Z/,LRR Z) were generated using bacterial artificial chromosome,based targeting vectors, which allow for large genomic deletions. Bone marrow,derived macrophages from Cryo,LRR Z/,LRR Z mice, Cryo,Z/,Z mice, and congenic wild-type (WT) mice were challenged with endotoxin-free MSU crystals under serum-free conditions. Phagocytosis and cytokine expression were assessed by flow cytometry and enzyme-linked immunosorbent assay. MSU crystals also were injected into mouse synovial-like subcutaneous air pouches. The in vivo inflammatory responses were examined. Results Release of interleukin-1, (IL-1,), but not CXCL1 and tumor necrosis factor ,, was impaired in Cryo,LRR Z/,LRR Z and Cryo,Z/,Z mouse bone marrow,derived macrophages compared with WT mouse bone marrow,derived macrophages in response to not only MSU crystals but also other known stimuli that activate the cryopyrin inflammasome. In addition, a comparable percentage of MSU crystals taken up by each type of bone marrow,derived macrophage was observed. Moreover, total leukocyte infiltration in the air pouch and IL-1, production were attenuated in Cryo,Z/,Z and Cryo,LRR Z/,LRR Z mice at 6 hours postinjection of MSU crystals compared with WT mice. Conclusion MSU crystal,induced inflammatory responses were comparably attenuated both in vitro and in vivo in Cryo,LRR Z/,LRR Z and Cryo,Z/,Z mice. Hence, the LRR domain of cryopyrin plays a role in mediating MSU crystal,induced inflammation in this model. [source]

Functional consequences of a germline mutation in the leucine-rich repeat domain of NLRP3 identified in an atypical autoinflammatory disorder

ARTHRITIS & RHEUMATISM, Issue 4 2010
Isabelle Jéru
Objective To gain insight into the pathophysiology of an atypical familial form of an autoinflammatory disorder, characterized by autosomal-dominant sensorineural hearing loss, systemic inflammation, increased secretion of interleukin-1, (IL-1,), and the absence of any cutaneous manifestations, and to assess the functional consequences of a missense mutation identified in the leucine-rich repeat (LRR) domain of NLRP3. Methods Microsatellite markers were used to test the familial segregation of the NLRP3 locus with the disease phenotype. All NLRP3 exons were screened for mutations by sequencing. Functional assays were performed in HEK 293T cells to determine the effects of mutated (versus normal) NLRP3 proteins on NF-,B activation, caspase 1 signaling, and speck formation. Results A heterozygous NLRP3 missense mutation (p.Tyr859Cys) was identified in exon 6, which encodes the LRR domain of the protein. This mutation was found to segregate with the disease phenotype within the family, and had a moderate activating effect on speck formation and procaspase 1 processing and did not alter the inhibitory properties of NLRP3 on NF-,B signaling. Conclusion This report is the first to describe a familial form of a cryopyrinopathy associated with a mutation outside of exon 3 of NLRP3. This finding, together with the known efficacy of anti,IL-1 treatments in these disorders, underlines the importance of screening all exons of NLRP3 in patients who present with atypical manifestations. In addition, the gain of function associated with this mutation in terms of activation of caspase 1 signaling was consistent with the observed inflammatory phenotype. Therefore, this study of the functional consequences of an LRR mutation sheds new light on the clinical relevance of in vitro assays. [source]

Structure of internalin C from Listeria monocytogenes

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 11 2006
Amy Ooi
The crystal structure of internalin C (InlC) from Listeria monocytogenes has been determined at 2.0,Å resolution. Several observations implicate InlC in infection: inlC has the same transcriptional activator as other virulence genes, it is only present in pathogenic Listeria strains and an inlC deletion mutant is significantly less virulent. While the extended concave receptor-binding surfaces of the leucine-rich repeat (LRR) domains of internalins A and B have aromatic clusters involved in receptor binding, the corresponding surface of InlC is smaller, flatter and more hydrophilic, suggesting that InlC may be involved in weak or transient associations with receptors; this may help explain why no receptor has yet been discovered for InlC. In contrast, the Ig-like domain, to which the LRR domain is fused, has surface aromatics that may be of functional importance, possibly being involved in binding to the surface of the bacteria or in receptor binding. [source]

The leucine-rich repeat domain in plant innate immunity: a wealth of possibilities

CELLULAR MICROBIOLOGY, Issue 2 2009
Meenu Padmanabhan
Summary The innate immune system of both plants and animals uses immune receptors to detect pathogens and trigger defence responses. Despite having distinct evolutionary origin, most plant and animal immune receptors have a leucine-rich repeat (LRR) domain. The LRR domain adopts a slender conformation that maximizes surface area and has been shown to be ideal for mediating protein,protein interactions. Although the LRR domain was expected to be a platform for pathogen recognition, the NB-LRR class of plant innate immune receptors uses its LRR domain to carry out many other roles. This review discusses the domain architecture of plant LRRs and the various roles ascribed to this motif. [source]

Research Article: The Cysteine Pairs in CLV2 are Not Necessary for Sensing the CLV3 Peptide in Shoot and Root Meristems

JOURNAL OF INTEGRATIVE PLANT BIOLOGY, Issue 9 2010
Xiufen Song
Receptor-like proteins (RLPs) are involved in both plant defense and developmental processes. Previous genetic and biochemical studies show that the leucine-rich repeat (LRR) receptor-like protein CLAVATA2 (CLV2) functions together with CLAVATA1 (CLV1) and CORYNE (CRN) in Arabidopsis to limit the stem cell number in shoot apical meristem, while in root it acts with CRN to trigger a premature differentiation of the stem cells after sensing the exogenously applied peptides of CLV3p, CLE19p or CLE40p. It has been proposed that disulfide bonds might be formed through two cysteine pairs in the extracellular LRR domains of CLV1 and CLV2 to stabilize the receptor complex. Here we tested the hypothesis by replacing these cysteines with alanines and showed that depletions of one or both of the cysteine pairs do not hamper the function of CLV2 in SAM maintenance. In vitro peptide assay also showed that removal of the cysteine pairs did not affect the perception of CLV3 peptides in roots. These observations allow us to conclude that the formation of disulfide bonds is not needed for the function of CLV2. [source]

ER quality control of immune receptors and regulators in plants

CELLULAR MICROBIOLOGY, Issue 6 2010
Yusuke Saijo
Summary Like in animals, cell surface and intracellular receptors mediate immune recognition of potential microbial intruders in plants. Membrane-localized pattern recognition receptors (PRRs) initiate immune responses upon perception of cognate microbe-associated molecular patterns (MAMPs). MAMP-triggered immunity provides a first line of defence that restricts the invasion and propagation of both adapted and non-adapted pathogens. The Leu-rich repeat (LRR) receptor protein kinases (RKs) define a major class of trans-membrane receptors in plants, of which some members are engaged in MAMP recognition and/or defence signalling. The endoplasmic reticulum (ER) quality control (QC) systems monitor N-glycosylation and folding states of the extracellular, ligand-binding LRR domains of LRR-RKs. Recent progress reveals a critical role of evolutionarily conserved ERQC components for different layers of plant immunity. N-glycosylation appears to play a role in ERQC fidelity rather than in ligand binding of LRR-RKs. Moreover, even closely related PRRs show receptor-specific requirements for N-glycosylation. These findings are reminiscent of the earlier defined function of the cytosolic chaperon complex for LRR domain-containing intracellular immune receptors. QC of the LRR domains might provide a basis not only for the maintenance but also for diversification of recognition specificities for immune receptors in plants. [source]