Ramona Schmitt scite author profile

The chicken Ig-like receptors (CHIR) have been described as two Ig domain molecules with long cytoplasmic tails containing inhibitory motifs. In this study, we demonstrate that CHIR form a large family, with multiple members showing great sequence variability among members as well as a great diversity in domain organization and properties of the transmembrane and cytoplasmic segments. We characterize various novel receptor types with motifs indicative of inhibitory, activating, or both functions. In addition to the inhibitory receptors with two ITIM, receptors with a single immunoreceptor tyrosine-based switch motif or receptors lacking a cytoplasmic domain were isolated. Activating receptors with a short cytoplasmic domain and a transmembrane arginine assembled with the newly identified chicken FcεRIγ chain. Three bifunctional receptor types were characterized composed of one or two C2-type Ig-like domains, a transmembrane region with a positively charged residue and combinations of cytoplasmic motifs such as ITIM, immunoreceptor tyrosine-based switch motif, and YXXM. RT-PCR revealed distinct expression patterns of individual CHIR. All receptor types shared a conserved genomic architecture, and in single Ig domain receptors a pseudoexon replaced the second Ig exon. Southern blot analyses with probes specific for the Ig1 domain were indicative of a large multigene family. Of 103 sequences from the Ig1 domain of a single animal, 41 unique sequences were obtained that displayed extensive variability within restricted Ig regions. Fluorescence in situ hybridization localized the CHIR gene cluster to microchromosome 31 and identified this region as orthologous to the human leukocyte receptor complex.

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The Chicken Leukocyte Receptor Complex Encodes a Family of Different Affinity FcY Receptors

Viertlboeck

Schweinsberg

Schmitt

et al. 2009

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Chicken Ig-like receptors (CHIR) form a large family in the leukocyte receptor complex on microchromosome 31 with inhibitory, activating, and bifunctional receptors. Recently, we characterized CHIR-AB1 as a high-affinity, primordial FcY receptor. Given that the CHIR family represents a multigene family, it is plausible that more than a single receptor binds to IgY. Therefore, after comparing CHIR-AB1-like sequences in databases, we cloned CHIR-AB1 homologues from two individual chickens representing the lines M11 and R11 with primers binding to highly conserved regions. In both lines this approach yielded 18 different CHIR-AB amino acid versions, with one sequence out of each line that was identical with the previously characterized B19 CHIR-AB1 Ig domain and two additional R11-M11 identical sequence pairs. All M11-derived CHIR-AB homologues were then expressed as soluble human Ig fusion proteins. Following standardization of the fusion protein concentration with an ELISA, the IgY, IgM, and IgA binding activities were determined by ELISA. Six fusion proteins recognized IgY, whereas none bound to IgM and IgA. The affinities of selected fusion proteins were determined using surface plasmon resonance yielding an equilibrium binding constant between 25 nM for high binders and 260 nM for low binders. Sequence comparisons and subsequent mutational analysis of selected residues identified five amino acids that are potentially involved in IgY binding. These results imply that multiple FcY receptors of variable affinity are encoded by the CHIR locus and that different chicken lines may express both unique as well as highly conserved FcY receptors.

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The chicken immunoregulatory receptor families SIRP, TREM, and CMRF35/CD300L

2006

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Mammalian immunoregulatory families of genes encoding activating and inhibitory Ig-like receptor pairs have been located on distinct chromosomes. In chicken, a single Ig-like receptor family with many members had been described so far. By looking at sequence similarity and synteny conservations in the chicken genome, the signal-regulatory protein (SIRP), triggering receptor expressed on myeloid cells (TREM), and CMRF35/CD300L Ig-like gene families were identified on chromosomes 20, 26, and 3, respectively. Further analysis of the three corresponding genomic regions and partial bacterial artificial chromosome sequencing were used to identify more members and to realign several contigs. All putative genomic sequences were monitored by investigating existing expressed sequence tag and cloning cDNA. This approach yielded a single pair of activating and inhibitory SIRP, two inhibitory, and one activating TREM as well as one inhibitory CMRF35/CD300L with a potentially soluble variant and an additional member lacking categorizing motifs. The CMRF35/CD300L and TREM receptors were composed of one or two V-set Ig domains, whereas in SIRP, either a single Ig V domain was present or a combination of a V and C1 domains. Like in many Ig superfamily members, separate exons encode individual Ig domains. However, in two CMRF35/CD300L genes, the signal peptide and the distal Ig domain were encoded by a single exon. In conclusion, the mammalian diversity of immunoregulatory molecules is present the chicken suggesting an important role for TREM, SIRP, and CMRF35/CD300L in a functionally conserved network.

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Complexity of expressed CHIR genes

Viertlboeck

Gick

Schmitt

et al. 2010

Developmental & Comparative Immunology

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Ramona Schmitt

The chicken leukocyte receptor complex encodes a primordial, activating, high-affinity IgY Fc receptor

The Chicken Leukocyte Receptor Complex: A Highly Diverse Multigene Family Encoding at Least Six Structurally Distinct Receptor Types

The Chicken Leukocyte Receptor Complex Encodes a Family of Different Affinity FcY Receptors

The chicken immunoregulatory receptor families SIRP, TREM, and CMRF35/CD300L

Complexity of expressed CHIR genes

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