A family of unusual immunoglobulin superfamily genes in an invertebrate histocompatibility complex

Huene, Aidan L.; Sanders, Steven M.; Ma, Zhiwei; Nguyen, Anh‐Dao; Koren, Sergey; Michaca, Manuel; Mullikin, James C.; Phillippy, Adam M.; Schnitzler, Christine E.; Baxevanis, Andreas D; Nicotra, Matthew L.

doi:10.1073/pnas.2207374119

Cited by 9 publications

(14 citation statements)

References 67 publications

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“…Our study joins a growing body of work demonstrating the transformative power of structural modeling in identifying evolutionary connections 10 , 54 , 55 and informing mechanistic study. 11 The ability to detect distant homology is especially important for hybrid proteins such as C1, where global homology searches may be inconclusive ( Figures 3A – 3C ). Tools such as Foldseek 56 and the AlphaFold-based domain identification tool DPAM 57 are beginning to address these limitations and will empower future studies of structural homology, with continuing computational advances unlocking new biology.…”

Section: Discussionmentioning

confidence: 99%

“…Recent advances in structural modeling such as those implemented in AlphaFold2 8 have the potential to bridge this gap, and the utility of this breakthrough in identifying cryptic homology is already being appreciated. For example, ab initio modeling has been used to broadly identify pathogen mimics of host proteins, 9 to identify evolutionary connections among pathogen effectors, 10 to expand an understanding of immunoglobulin gene family evolution, 11 and to provide insight into the distant cellular origins of structural proteins found in viruses. 12 In this study, we use AlphaFold to enable searches for hidden homology in viral proteomes and inform the mechanistic study of host-pathogen interfaces.…”

Section: Introductionmentioning

confidence: 99%

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Structural homology screens reveal host-derived poxvirus protein families impacting inflammasome activity

et al. 2023

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Structural homology screens reveal host-derived poxvirus protein families impacting inflammasome activity

et al. 2023

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“…Freed from constraints in host genomes, individual domains and combinations thereof may diverge to acquire new functions, with viral genomes serving as a "testbed" of evolutionary innovation. Our study joins a growing body of work demonstrating the transformative power of structural modeling in identifying evolutionary connections 11,50,51 and informing mechanistic study 12 . The ability to detect distant homology is especially important for "hybrid" proteins such as C1, where global homology searches may be inconclusive (Figures 3A-C).…”

Section: Discussionmentioning

confidence: 64%

“…Recent advances in structural modeling such as implemented in AlphaFold2 9 have the potential to bridge this gap, and the utility of this breakthrough in identifying cryptic homology is already being appreciated. For example, ab initio modeling has been used to broadly identify pathogen mimics of host proteins 10 , to identify evolutionary connections among pathogen effectors 11 , to expand an understanding of immunoglobulin gene family evolution 12 , and to provide insight into the distant cellular origins of structural proteins found in viruses 13 . In this study, we use AlphaFold to enable searches for hidden homology in viral proteomes and test its ability to inform the mechanistic study of host-pathogen interfaces.…”

Section: Introductionmentioning

confidence: 99%

Structural homology screens reveal poxvirus-encoded proteins impacting inflammasome-mediated defenses

Boys

Johnson

Quinlan

et al. 2023

Preprint

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Viruses acquire host genes via horizontal gene transfer and can express them to manipulate host biology during infections. Some viral and host homologs retain sequence identity, but evolutionary divergence can obscure host origins. We used structural modeling to compare vaccinia virus proteins with metazoan proteomes. We identified vaccinia A47L as a homolog of gasdermins, the executioners of pyroptosis. An X-ray crystal structure of A47 confirmed this homology and cell-based assays revealed that A47 inhibits pyroptosis. We also identified vaccinia C1L as the product of a cryptic gene fusion event coupling a Bcl-2 related fold with a pyrin domain. C1 associates with components of the inflammasome, a cytosolic innate immune sensor involved in pyroptosis, yet paradoxically enhances inflammasome activity, suggesting a benefit to poxvirus replication in some circumstances. Our findings demonstrate the potential of structural homology screens to reveal genes that viruses capture from hosts and repurpose to benefit viral fitness.

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“…The difference in allogeneic levels between these chimeras was based on the number of shared parental haplotypes; sibling chimeras from the same parents included four haplotypes, half-sibling chimeras with one shared parent included six haplotypes, and allogeneic chimeras from two sets of parents included eight haplotypes. If we assume that chimeras are tolerated if at least one of the haplotypes of the histocompatibility genes (assuming a gene complex) is compatible in P. pectinifera , as predicted from the homologous recognition responses of colonial animals such as sponges and ascidians ( 41 – 45 ), then each cell comprising sibling, half-sibling, and allogeneic chimeras will share at least one haplotype with 75.0%, 67.5%, and 37.5% of cells in the same individual, respectively. Consequently, the probability of neighboring cells sharing a haplotype is high for sibling and half-sibling chimeras, but low for allogeneic chimeras.…”

Section: Discussionmentioning

confidence: 99%

Establishment of the immunological self in juvenile Patiria pectinifera post-metamorphosis

Taguchi

Minakata

Tame³

et al. 2022

Front. Immunol.

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Ontogeny of the immune system is a fundamental immunology issue. One indicator of immune system maturation is the establishment of the immunological self, which describes the ability of the immune system to distinguish allogeneic individuals (allorecognition ability). However, the timing of immune system maturation during invertebrate ontogeny is poorly understood. In the sea star Patiria pectinifera, cells that have dissociated from the embryos and larvae are able to reconstruct larvae. This reconstruction phenomenon is possible because of a lack of allorecognition capability in the larval immune system, which facilitates the formation of an allogeneic chimera. In this study, we revealed that the adult immune cells of P. pectinifera (coelomocytes) have allorecognition ability. Based on a hypothesis that allorecognition ability is acquired before and after metamorphosis, we conducted detailed morphological observations and survival time analysis of metamorphosis-induced chimeric larvae. The results showed that all allogeneic chimeras died within approximately two weeks to one month of reaching the juvenile stage. In these chimeras, the majority of the epidermal cell layer was lost and the mesenchymal region expanded, but cell death appeared enhanced in the digestive tract. These results indicate that the immunological self of P. pectinifera is established post-metamorphosis during the juvenile stage. This is the first study to identify the timing of immune system maturation during echinodermal ontogenesis. As well as establishing P. pectinifera as an excellent model for studies on self- and non-self-recognition, this study enhances our understanding of the ontogeny of the immune system in invertebrates.

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A family of unusual immunoglobulin superfamily genes in an invertebrate histocompatibility complex

Cited by 9 publications

References 67 publications

Structural homology screens reveal host-derived poxvirus protein families impacting inflammasome activity

Structural homology screens reveal host-derived poxvirus protein families impacting inflammasome activity

Structural homology screens reveal poxvirus-encoded proteins impacting inflammasome-mediated defenses

Establishment of the immunological self in juvenile Patiria pectinifera post-metamorphosis

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