Your search keyword '"Lisbeth A. Guethlein"' showing total 133 results

1. Malaria-driven adaptation of MHC class I in wild bonobo populations

Author

Emily E. Wroblewski, Lisbeth A. Guethlein, Aaron G. Anderson, Weimin Liu, Yingying Li, Sara E. Heisel, Andrew Jesse Connell, Jean-Bosco N. Ndjango, Paco Bertolani, John A. Hart, Terese B. Hart, Crickette M. Sanz, David B. Morgan, Martine Peeters, Paul M. Sharp, Beatrice H. Hahn, and Peter Parham

Subjects

Science

Abstract

A variant of MHC class I is protective against severe malaria disease and enriched in affected African populations. Here, Wroblewski et al., characterise the consequences of malaria infection in wild bonobo populations showing that the presence of malaria drives a similar evolution in immune genes.

Published

2023

2. CD56-negative NK cells: Frequency in peripheral blood, expansion during HIV-1 infection, functional capacity, and KIR expression

Author

Alexander T. H. Cocker, Fuguo Liu, Zakia Djaoud, Lisbeth A. Guethlein, and Peter Parham

Subjects

NK cells, innate immunity, CD56neg, chronic infection, meta-analysis, Immunologic diseases. Allergy, RC581-607

Abstract

Human NK cells are usually defined as CD3-CD56+ lymphocytes. However, a CD56-CD16+ (CD56neg) lymphocyte population that displays NK-associated markers expands during chronic viral infections such as HIV-1 and HCV, and, to lesser extent, in herpesvirus infections. This CD56neg NK cell subset has been understudied because it requires the exclusion of other lymphocytes to accurately identify its presence. Many questions remain regarding the origin, development, phenotype, and function of the CD56neg NK cell population. Our objective was to determine the frequency of this NK subset in healthy controls and its alteration in viral infections by performing a meta-analysis. In addition to this, we analyzed deposited CyTOF and scRNAseq datasets to define the phenotype and subsets of the CD56neg NK cell population, as well as their functional variation. We found in 757 individuals, from a combined 28 studies and 6 datasets, that the CD56neg subset constitutes 5.67% of NK cells in healthy peripheral blood, while HIV-1 infection increases this population by a mean difference of 10.69%. Meta-analysis of surface marker expression between NK subsets showed no evidence of increased exhaustion or decreased proliferation within the CD56neg subset. CD56neg NK cells have a distinctive pattern of KIR expression, implying they have a unique potential for KIR-mediated education. A perforin-CD94-NKG2C-NKp30- CD56neg population exhibited different gene expression and degranulation responses against K562 cells compared to other CD56neg cells. This analysis distinguishes two functionally distinct subsets of CD56neg NK cells. They are phenotypically diverse and have differing capacity for education by HLA class-I interactions with KIRs.

Published

2022

3. KIR Variation in Iranians Combines High Haplotype and Allotype Diversity With an Abundance of Functional Inhibitory Receptors

Author

Claudia Alicata, Elham Ashouri, Neda Nemat-Gorgani, Lisbeth A. Guethlein, Wesley M. Marin, Sudan Tao, Lorenzo Moretta, Jill A. Hollenbach, John Trowsdale, James A. Traherne, Abbas Ghaderi, Peter Parham, and Paul J. Norman

Subjects

NK cells, KIR, HLA class I, Iranian populations, immune diversity, Immunologic diseases. Allergy, RC581-607

Abstract

Natural killer (NK) cells are innate lymphocytes that eliminate infected and transformed cells. They discriminate healthy from diseased tissue through killer cell Ig-like receptor (KIR) recognition of HLA class I ligands. Directly impacting NK cell function, KIR polymorphism associates with infection control and multiple autoimmune and pregnancy syndromes. Here we analyze KIR diversity of 241 individuals from five groups of Iranians. These five populations represent Baloch, Kurd, and Lur, together comprising 15% of the ethnically diverse Iranian population. We identified 159 KIR alleles, including 11 not previously characterized. We also identified 170 centromeric and 94 telomeric haplotypes, and 15 different KIR haplotypes carrying either a deletion or duplication encompassing one or more complete KIR genes. As expected, comparing our data with those representing major worldwide populations revealed the greatest similarity between Iranians and Europeans. Despite this similarity we observed higher frequencies of KIR3DL1*001 in Iran than any other population, and the highest frequency of HLA-B*51, a Bw4-containing allotype that acts as a strong educator of KIR3DL1*001+ NK cells. Compared to Europeans, the Iranians we studied also have a reduced frequency of 3DL1*004, which encodes an allotype that is not expressed at the NK cell surface. Concurrent with the resulting high frequency of strong viable interactions between inhibitory KIR and polymorphic HLA class I, the majority of KIR-A haplotypes characterized do not express a functional activating receptor. By contrast, the most frequent KIR-B haplotype in Iran expresses only one functional inhibitory KIR and the maximum number of activating KIR. This first complete, high-resolution, characterization of the KIR locus of Iranians will form a valuable reference for future clinical and population studies.

Published

2020

4. Insulin-Responsive Transcription Factors

Author

Gerald Thiel, Lisbeth A. Guethlein, and Oliver G. Rössler

Subjects

ChREBP, Egr-1, Elk-1, FoxO1, liver X receptor, SREBP-1c, Microbiology, QR1-502

Abstract

The hormone insulin executes its function via binding and activating of the insulin receptor, a receptor tyrosine kinase that is mainly expressed in skeletal muscle, adipocytes, liver, pancreatic β-cells, and in some areas of the central nervous system. Stimulation of the insulin receptor activates intracellular signaling cascades involving the enzymes extracellular signal-regulated protein kinase-1/2 (ERK1/2), phosphatidylinositol 3-kinase, protein kinase B/Akt, and phospholipase Cγ as signal transducers. Insulin receptor stimulation is correlated with multiple physiological and biochemical functions, including glucose transport, glucose homeostasis, food intake, proliferation, glycolysis, and lipogenesis. This review article focuses on the activation of gene transcription as a result of insulin receptor stimulation. Signal transducers such as protein kinases or the GLUT4-induced influx of glucose connect insulin receptor stimulation with transcription. We discuss insulin-responsive transcription factors that respond to insulin receptor activation and generate a transcriptional network executing the metabolic functions of insulin. Importantly, insulin receptor stimulation induces transcription of genes encoding essential enzymes of glycolysis and lipogenesis and inhibits genes encoding essential enzymes of gluconeogenesis. Overall, the activation or inhibition of insulin-responsive transcription factors is an essential aspect of orchestrating a wide range of insulin-induced changes in the biochemistry and physiology of insulin-responsive tissues.

Published

2021

5. Critical Protein–Protein Interactions Determine the Biological Activity of Elk-1, a Master Regulator of Stimulus-Induced Gene Transcription

Author

Gerald Thiel, Tobias M. Backes, Lisbeth A. Guethlein, and Oliver G. Rössler

Subjects

c-Fos, Egr-1, histone deacetylase, MAP kinase, mediator, SRF, Organic chemistry, QD241-441

Abstract

Elk-1 is a transcription factor that binds together with a dimer of the serum response factor (SRF) to the serum-response element (SRE), a genetic element that connects cellular stimulation with gene transcription. Elk-1 plays an important role in the regulation of cellular proliferation and apoptosis, thymocyte development, glucose homeostasis and brain function. The biological function of Elk-1 relies essentially on the interaction with other proteins. Elk-1 binds to SRF and generates a functional ternary complex that is required to activate SRE-mediated gene transcription. Elk-1 is kept in an inactive state under basal conditions via binding of a SUMO-histone deacetylase complex. Phosphorylation by extracellular signal-regulated protein kinase, c-Jun N-terminal protein kinase or p38 upregulates the transcriptional activity of Elk-1, mediated by binding to the mediator of RNA polymerase II transcription (Mediator) and the transcriptional coactivator p300. Strong and extended phosphorylation of Elk-1 attenuates Mediator and p300 recruitment and allows the binding of the mSin3A-histone deacetylase corepressor complex. The subsequent dephosphorylation of Elk-1, catalyzed by the protein phosphatase calcineurin, facilitates the re-SUMOylation of Elk-1, transforming Elk-1 back to a transcriptionally inactive state. Thus, numerous protein–protein interactions control the activation cycle of Elk-1 and are essential for its biological function.

Published

2021

6. The Intergenic Recombinant HLA-B∗46:01 Has a Distinctive Peptidome that Includes KIR2DL3 Ligands

Author

Hugo G. Hilton, Curtis P. McMurtrey, Alex S. Han, Zakia Djaoud, Lisbeth A. Guethlein, Jeroen H. Blokhuis, Jason L. Pugh, Ana Goyos, Amir Horowitz, Rico Buchli, Ken W. Jackson, Wilfred Bardet, David A. Bushnell, Philip J. Robinson, Juan L. Mendoza, Michael E. Birnbaum, Morten Nielsen, K. Christopher Garcia, William H. Hildebrand, and Peter Parham

Subjects

HLA class I, KIR, antigen presentation, genetic polymorphism, host-pathogen interactions, modern human migration, peptidome, mass spectrometry, Biology (General), QH301-705.5

Abstract

HLA-B∗46:01 was formed by an intergenic mini-conversion, between HLA-B∗15:01 and HLA-C∗01:02, in Southeast Asia during the last 50,000 years, and it has since become the most common HLA-B allele in the region. A functional effect of the mini-conversion was introduction of the C1 epitope into HLA-B∗46:01, making it an exceptional HLA-B allotype that is recognized by the C1-specific natural killer (NK) cell receptor KIR2DL3. High-resolution mass spectrometry showed that HLA-B∗46:01 has a low-diversity peptidome that is distinct from those of its parents. A minority (21%) of HLA-B∗46:01 peptides, with common C-terminal characteristics, form ligands for KIR2DL3. The HLA-B∗46:01 peptidome is predicted to be enriched for peptide antigens derived from Mycobacterium leprae. Overall, the results indicate that the distinctive peptidome and functions of HLA-B∗46:01 provide carriers with resistance to leprosy, which drove its rapid rise in frequency in Southeast Asia.

Published

2017

7. Two to Tango: Co-evolution of Hominid Natural Killer Cell Receptors and MHC

Author

Emily E. Wroblewski, Peter Parham, and Lisbeth A. Guethlein

Subjects

NK cells, MHC, KIR, CD94, NKG2, hominid, Immunologic diseases. Allergy, RC581-607

Abstract

Natural killer (NK) cells have diverse roles in hominid immunity and reproduction. Modulating these functions are the interactions between major histocompatibility complex (MHC) class I molecules that are ligands for two NK cell surface receptor types. Diverse killer cell immunoglobulin-like receptors (KIR) bind specific motifs encoded within the polymorphic MHC class I cell surface glycoproteins, while, in more conserved interactions, CD94:NKG2A receptors recognize MHC-E with bound peptides derived from MHC class I leader sequences. The hominid lineage presents a choreographed co-evolution of KIR with their MHC class I ligands. MHC-A, -B, and -C are present in all great apes with species-specific haplotypic variation in gene content. The Bw4 epitope recognized by lineage II KIR is restricted to MHC-B but also present on some gorilla and human MHC-A. Common to great apes, but rare in humans, are MHC-B possessing a C1 epitope recognized by lineage III KIR. MHC-C arose from duplication of MHC-B and is fixed in all great apes except orangutan, where it exists on approximately 50% of haplotypes and all allotypes are C1-bearing. Recent study showed that gorillas possess yet another intermediate MHC organization compared to humans. Like orangutans, but unlike the Pan-Homo species, duplication of MHC-B occurred. However, MHC-C is fixed, and the MHC-C C2 epitope (absent in orangutans) emerges. The evolution of MHC-C drove expansion of its cognate lineage III KIR. Recently, position −21 of the MHC-B leader sequence has been shown to be critical in determining NK cell educational outcome. In humans, methionine (−21M) results in CD94:NKG2A-focused education whereas threonine (−21T) produces KIR-focused education. This is another dynamic position among hominids. Orangutans have exclusively −21M, consistent with their intermediate stage in lineage III KIR-focused evolution. Gorillas have both −21M and −21T, like humans, but they are unequally encoded by their duplicated B genes. Chimpanzees have near-fixed −21T, indicative of KIR-focused NK education. Harmonious with this observation, chimpanzee KIR exhibit strong binding and, compared to humans, smaller differences between binding levels of activating and inhibitory KIR. Consistent between these MHC-NK cell receptor systems over the course of hominid evolution is the evolution of polymorphism favoring the more novel and dynamic KIR system.

Published

2019

8. Conservation, Extensive Heterozygosity, and Convergence of Signaling Potential All Indicate a Critical Role for KIR3DL3 in Higher Primates

Author

Laura A. Leaton, Jonathan Shortt, Katherine M. Kichula, Sudan Tao, Neda Nemat-Gorgani, Alexander J. Mentzer, Stephen J. Oppenheimer, Zhihui Deng, Jill A. Hollenbach, Christopher R. Gignoux, Lisbeth A. Guethlein, Peter Parham, Mary Carrington, and Paul J. Norman

Subjects

KIR3DL3, NK cells, KIR, HLA class I, comparative evolution, infectious disease, Immunologic diseases. Allergy, RC581-607

Abstract

Natural killer (NK) cell functions are modulated by polymorphic killer cell immunoglobulin-like receptors (KIR). Among 13 human KIR genes, which vary by presence and copy number, KIR3DL3 is ubiquitously present in every individual across diverse populations. No ligand or function is known for KIR3DL3, but limited knowledge of expression suggests involvement in reproduction, likely during placentation. With 157 human alleles, KIR3DL3 is also highly polymorphic and we show heterozygosity exceeds that of HLA-B in many populations. The external domains of catarrhine primate KIR3DL3 evolved as a conserved lineage distinct from other KIR. Accordingly, and in contrast to other KIR, we show the focus of natural selection does not correspond exclusively to known ligand binding sites. Instead, a strong signal for diversifying selection occurs in the D1 Ig domain at a site involved in receptor aggregation, which we show is polymorphic in humans worldwide, suggesting differential ability for receptor aggregation. Meanwhile in the cytoplasmic tail, the first of two inhibitory tyrosine motifs (ITIM) is conserved, whereas independent genomic events have mutated the second ITIM of KIR3DL3 alleles in all great apes. Together, these findings suggest that KIR3DL3 binds a conserved ligand, and a function requiring both receptor aggregation and inhibitory signal attenuation. In this model KIR3DL3 resembles other NK cell inhibitory receptors having only one ITIM, which interact with bivalent downstream signaling proteins through dimerization. Due to the extensive conservation across species, selection, and other unusual properties, we consider elucidating the ligand and function of KIR3DL3 to be a pressing question.

Published

2019

9. Adversarial domain translation networks for integrating large-scale atlas-level single-cell datasets.

Author

Jia Zhao, Gefei Wang, Jingsi Ming, Zhixiang Lin, Yang Wang, Snigdha Agarwal, Aditi Agrawal, Ahmad Al-Moujahed, Alina Alam, Megan A. Albertelli, Paul Allegakoen, Thomas Ambrosi, Jane Antony, Steven Artandi, Fabienne Aujard, Kyle Awayan, Ankit Baghel, Isaac Bakerman, Trygve E. Bakken, Jalal Baruni, Philip Beachy, Biter Bilen, Olga B. Botvinnik, Scott D. Boyd, Deviana Burhan, Kerriann M. Casey, Charles Chan, Charles A. Chang, Stephen Chang 0004, Ming Chen, Michael F. Clarke, Sheela Crasta, Rebecca Culver, Jessica D'Addabbo, Spyros Darmanis, Roozbeh Dehghannasiri, Song-Lin Ding, Connor V. Duffy, Jacques Epelbaum, F. Hernán Espinoza, Camille Ezran, Jean Farup, James E. Ferrell Jr, Hannah K. Frank, Margaret Fuller, Astrid Gillich, Elias Godoy, Dita Gratzinger, Lisbeth A. Guethlein, Yan Hang, Kazuteru Hasegawa, Rebecca D. Hodge, Malachia Hoover, Franklin W. Huang, Kerwyn Casey Huang, Shelly Huynh, Taichi Isobe, Carly Israel, Sori Jang, Qiuyu Jing, Robert C. Jones, Jengmin Kang, Caitlin J. Karanewsky, Jim Karkanias, Justus Kebschull, Aaron Kershner, Lily Kim, Seung K. Kim, E. Christopher Kirk, Winston Koh, Silvana Konermann, William Kong, Mark A. Krasnow, Christin Kuo, Corinne Lautier, Song Eun Lee, Ed S. Lein, Rebecca Lewis, Peng Li, Shengda Lin, Shixuan Liu, Yin Liu, Gabriel Loeb, Jonathan Z. Long, Wan-Jin Lu, Katherine Lucot, Liqun Luo, Aaron McGeever, Ross Metzger, Thomas J. Montine, Antoine de Morree, Maurizio Morri, Karim Mrouj, Shravani Mukherjee, Ahmad Nabhan, Saba Nafees, Norma Neff, Patrick Neuhöfer, Patricia Nguyen, Jennifer Okamoto, Julia Eve Olivieri, Youcef Ouadah, Honor Paine, Peter Parham, Jozeph L. Pendleton, Lolita Penland, Martine Perret, Angela Oliveira Pisco, Zhen Qi, Stephen R. Quake, Ute Radespiel, Thomas A. Rando, Hajanirina Noëline Ravelonjanahary, Andriamahery Razafindrakoto, Julia Salzman, Nicholas Schaum, Robert Schopler, Bronwyn Scott, Liza Shapiro, Hosu Sin, Rahul Sinha, Rene Sit, Geoff Stanley, Lubert Stryer, Varun Ramanan Subramaniam, Aditi Swarup, Weilun Tan, Alexander Tarashansky, Aris Taychameekiatchai, Jérémy Terrien, Kyle J. Travaglini, Andoni Urtasun, Sivakamasundari, Avin Veerakumar, Venkata Naga Pranathi Vemuri, Jean-Michel Verdier, Iwijn De Vlaminck, Douglas Vollrath, Bo Wang, Bruce Wang, Michael F. Z. Wang, Sheng Wang, James Webber, Hannah Weinstein, Irving L. Weissman, Amanda L. Wiggenhorn, Cathy V. Williams, Patricia Wright, Albert Y. Wu, Angela Ruohao Wu, Tony Wyss-Coray, Bao Xiang, Jia Yan, Can Yang 0002, Jinxurong Yang, Anne D. Yoder, Brian Yu, Andrea R. Yung, Yue Zhang, and Zicheng Zhao

Published

2022

10. The CD56−CD16+ NK cell subset in chronic infections

Author

Alexander T.H. Cocker, Lisbeth A. Guethlein, and Peter Parham

Subjects

Biochemistry

Abstract

Long-term human diseases can shape the immune system, and natural killer (NK) cells have been documented to differentiate into distinct subsets specifically associated with chronic virus infections. One of these subsets found in large frequencies in HIV-1 are the CD56−CD16+ NK cells, and this population's association with chronic virus infections is the subject of this review. Human NK cells are classically defined by CD56 expression, yet increasing evidence supports the NK cell status of the CD56−CD16+ subset which we discuss herein. We then discuss the evidence linking CD56−CD16+ NK cells to chronic virus infections, and the potential immunological pathways that are altered by long-term infection that could be inducing the population's differentiation. An important aspect of NK cell regulation is their interaction with human leukocyte antigen (HLA) class-I molecules, and we highlight work that indicates both virus and genetic-mediated variations in HLA expression that have been linked to CD56−CD16+ NK cell frequencies. Finally, we offer a perspective on CD56−CD16+ NK cell function, taking into account recent work that implies the subset is comparable to CD56+CD16+ NK cell functionality in antibody-dependent cell cytotoxicity response, and the definition of CD56−CD16+ NK cell subpopulations with varying degranulation capacity against target cells.

Published

2023

11. IPD-MHC 2.0: an improved inter-species database for the study of the major histocompatibility complex.

Author

Giuseppe Maccari, James Robinson, Keith Ballingall, Lisbeth A. Guethlein, Unni Grimholt, Jim Kaufman, Chak-Sum Ho, Natasja de Groot, Paul Flicek, Ronald Bontrop, John A. Hammond, and Steven G. E. Marsh

Published

2017

12. Natural LILRB1 D1-D2 variants show frequency differences in populations and bind to HLA class I with various avidities

Author

Fuguo Liu, Alexander T. H. Cocker, Jason L. Pugh, Zakia Djaoud, Peter Parham, and Lisbeth A. Guethlein

Subjects

Immunology, Genetics

Published

2022

13. Phosphoantigen-Stimulated γδ T Cells Suppress Natural Killer–Cell Responses to Missing-Self

Author

Katherine Walwyn-Brown, Jason Pugh, Alexander T.H. Cocker, Niassan Beyzaie, Bernhard B. Singer, Daniel Olive, Lisbeth A. Guethlein, Peter Parham, Zakia Djaoud, Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC), Centre de Recherche en Cancérologie de Marseille (CRCM), Aix Marseille Université (AMU)-Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Department of Structural Biology [Stanford], Stanford Medicine, Stanford University-Stanford University, Stanford University, Immunobiology of Human αβ and γδ T Cells and Immunotherapeutic Applications (CRCINA-ÉQUIPE 1), Centre de Recherche en Cancérologie et Immunologie Nantes-Angers (CRCINA), Université d'Angers (UA)-Université de Nantes (UN)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Université d'Angers (UA)-Université de Nantes (UN)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre hospitalier universitaire de Nantes (CHU Nantes), and EFS Centre-Pays de la Loire [Nantes]

Subjects

Cancer Research, Butyrophilins, [SDV]Life Sciences [q-bio], Immunology, Receptors, Antigen, T-Cell, gamma-delta, Article, Killer Cells, Natural, Antigens, CD, Neoplasms, Cytokines, Humans, Immunotherapy, Intraepithelial Lymphocytes, T-Lymphocytes, Cytotoxic

Abstract

γδ T cells stimulated by phosphoantigens (pAg) are potent effectors that secrete Th1 cytokines and kill tumor cells. Consequently, they are considered candidates for use in cancer immunotherapy. However, they have proven only moderately effective in several clinical trials. We studied the consequences of pAg-stimulated γδ T-cell interactions with natural killer (NK) cells and CD8+ T cells, major innate and adaptive effectors, respectively. We found that pAg-stimulated γδ T cells suppressed NK-cell responses to “missing-self” but had no effect on antigen-specific CD8+ T-cell responses. Extensive analysis of the secreted cytokines showed that pAg-stimulated γδ T cells had a proinflammatory profile. CMV-pp65–specific CD8+ T cells primed with pAg-stimulated γδ T cells showed little effect on responses to pp65-loaded target cells. By contrast, NK cells primed similarly with γδ T cells had impaired capacity to degranulate and produce IFNγ in response to HLA class I–deficient targets. This effect depended on BTN3A1 and required direct contact between NK cells and γδ T cells. γδ T-cell priming of NK cells also led to a downregulation of NKG2D and NKp44 on NK cells. Every NK-cell subset was affected by γδ T cell–mediated immunosuppression, but the strongest effect was on KIR+NKG2A– NK cells. We therefore report a previously unknown function for γδ T cells, as brakes of NK-cell responses to “missing-self.” This provides a new perspective for optimizing the use of γδ T cells in cancer immunotherapy and for assessing their role in immune responses to pAg-producing pathogens.See related Spotlight by Kabelitz, p. 543.

Published

2022

14. Data from Phosphoantigen-Stimulated γδ T Cells Suppress Natural Killer–Cell Responses to Missing-Self

Author

Zakia Djaoud, Peter Parham, Lisbeth A. Guethlein, Daniel Olive, Bernhard B. Singer, Niassan Beyzaie, Alexander T.H. Cocker, Jason Pugh, and Katherine Walwyn-Brown

Abstract

γδ T cells stimulated by phosphoantigens (pAg) are potent effectors that secrete Th1 cytokines and kill tumor cells. Consequently, they are considered candidates for use in cancer immunotherapy. However, they have proven only moderately effective in several clinical trials. We studied the consequences of pAg-stimulated γδ T-cell interactions with natural killer (NK) cells and CD8+ T cells, major innate and adaptive effectors, respectively. We found that pAg-stimulated γδ T cells suppressed NK-cell responses to “missing-self” but had no effect on antigen-specific CD8+ T-cell responses. Extensive analysis of the secreted cytokines showed that pAg-stimulated γδ T cells had a proinflammatory profile. CMV-pp65–specific CD8+ T cells primed with pAg-stimulated γδ T cells showed little effect on responses to pp65-loaded target cells. By contrast, NK cells primed similarly with γδ T cells had impaired capacity to degranulate and produce IFNγ in response to HLA class I–deficient targets. This effect depended on BTN3A1 and required direct contact between NK cells and γδ T cells. γδ T-cell priming of NK cells also led to a downregulation of NKG2D and NKp44 on NK cells. Every NK-cell subset was affected by γδ T cell–mediated immunosuppression, but the strongest effect was on KIR+NKG2A– NK cells. We therefore report a previously unknown function for γδ T cells, as brakes of NK-cell responses to “missing-self.” This provides a new perspective for optimizing the use of γδ T cells in cancer immunotherapy and for assessing their role in immune responses to pAg-producing pathogens.See related Spotlight by Kabelitz, p. 543.

Published

2023

15. Supplementary Figure from Phosphoantigen-Stimulated γδ T Cells Suppress Natural Killer–Cell Responses to Missing-Self

Author

Zakia Djaoud, Peter Parham, Lisbeth A. Guethlein, Daniel Olive, Bernhard B. Singer, Niassan Beyzaie, Alexander T.H. Cocker, Jason Pugh, and Katherine Walwyn-Brown

Abstract

Supplementary Figure from Phosphoantigen-Stimulated γδ T Cells Suppress Natural Killer–Cell Responses to Missing-Self

Published

2023

16. Complete sequences of six major histocompatibility complex haplotypes, including all the major <scp>MHC</scp> class <scp>II</scp> structures

Author

Torsten Houwaart, Stephan Scholz, Nicholas R. Pollock, William H. Palmer, Katherine M. Kichula, Daniel Strelow, Duyen B. Le, Dana Belick, Lisanna Hülse, Tobias Lautwein, Thorsten Wachtmeister, Tassilo E. Wollenweber, Birgit Henrich, Karl Köhrer, Peter Parham, Lisbeth A. Guethlein, Paul J. Norman, and Alexander T. Dilthey

Subjects

Immunology, Genetics, Immunology and Allergy

Published

2023

17. Following Transplantation for Acute Myelogenous Leukemia, Donor KIR Cen B02 Better Protects against Relapse than KIR Cen B01

Author

Niassan Beyzaie, Peter Parham, Stephen R. Spellman, Steven G.E. Marsh, Vidhyalakshmi Ramesh, Neda Nemat-Gorgani, Jill A. Hollenbach, Wesley M. Marin, Lisbeth A. Guethlein, Daniel J. Weisdorf, Paul Norman, Tao Wang, Johannes Schetelig, Jeffrey S. Miller, and Sarah Cooley

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Immunology, Haplotype, Human leukocyte antigen, Biology, medicine.disease, Transplantation, 03 medical and health sciences, Myelogenous, Leukemia, 0302 clinical medicine, KIR2DL1, Genotype, medicine, Immunology and Allergy, Allele, 030215 immunology

Abstract

In the treatment of acute myelogenous leukemia with allogeneic hematopoietic cell transplantation, we previously demonstrated that there is a greater protection from relapse of leukemia when the hematopoietic cell transplantation donor has either the Cen B/B KIR genotype or a genotype having two or more KIR B gene segments. In those earlier analyses, KIR genotyping could only be assessed at the low resolution of gene presence or absence. To give the analysis greater depth, we developed high-resolution KIR sequence-based typing that defines all the KIR alleles and distinguishes the expressed alleles from those that are not expressed. We now describe and analyze high-resolution KIR genotypes for 890 donors of this human transplant cohort. Cen B01 and Cen B02 are the common CenB haplotypes, with Cen B02 having evolved from Cen B01 by deletion of the KIR2DL5, 2DS3/5, 2DP1, and 2DL1 genes. We observed a consistent trend for Cen B02 to provide stronger protection against relapse than Cen B01. This correlation indicates that protection depends on the donor having inhibitory KIR2DL2 and/or activating KIR2DS2, and is enhanced by the donor lacking inhibitory KIR2DL1, 2DL3, and 3DL1. High-resolution KIR typing has allowed us to compare the strength of the interactions between the recipient’s HLA class I and the KIR expressed by the donor-derived NK cells and T cells, but no clinically significant interactions were observed. The trend observed between donor Cen B02 and reduced relapse of leukemia points to the value of studying ever larger transplant cohorts.

Published

2021

18. Adaptive Admixture of HLA Class I Allotypes Enhanced Genetically Determined Strength of Natural Killer Cells in East Asians

Author

Jonathan A. Shortt, Guobin Zhang, Paul Norman, Lisbeth A. Guethlein, Hong-yan Zou, Mingzhong Tang, Genelle F. Harrison, Liumei He, Peter Parham, William H. Palmer, R. Chen, Zhihui Deng, Mary Carrington, Wenxu Hong, Ge Sun, Christopher R. Gignoux, Xiaojiang Gao, Siqi Cai, Jianxin Zhen, Qiong Yu, and Neda Nemat-Gorgani

Subjects

China, infectious disease, KIR Ligand, Population, Genes, MHC Class I, chemical and pharmacologic phenomena, Human leukocyte antigen, Biology, AcademicSubjects/SCI01180, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Receptors, KIR, immune system diseases, otorhinolaryngologic diseases, Genetics, Humans, adaptive introgression, Allele, East Asia, Receptor, education, Molecular Biology, Gene, Discoveries, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, education.field_of_study, natural killer cells, HLA-A Antigens, Effector, Haplotype, AcademicSubjects/SCI01130, HLA class I, hemic and immune systems, KIR, Killer Cells, Natural, HLA-B Antigens, embryonic structures, admixture, 030215 immunology

Abstract

Human natural killer (NK) cells are essential for controlling infection, cancer, and fetal development. NK cell functions are modulated by interactions between polymorphic inhibitory killer cell immunoglobulin-like receptors (KIR) and polymorphic HLA-A, -B, and -C ligands expressed on tissue cells. All HLA-C alleles encode a KIR ligand and contribute to reproduction and immunity. In contrast, only some HLA-A and -B alleles encode KIR ligands and they focus on immunity. By high-resolution analysis of KIR and HLA-A, -B, and -C genes, we show that the Chinese Southern Han (CHS) are significantly enriched for interactions between inhibitory KIR and HLA-A and -B. This enrichment has had substantial input through population admixture with neighboring populations, who contributed HLA class I haplotypes expressing the KIR ligands B*46:01 and B*58:01, which subsequently rose to high frequency by natural selection. Consequently, over 80% of Southern Han HLA haplotypes encode more than one KIR ligand. Complementing the high number of KIR ligands, the CHS KIR locus combines a high frequency of genes expressing potent inhibitory KIR, with a low frequency of those expressing activating KIR. The Southern Han centromeric KIR region encodes strong, conserved, inhibitory HLA-C-specific receptors, and the telomeric region provides a high number and diversity of inhibitory HLA-A and -B-specific receptors. In all these characteristics, the CHS represent other East Asians, whose NK cell repertoires are thus enhanced in quantity, diversity, and effector strength, likely augmenting resistance to endemic viral infections.

Published

2021

19. Complete sequences of six Major Histocompatibility Complex haplotypes, including all the major MHC class II structures

Author

Torsten Houwaart, Stephan Scholz, Nicholas R Pollock, William H. Palmer, Katherine M. Kichula, Daniel Strelow, Duyen B Le, Dana Belick, Tobias Lautwein, Thorsten Wachtmeister, Birgit Henrich, Karl Köhrer, Peter Parham, Lisbeth A Guethlein, Paul J Norman, and Alexander T Dilthey

Abstract

Accurate and comprehensive immunogenetic reference panels are key to the successful implementation of population-scale immunogenomics. The 5Mbp Major Histocompatibility Complex (MHC) is the most polymorphic region of the human genome and associated with multiple immune-mediated diseases, transplant matching and therapy responses. Analysis of MHC genetic variation is severely complicated by complex patterns of sequence variation, linkage disequilibrium and a lack of fully resolved MHC reference haplotypes, increasing the risk of spurious findings on analyzing this medically important region. Integrating Illumina and ultra-long Nanopore sequencing as well as bespoke bioinformatics, we completed five of the alternative MHC reference haplotypes of the current (B38) build of the human reference genome and added one other. The six assembled MHC haplotypes encompass the DR1 and DR4 haplotype structures in addition to the previously completed DR2 and DR3, as well as six distinct classes of the structurally variable C4 region. Analysis of the assembled haplotypes showed that MHC class II sequence structures, including repeat element positions, are generally conserved within the DR haplotype supergroups, and that sequence diversity peaks in three regions around HLA-A, HLA-B+C, and the HLA class II genes. Demonstrating the potential for improved short-read analysis, the number of proper read pairs recruited to the MHC was found to be increased by 0.32% – 0.69% in a 1000 Genomes Project read re-mapping experiment with seven diverse samples. Furthermore, the assembled haplotypes can serve as references for the community and provide the basis of a structurally accurate genotyping graph of the complete MHC region.

Published

2022

20. Organism-wide mapping of MHC class I and II expression in mouse lemur cells and tissues

Author

Lisbeth A. Guethlein, Camille Ezran, Shixuan Liu, Mark A. Krasnow, and Peter Parham

Abstract

The major histocompatibility complex (MHC) class I and II glycoproteins have been associated with numerous disease phenotypes, mechanisms and outcomes. These associations can be due to allotypic polymorphism or to altered levels of allotype expression. Although well studied in a range of cell types and microenvironments, no study has encompassed all cell-types present in an individual mouse lemur. In this study the droplet-based single cell RNA sequence data from the mouse lemur cell atlas, Tabula Microcebus, were used to examine the patterns of MHC class I and II expression. The cell atlas comprises data obtained from 27 organs from four mouse lemurs, enabling comparison of expression pattern between both cell types and the individual lemurs. Patterns of gene expression showed a good concordance among the four mouse lemurs. Three primary patterns of expression were identified and associated with different cell-types. Mapping MHC expression onto existing cell trajectories of cell development and spatial gradients revealed fine scale differences in expression level and pattern in single tissues. The bioinformatic pipeline developed here is applicable to other cell atlas projects.

Published

2022

21. Abundant CpG-sequences in human genomes inhibit KIR3DL2-expressing NK cells

Author

Jason L. Pugh, Lisbeth A. Guethlein, and Peter Parham

Subjects

Human leukocyte antigen, NK cells, Biology, Major histocompatibility complex, Genome, Biochemistry, General Biochemistry, Genetics and Molecular Biology, Epitope, KIR3DL2, Molecular Biology, Genetics, Innate immune system, General Neuroscience, General Medicine, Cell Biology, PAMP, CpG-DNA, KIR, HLA, CpG site, biology.protein, Medicine, Human genome, General Agricultural and Biological Sciences

Abstract

Killer Immunoglobulin-like Receptors (KIR) comprise a diverse, highly polymorphic family of cell-surface glycoproteins that are principally expressed by Natural Killer (NK) cells. These innate immune lymphocytes fulfill vital functions in human reproduction and immune responses to viral infection. KIR3DL2 is an inhibitory NK cell receptor that recognizes a common epitope of the HLA-A3 and HLA-A11 class I glycoproteins of the major histocompatibility complex. KIR3DL2 also binds exogenous DNA containing the CpG motif. This interaction causes internalization of the KIR-DNA. Exogenous CpG-DNA typically activates NK cells, but the specificity of KIR3DL2-DNA binding and internalization is unclear. We hypothesized that KIR3DL2 binds exogenous DNA in a sequence-specific manner that differentiates pathogen DNA from self-DNA. In testing this hypothesis, we surveyed octameric CpG-DNA sequences in the human genome, and in reference genomes of all bacteria, fungi, viruses, and parasites, with focus on medically relevant species. Among all pathogens, the nucleotides flanking CpG motifs in the genomes of parasitic worms that infect humans are most divergent from those in the human genome. We cultured KIR3DL2+NKL cells with the commonest CpG-DNA sequences in either human or pathogen genomes. DNA uptake was negatively correlated with the most common CpG-DNA sequences in the human genome. These CpG-DNA sequences induced inhibitory signaling in KIR3DL2+NKL cells. In contrast, KIR3DL2+NKL cells lysed more malignant targets and produced more IFNγ after culture with CpG-DNA sequences prevalent in parasitic worms. By applying functional immunology to evolutionary genomics, we conclude that KIR3DL2 allows NK cells to differentiate self-DNA from pathogen DNA.

Published

2021

22. Nomenclature report 2019: major histocompatibility complex genes and alleles of Great and Small Ape and Old and New World monkey species

Author

Natasja G. de Groot, Antoine Blancher, Nel Otting, Emily E. Wroblewski, Ronald E. Bontrop, Lisbeth A. Guethlein, Takashi Shiina, David H. O’Connor, Linda Vigilant, Peter Parham, Bernard A. P. Lafont, Steven G.E. Marsh, Lutz Walter, Giuseppe Maccari, James Robinson, John A. Hammond, Department of Comparative Genetics and Refinement [Rijswijk, The Netherlands], Biomedical Primate Research Centre [Rijswijk] (BPRC), The Pirbright Institute, Anthony Nolan Research Institute, UCL Cancer Institute [University College London], University College of London [London] (UCL), Centre de Physiopathologie Toulouse Purpan (CPTP), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Service d'Allergologie et d'Immunologie [CHRU Toulouse], CHRU Toulouse, National Institutes of Health [Bethesda] (NIH), Stanford University, Washington University in Saint Louis (WUSTL), Tokai University School of Medicine, German Primate Center - Deutsches Primatenzentrum -- Leibniz Insitute for Primate Research -- [Göttingen, Allemagne] (GPC - DPZ), Max Planck Institute for Evolutionary Anthropology [Leipzig], Max-Planck-Gesellschaft, University of Wisconsin-Madison, Utrecht University [Utrecht], Theoretical Biology and Bioinformatics, and Sub Theoretical Biology

Subjects

Primates, 0301 basic medicine, MESH: Nomenclature, Immunology, MESH: NHP, NHP, chemical and pharmacologic phenomena, Biology, Major histocompatibility complex, Database, Major Histocompatibility Complex, MESH: MHC, 03 medical and health sciences, 0302 clinical medicine, [SDV.MHEP.MI]Life Sciences [q-bio]/Human health and pathology/Infectious diseases, Terminology as Topic, Gene density, Databases, Genetic, Genetics, Animals, Copy-number variation, Allele, MESH: IPD, Gene, Nomenclature, Alleles, Phylogeny, New World monkey, Polymorphism, Genetic, Cercopithecidae, Hominidae, biology.organism_classification, humanities, Human genetics, Platyrrhini, IPD, 030104 developmental biology, Evolutionary biology, MESH: Database, biology.protein, MHC, 030215 immunology

Abstract

International audience; The major histocompatibility complex (MHC) is central to the innate and adaptive immune responses of jawed vertebrates. Characteristic of the MHC are high gene density, gene copy number variation, and allelic polymorphism. Because apes and monkeys are the closest living relatives of humans, the MHCs of these non-human primates (NHP) are studied in depth in the context of evolution, biomedicine, and conservation biology. The Immuno Polymorphism Database (IPD)-MHC NHP Database (IPD-MHC NHP), which curates MHC data of great and small apes, as well as Old and New World monkeys, has been upgraded. The curators of the database are responsible for providing official designations for newly discovered alleles. This nomenclature report updates the 2012 report, and summarizes important nomenclature issues and relevant novel features of the IPD-MHC NHP Database.

Published

2019

23. Diversity of KIR, HLA Class I, and Their Interactions in Seven Populations of Sub-Saharan Africans

Author

Neda Nemat-Gorgani, Jacques Chiaroni, Lluis Quintana-Murci, Steven Norberg, Peter Parham, Martin Sikora, Paul Norman, Brenna M. Henn, Joanna L. Mountain, and Lisbeth A. Guethlein

Subjects

Male, Sub saharan, Immunology, Black People, Locus (genetics), HLA-C Antigens, Human leukocyte antigen, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, Receptors, KIR, Clinical Research, Receptors, Genetics, East africa, 2.1 Biological and endogenous factors, Humans, Immunology and Allergy, Allele, Africa South of the Sahara, African Continental Ancestry Group, HLA-A Antigens, Hla haplotypes, Human Genome, Haplotype, Central africa, Blacks, KIR, Haplotypes, HLA-B Antigens, Evolutionary biology, Female, 030215 immunology

Abstract

HLA class I and KIR sequences were determined for Dogon, Fulani, and Baka populations of western Africa, Mbuti of central Africa, and Datooga, Iraqw, and Hadza of eastern Africa. Study of 162 individuals identified 134 HLA class I alleles (41 HLA-A, 60 HLA-B, and 33 HLA-C). Common to all populations are three HLA-C alleles (C1+C*07:01, C1+C*07:02, and C2+C*06:02) but no HLA-A or -B. Unexpectedly, no novel HLA class I was identified in these previously unstudied and anthropologically distinctive populations. In contrast, of 227 KIR detected, 22 are present in all seven populations and 28 are novel. A high diversity of HLA A-C-B haplotypes was observed. In six populations, most haplotypes are represented just once. But in the Hadza, a majority of haplotypes occur more than once, with 2 having high frequencies and 10 having intermediate frequencies. The centromeric (cen) part of the KIR locus exhibits an even balance between cenA and cenB in all seven populations. The telomeric (tel) part has an even balance of telA to telB in East Africa, but this changes across the continent to where telB is vestigial in West Africa. All four KIR ligands (A3/11, Bw4, C1, and C2) are present in six of the populations. HLA haplotypes of the Iraqw and Hadza encode two KIR ligands, whereas the other populations have an even balance between haplotypes encoding one and two KIR ligands. Individuals in these African populations have a mean of 6.8–8.4 different interactions between KIR and HLA class I, compared with 2.9–6.5 for non-Africans.

Published

2019

24. Critical Protein-Protein Interactions Determine the Biological Activity of Elk-1, a Master Regulator of Stimulus-Induced Gene Transcription

Author

Lisbeth A. Guethlein, Tobias M. Backes, Gerald Thiel, and Oliver G. Rössler

Subjects

Transcriptional Activation, Egr-1, Serum Response Factor, Transcription, Genetic, animal diseases, Pharmaceutical Science, Gene Expression, RNA polymerase II, Review, Analytical Chemistry, Mice, QD241-441, Mediator, fluids and secretions, Transcription (biology), Proto-Oncogene Proteins, Drug Discovery, Serum response factor, Protein Interaction Mapping, Animals, Protein Interaction Domains and Motifs, Protein Interaction Maps, Physical and Theoretical Chemistry, Phosphorylation, Protein kinase A, Extracellular Signal-Regulated MAP Kinases, Transcription factor, ets-Domain Protein Elk-1, c-Fos, biology, Chemistry, Organic Chemistry, Nuclear Proteins, Cell biology, Gene Expression Regulation, Chemistry (miscellaneous), SUMO, histone deacetylase, biology.protein, Molecular Medicine, MAP kinase, SRF, mediator, Corepressor, Transcription Factors

Abstract

Elk-1 is a transcription factor that binds together with a dimer of the serum response factor (SRF) to the serum-response element (SRE), a genetic element that connects cellular stimulation with gene transcription. Elk-1 plays an important role in the regulation of cellular proliferation and apoptosis, thymocyte development, glucose homeostasis and brain function. The biological function of Elk-1 relies essentially on the interaction with other proteins. Elk-1 binds to SRF and generates a functional ternary complex that is required to activate SRE-mediated gene transcription. Elk-1 is kept in an inactive state under basal conditions via binding of a SUMO-histone deacetylase complex. Phosphorylation by extracellular signal-regulated protein kinase, c-Jun N-terminal protein kinase or p38 upregulates the transcriptional activity of Elk-1, mediated by binding to the mediator of RNA polymerase II transcription (Mediator) and the transcriptional coactivator p300. Strong and extended phosphorylation of Elk-1 attenuates Mediator and p300 recruitment and allows the binding of the mSin3A-histone deacetylase corepressor complex. The subsequent dephosphorylation of Elk-1, catalyzed by the protein phosphatase calcineurin, facilitates the re-SUMOylation of Elk-1, transforming Elk-1 back to a transcriptionally inactive state. Thus, numerous protein–protein interactions control the activation cycle of Elk-1 and are essential for its biological function.

Published

2021

25. Chromatin-embedded reporter genes: Quantification of stimulus-induced gene transcription

Author

Lisbeth A. Guethlein, Gerald Thiel, Tobias M. Backes, and Oliver G. Rössler

Subjects

0301 basic medicine, Transcriptional Activation, Cell signaling, CREB, 03 medical and health sciences, 0302 clinical medicine, Genes, Reporter, Gene expression, Genetics, Animals, Humans, Cyclic AMP Response Element-Binding Protein, Transcription factor, Early Growth Response Protein 1, ets-Domain Protein Elk-1, Reporter gene, biology, NFATC Transcription Factors, NF-kappa B, General Medicine, Chromatin, Cell biology, Transcription Factor AP-1, 030104 developmental biology, Gene Expression Regulation, 030220 oncology & carcinogenesis, Second messenger system, biology.protein, Intracellular, Signal Transduction, Transcription Factors

Abstract

Receptors and ion channels expressed on the cell surface ensure proper communication between the cells and the environment. In multicellular organism, stimulus-regulated gene transcription is the basis for communication with the environment allowing individual cells to respond to stimuli such as nutrients, chemical stressors and signaling molecules released by other cells of the organism. Hormones, cytokines, and mitogens bind to receptors and ion channels and induce intracellular signaling cascades involving second messengers, kinases, phosphatases, and changes in the concentration of particular ions. Ultimately, the signaling cascades reach the nucleus. Transcription factors are activated that respond to cellular stimulation and induce changes in gene transcription. Investigating stimulus-transcription coupling combines cell biology with genetics. In this review, we discuss the molecular biology of stimulus-induced transcriptional activators and their responsiveness to extracellular and intracellular signaling molecules and to epigenetic regulators. Stimulus-induced gene expression is measured by several methods, including detection of nuclear translocation of transcription factors, phosphorylation or DNA binding. In this article, we emphasize that the most reliable method to directly measure transcriptional activation involves the use of chromatin-embedded reporter genes.

Published

2021

26. Genetically Determined Strength of Natural Killer Cells is Enhanced by Adaptive HLA class I Admixture in East Asians

Author

Peter Parham, Paul Norman, Siqi Cai, Xiaojiang Gao, Jonathan A. Shortt, Christopher R. Gignoux, Jianxin Zhen, Mary Carrington, Wenxu Hong, Mingzhong Tang, Guobin Zhang, Genelle F. Harrison, R. Chen, Zhihui Deng, Ge Sun, Qiong Yu, Neda Nemat-Gorgani, Hong-yan Zou, Liumei He, and Lisbeth A. Guethlein

Subjects

Genetics, education.field_of_study, Effector, KIR Ligand, Haplotype, Population, chemical and pharmacologic phenomena, Human leukocyte antigen, Biology, otorhinolaryngologic diseases, Allele, Receptor, education, Gene

Abstract

Human natural killer (NK) cells are essential for controlling infection, cancer and fetal development. NK cell functions are modulated by interactions between polymorphic inhibitory killer cell immunoglobulin-like receptors (KIR) and polymorphic HLA-A, -B and -C ligands expressed on tissue cells. AllHLA-Calleles encode a KIR ligand and contribute to reproduction and immunity. In contrast, only someHLA-Aand-Balleles encode KIR ligands and they focus on immunity. By high-resolution analysis ofKIRandHLA-A,-Band-Cgenes, we show that the Chinese Southern Han are significantly enriched for interactions between inhibitory KIR and HLA-A and -B. This enrichment has had substantial input through population admixture with neighboring populations, who contributedHLA class Ihaplotypes expressing the KIR ligands B*46:01 and B*58:01, which subsequently rose to high frequency by natural selection. Consequently, over 80% of Southern HanHLAhaplotypes encode more than one KIR ligand. Complementing the high number of KIR ligands, the Chinese Southern HanKIRlocus combines a high frequency of genes expressing potent inhibitory KIR, with a low frequency of those expressing activating KIR. The Southern Han centromericKIRregion encodes strong, conserved, inhibitory HLA-C specific receptors, and the telomeric region provides a high number and diversity of inhibitory HLA-A and -B specific receptors. In all these characteristics, the Southern Han represent other East Asians, whose NK cell repertoires are thus enhanced in quantity, diversity and effector strength, likely through natural selection for resistance to endemic viral infections.

Published

2020

27. Human NK Cells Downregulate Zap70 and Syk in Response to Prolonged Activation or DNA Damage

Author

Jason L. Pugh, Neda Nemat-Gorgani, Peter Parham, Lisbeth A. Guethlein, and Paul Norman

Subjects

0301 basic medicine, Innate immune system, Kinase, Chemistry, ZAP70, Immunology, Cell, Syk, Cell biology, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Immune system, Downregulation and upregulation, medicine, Immunology and Allergy, Receptor

Abstract

The extent of NK cell activity during the innate immune response affects downstream immune functions and, ultimately, the outcome of infectious or malignant disease. However, the mechanisms that terminate human NK cell responses have yet to be defined. When activation receptors expressed on NK cell surfaces bind to ligands on diseased cells, they initiate a signal that is propagated by a number of intracellular kinases, including Zap70 and Syk, eventually leading to NK cell activation. We assayed Zap70 and Syk content in NK cells from healthy human donors and identified a subset of NK cells with unusually low levels of these two kinases. We found that this Zap70lowSyklow subset consisted of NK cells expressing a range of surface markers, including CD56hi and CD56low NK cells. Upon in vitro stimulation with target cells, Zap70lowSyklow NK cells failed to produce IFN-γ and lysed target cells at one third the capacity of Zap70hiSykhi NK cells. We determined two independent in vitro conditions that induce the Zap70lowSyklow phenotype in NK cells: continuous stimulation with activation beads and DNA damage. The expression of inhibitory receptors, including NKG2A and inhibitory killer Ig-like receptors (KIRs), was negatively correlated with the Zap70lowSyklow phenotype. Moreover, expression of multiple KIRs reduced the likelihood of Zap70 downregulation during continuous activation, regardless of whether NK cells had been educated through KIR–HLA interactions in vivo. Our findings show that human NK cells are able to terminate their functional activity without the aid of other immune cells through the downregulation of activation kinases.

Published

2018

28. Human-specific evolution and adaptation led to major qualitative differences in the variable receptors of human and chimpanzee natural killer cells.

Author

Laurent Abi-Rached, Achim K Moesta, Raja Rajalingam, Lisbeth A Guethlein, and Peter Parham

Subjects

Genetics, QH426-470

Abstract

Natural killer (NK) cells serve essential functions in immunity and reproduction. Diversifying these functions within individuals and populations are rapidly-evolving interactions between highly polymorphic major histocompatibility complex (MHC) class I ligands and variable NK cell receptors. Specific to simian primates is the family of Killer cell Immunoglobulin-like Receptors (KIR), which recognize MHC class I and associate with a range of human diseases. Because KIR have considerable species-specificity and are lacking from common animal models, we performed extensive comparison of the systems of KIR and MHC class I interaction in humans and chimpanzees. Although of similar complexity, they differ in genomic organization, gene content, and diversification mechanisms, mainly because of human-specific specialization in the KIR that recognizes the C1 and C2 epitopes of MHC-B and -C. Humans uniquely focused KIR recognition on MHC-C, while losing C1-bearing MHC-B. Reversing this trend, C1-bearing HLA-B46 was recently driven to unprecedented high frequency in Southeast Asia. Chimpanzees have a variety of ancient, avid, and predominantly inhibitory receptors, whereas human receptors are fewer, recently evolved, and combine avid inhibitory receptors with attenuated activating receptors. These differences accompany human-specific evolution of the A and B haplotypes that are under balancing selection and differentially function in defense and reproduction. Our study shows how the qualitative differences that distinguish the human and chimpanzee systems of KIR and MHC class I predominantly derive from adaptations on the human line in response to selective pressures placed on human NK cells by the competing needs of defense and reproduction.

Published

2010

29. KIR2DS5 allotypes that recognize the C2 epitope of HLA-C are common among Africans and absent from Europeans

Author

Lisbeth A. Guethlein, Annettee Nakimuli, Ashley Moffett, Hugo G. Hilton, Olympe Chazara, Neda Nemat-Gorgani, Paul Norman, Peter Parham, and Jeroen H. Blokhuis

Subjects

0301 basic medicine, Genetics, Immunology, Haplotype, Human leukocyte antigen, Biology, Epitope, 03 medical and health sciences, HLA-C, 030104 developmental biology, 0302 clinical medicine, KIR2DL1, Immunology and Allergy, Avidity, Allele, Receptor, 030215 immunology

Abstract

Introduction KIR2DS5 is an activating human NK cell receptor of lineage III KIR. These include both inhibitory KIR2DL1, 2 and 3 and activating KIR2DS1 that recognize either the C1 or C2 epitope of HLA-C. In Europeans KIR2DS5 is essentially monomorphic, with KIR2DS5*002 being predominant. Pioneering investigations showed that KIR2DS5*002 has activating potential, but cannot recognize HLA-A, -B, or -C. Subsequent studies have shown that KIR2DS5 is highly polymorphic in Africans, and that KIR2DS5*006 protects pregnant Ugandan women from preeclampsia. Because inhibitory C2-specific KIR2DL1 correlates with preeclampsia, whereas activating C2-specific KIR2DS1 protects, this association pointed to KIR2DS5*006 being an activating C2-specific receptor. To test this hypothesis we made KIR-Fc fusion proteins from all ten KIR2DS5 allotypes and tested their binding to a representative set of HLA-A, -B and -C allotypes. Results Six African-specific KIR2DS5 bound to C2+HLA-C but not to other HLA class I. Their avidity for C2 is ∼20% that of C2-specific KIR2DL1 and ∼40% that of C2-specific KIR2DS1. Among the African C2 receptors is KIR2DS5*006, which protected a cohort of pregnant Ugandans from pre-eclampsia. Three African KIR2DS5 allotypes and KIR2DS5*002, bound no HLA-A, -B or -C. As a group the C2-binding KIR2DS5 allotypes protect against pre-eclampsia compared to the non-binding KIR2DS5 allotypes. Natural substitutions that contribute to loss or reduction of C2 receptor function are at positions 127, 158, and 176 in the D2 domain. Conclusions KIR2DS5*005 has the KIR2DS5 consensus sequence, is the only allele found at both centromeric and telomeric locations of KIR2DS5, and is likely the common ancestor of all KIR2DS5 alleles. That KIR2DS5*005 has C2 receptor activity, points to KIR2DS5*002, and other allotypes lacking C2 receptor function, being products of attenuation, a characteristic feature of most KIR B haplotype genes. Alleles encoding attenuated and active KIR2DS5 are present in both centromeric and telomeric locations.

Published

2017

30. Two alternate strategies for innate immunity to Epstein-Barr virus: One using NK cells and the other NK cells and γδ T cells

Author

Amir Horowitz, Zakia Djaoud, Paul Norman, Tarik Azzi, Peter Parham, David Nadal, Christian Münz, Neda Nemat-Gorgani, Daniel Olive, Lisbeth A. Guethlein, Departments of Chemistry and of Structural Biology, Stanford University, University Children’s Hospital Zurich, Centre de Recherche en Cancérologie de Marseille (CRCM), Aix Marseille Université (AMU)-Institut Paoli-Calmettes, Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Institute of Experimental Immunology - IEI [Zürich, Switzerland], Université de Zurich [Switzerland], Bidaut, Ghislain, University of Zurich, Djaoud, Zakia, Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Paoli-Calmettes, and Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Fédération nationale des Centres de lutte contre le Cancer (FNCLCC)-Aix Marseille Université (AMU)

Subjects

0301 basic medicine, Epstein-Barr Virus Infections, Herpesvirus 4, Human, Cytomegalovirus, 10263 Institute of Experimental Immunology, Lymphocyte Activation, [SDV.BBM.BM] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, medicine.disease_cause, [SDV.IMM.II]Life Sciences [q-bio]/Immunology/Innate immunity, HLA Antigens, hemic and lymphatic diseases, Immunology and Allergy, Research Articles, B-Lymphocytes, education.field_of_study, Cell Differentiation, Receptors, Antigen, T-Cell, gamma-delta, Tissue Donors, 3. Good health, Killer Cells, Natural, Phenotype, medicine.anatomical_structure, NK Cell Lectin-Like Receptor Subfamily K, 2723 Immunology and Allergy, Adult, Genotype, T cell, Immunology, Population, 610 Medicine & health, Human leukocyte antigen, Biology, Article, 03 medical and health sciences, Immune system, Antigen, Antigens, CD, medicine, Humans, education, [SDV.IMM.II] Life Sciences [q-bio]/Immunology/Innate immunity, Epstein–Barr virus infection, Cell Proliferation, 2403 Immunology, Innate immune system, Butyrophilins, [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, medicine.disease, Epstein–Barr virus, Virology, Immunity, Innate, 030104 developmental biology, 10036 Medical Clinic

Abstract

Djaoud et al. show that Epstein–Barr virus infection triggers two types of human innate immune response, one mediated by the combination of NK cells and γδ T cells and the other committed to a strong NK cell response with little involvement of γδ T cells., Most humans become infected with Epstein–Barr virus (EBV), which then persists for life. Infrequently, EBV infection causes infectious mononucleosis (IM) or Burkitt lymphoma (BL). Type I EBV infection, particularly type I BL, stimulates strong responses of innate immune cells. Humans respond to EBV in two alternative ways. Of 24 individuals studied, 13 made strong NK and γδ T cell responses, whereas 11 made feeble γδ T cell responses but stronger NK cell responses. The difference does not correlate with sex, HLA type, or previous exposure to EBV or cytomegalovirus. Cohorts of EBV+ children and pediatric IM patients include both group 1 individuals, with high numbers of γδ T cells, and group 2 individuals, with low numbers. The even balance of groups 1 and 2 in the human population points to both forms of innate immune response to EBV having benefit for human survival. Correlating these distinctive responses with the progress of EBV infection might facilitate the management of EBV-mediated disease.

Published

2017

31. Bonobos Maintain Immune System Diversity with Three Functional Types of MHC-B

Author

Peter Parham, Alex S. Han, Paul Norman, Christiana M. Shaw, Steve Ahuka-Mundeke, Martine Peeters, Lisbeth A. Guethlein, Jean-Bosco N. Ndjango, Alexander V. Georgiev, Emily E. Wroblewski, Beatrice H. Hahn, and Yingying Li

Subjects

0301 basic medicine, Genetics, education.field_of_study, biology, Bonobo, Immunology, Population, Human leukocyte antigen, Major histocompatibility complex, biology.organism_classification, Epitope, Nucleotide diversity, Pan paniscus, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, MHC class I, biology.protein, Immunology and Allergy, education, 030215 immunology

Abstract

Fast-evolving MHC class I polymorphism serves to diversify NK cell and CD8 T cell responses in individuals, families, and populations. Because only chimpanzee and bonobo have strict orthologs of all HLA class I, their study gives unique perspectives on the human condition. We defined polymorphism of Papa-B, the bonobo ortholog of HLA-B, for six wild bonobo populations. Sequences for Papa-B exon 2 and 3 were determined from the genomic DNA in 255 fecal samples, minimally representing 110 individuals. Twenty-two Papa-B alleles were defined, each encoding a different Papa-B protein. No Papa-B is identical to any chimpanzee Patr-B, human HLA-B, or gorilla Gogo-B. Phylogenetic analysis identified a clade of MHC-B, defined by residues 45–74 of the α1 domain, which is broadly conserved among bonobo, chimpanzee, and gorilla. Bonobo populations have 3–14 Papa-B allotypes. Three Papa-B are in all populations, and they are each of a different functional type: allotypes having the Bw4 epitope recognized by killer cell Ig-like receptors of NK cells, allotypes having the C1 epitope also recognized by killer cell Ig-like receptors, and allotypes having neither epitope. For population Malebo, these three Papa-B are the only Papa-B allotypes. Although small in number, their sequence divergence is such that the nucleotide diversity (mean proportional distance) of Papa-B in Malebo is greater than in the other populations and is also greater than expected for random combinations of three Papa-B. Overall, Papa-B has substantially less diversity than Patr-B in chimpanzee subspecies and HLA-B in indigenous human populations, consistent with bonobo having experienced narrower population bottlenecks.

Published

2017

32. Two Orangutan Species Have Evolved Different KIR Alleles and Haplotypes

Author

Paul Norman, Ronald E. Bontrop, Hugo G. Hilton, Lisbeth A. Guethlein, Laurent Abi-Rached, Natasja G. de Groot, Corinne M. C. Heijmans, Farbod Babrzadeh, and Peter Parham

Subjects

0301 basic medicine, Genetics, Immunology, Haplotype, hemic and immune systems, chemical and pharmacologic phenomena, Locus (genetics), Genome project, Biology, Epitope, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, immune system diseases, embryonic structures, otorhinolaryngologic diseases, Immunology and Allergy, Allele, Receptor, Genotyping, Gene, 030215 immunology

Abstract

The immune and reproductive functions of human NK cells are regulated by interactions of the C1 and C2 epitopes of HLA-C with C1-specific and C2-specific lineage III killer cell Ig-like receptors (KIR). This rapidly evolving and diverse system of ligands and receptors is restricted to humans and great apes. In this context, the orangutan has particular relevance because it represents an evolutionary intermediate, one having the C1 epitope and corresponding KIR but lacking the C2 epitope. Through a combination of direct sequencing, KIR genotyping, and data mining from the Great Ape Genome Project, we characterized the KIR alleles and haplotypes for panels of 10 Bornean orangutans and 19 Sumatran orangutans. The orangutan KIR haplotypes have between 5 and 10 KIR genes. The seven orangutan lineage III KIR genes all locate to the centromeric region of the KIR locus, whereas their human counterparts also populate the telomeric region. One lineage III KIR gene is Bornean specific, one is Sumatran specific, and five are shared. Of 12 KIR gene–content haplotypes, 5 are Bornean specific, 5 are Sumatran specific, and 2 are shared. The haplotypes have different combinations of genes encoding activating and inhibitory C1 receptors that can be of higher or lower affinity. All haplotypes encode an inhibitory C1 receptor, but only some haplotypes encode an activating C1 receptor. Of 130 KIR alleles, 55 are Bornean specific, 65 are Sumatran specific, and 10 are shared.

Published

2017

33. Sequences of 95 human MHC haplotypes reveal extreme coding variation in genes other than highly polymorphic HLA class I and II

Author

Steven Norberg, Kevin L. Gunderson, Jill A. Hollenbach, Weihua Chang, Peter Parham, Paul Norman, Lisbeth A. Guethlein, Melissa Won, Neda Nemat-Gorgani, Claudia Alicata, Emily E. Wroblewski, Laurent Abi-Rached, Mostafa Ronaghi, Tamsen Dunn, Tobias Mann, Thomas Royce, Department of Structural Biology [Stanford], Stanford Medicine, Stanford University-Stanford University, Illumina Incorporated [San Diego, CA, USA], Department of Neurology [San Francisco, CA, USA], University of California [San Francisco] (UCSF), University of California-University of California, Stanford School of Medicine [Stanford], This study was supported by US National Institutes of Health (National Institute of Allergy and Infectious Diseases) grant U01AI090905., COMBE, Isabelle, University of California [San Francisco] (UC San Francisco), and University of California (UC)-University of California (UC)

Subjects

0301 basic medicine, Pan troglodytes, Genes, MHC Class II, Population, Method, Genes, MHC Class I, chemical and pharmacologic phenomena, Human leukocyte antigen, [SDV.GEN.GH] Life Sciences [q-bio]/Genetics/Human genetics, Biology, Major histocompatibility complex, Cell Line, Contig Mapping, Open Reading Frames, 03 medical and health sciences, Complete sequence, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Genetics, Animals, Humans, Coding region, education, Gene, Genetics (clinical), education.field_of_study, Polymorphism, Genetic, Genome, Human, Haplotype, Mucins, Complement C4, Genomics, Reference Standards, 030104 developmental biology, Haplotypes, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, biology.protein, [SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Human genome

Abstract

The most polymorphic part of the human genome, the MHC, encodes over 160 proteins of diverse function. Half of them, including the HLA class I and II genes, are directly involved in immune responses. Consequently, the MHC region strongly associates with numerous diseases and clinical therapies. Notoriously, the MHC region has been intractable to high-throughput analysis at complete sequence resolution, and current reference haplotypes are inadequate for large-scale studies. To address these challenges, we developed a method that specifically captures and sequences the 4.8-Mbp MHC region from genomic DNA. For 95 MHC homozygous cell lines we assembled, de novo, a set of high-fidelity contigs and a sequence scaffold, representing a mean 98% of the target region. Included are six alternative MHC reference sequences of the human genome that we completed and refined. Characterization of the sequence and structural diversity of the MHC region shows the approach accurately determines the sequences of the highly polymorphic HLA class I and HLA class II genes and the complex structural diversity of complement factor C4A/C4B. It has also uncovered extensive and unexpected diversity in other MHC genes; an example is MUC22, which encodes a lung mucin and exhibits more coding sequence alleles than any HLA class I or II gene studied here. More than 60% of the coding sequence alleles analyzed were previously uncharacterized. We have created a substantial database of robust reference MHC haplotype sequences that will enable future population scale studies of this complicated and clinically important region of the human genome.

Published

2017

34. Resurrecting KIR2DP1: A Key Intermediate in the Evolution of Human Inhibitory NK Cell Receptors That Recognize HLA-C

Author

Paul Norman, Lisbeth A. Guethlein, Peter Parham, Jeroen H. Blokhuis, and Hugo G. Hilton

Subjects

0301 basic medicine, Lineage (genetic), Pan troglodytes, Immunology, HLA-C Antigens, Biology, Article, Linkage Disequilibrium, 03 medical and health sciences, HLA-C, 0302 clinical medicine, Receptors, KIR, KIR2DL1, Animals, Humans, Immunology and Allergy, Gene conversion, Receptor, Gene, Alleles, Genetics, Polymorphism, Genetic, Haplotype, Biological Evolution, Killer Cells, Natural, 030104 developmental biology, Haplotypes, Receptors, KIR2DL3, Receptors, KIR2DL2, Receptors, KIR2DL1, 030215 immunology, KIR2DS4

Abstract

KIR2DP1 is an inactive member of the human lineage III KIR family, which includes all HLA-C–specific receptor genes. The lethal, and only, defect in KIR2DP1 is a nucleotide deletion in codon 88. Fixed in modern humans, the deletion is also in archaic human genomes. KIR2DP1 is polymorphic, with dimorphism at specificity-determining position 44. By repairing the deletion, we resurrected 11 alleles of KIR2DP1F, the functional antecedent of KIR2DP1. We demonstrate how K44-KIR2DP1F with lysine 44 recognized C1+HLA-C, whereas T44-KIR2DP1F recognized C2+HLA-C. Dimorphisms at 12 other KIR2DP1F residues modulate receptor avidity or signaling. KIR2DP1 and KIR2DL1 are neighbors in the centromeric KIR region and are in tight linkage disequilibrium. Like KIR2DL1, KIR2DP1 contributed to CenA and CenB KIR haplotype differences. Encoded on CenA, C1-specific K44-KIR2DP1F were stronger receptors than the attenuated C2-specific T44-KIR2DP1F encoded on CenB. The last common ancestor of humans and chimpanzees had diverse lineage III KIR that passed on to chimpanzees but not to humans. Early humans inherited activating KIR2DS4 and an inhibitory lineage III KIR, likely encoding a C1-specific receptor. The latter spawned the modern family of HLA-C receptors. KIR2DP1F has properties consistent with KIR2DP1F having been the founder gene. The first KIR2DP1F alleles encoded K44-C1 receptors; subsequently KIR2DP1F alleles encoding T44-C2 receptors evolved. The emergence of dedicated KIR2DL2/3 and KIR2DL1 genes encoding C1 and C2 receptors, respectively, could have led to obsolescence of KIR2DP1F. Alternatively, pathogen subversion caused its demise. Preservation of KIR2DP1F functional polymorphism was a side effect of fixation of the deletion in KIR2DP1F by micro gene conversion.

Published

2017

35. Correction to: Nomenclature report 2019: major histocompatibility complex genes and alleles of great and small ape and old and new world monkey species

Author

Lisbeth A. Guethlein, Peter Parham, James Robinson, Lutz Walter, Natasja G. de Groot, David H. O’Connor, Steven G.E. Marsh, Nel Otting, Emily E. Wroblewski, Linda Vigilant, Bernard A. P. Lafont, Antoine Blancher, Ronald E. Bontrop, Takashi Shiina, John A. Hammond, and Giuseppe Maccari

Subjects

Evolutionary biology, Immunology, Genetics, biology.protein, Biology, Allele, Major histocompatibility complex, biology.organism_classification, Gene, Nomenclature, Human genetics, Spelling, New World monkey

Abstract

The original version of this article contained a spelling error in the Acknowledgments regarding the name of the funding organisation supporting GM and JAH. UKRI-BBSCR should have been UKRI-BBSRC, as is now indicated correctly below.

Published

2019

36. Nomenclature report for killer-cell immunoglobulin-like receptors (KIR) in macaque species: new genes/alleles, renaming recombinant entities and IPD-NHKIR updates

Author

David H. O’Connor, Jesse Bruijnesteijn, Natasja G. de Groot, Nel Otting, Peter Parham, Ronald E. Bontrop, Lisbeth A. Guethlein, Steven G.E. Marsh, John A. Hammond, James Robinson, Giuseppe Maccari, and Lutz Walter

Subjects

0301 basic medicine, Killer-cell immunoglobulin-like receptors, Databases, Factual, Rhesus, Immunology, Macaque species, chemical and pharmacologic phenomena, Macaque, law.invention, 03 medical and health sciences, 0302 clinical medicine, Receptors, KIR, law, Polymorphism (computer science), immune system diseases, Terminology as Topic, biology.animal, Immunogenetics, otorhinolaryngologic diseases, Genetics, Animals, Allele, Recombinants, Gene, Nomenclature, Polymorphism, Genetic, biology, hemic and immune systems, Cynomolgus, Macaca mulatta, Human genetics, 030104 developmental biology, Recombinant DNA, biology.protein, Antibody, 030215 immunology

Abstract

The Killer-cell Immunoglobulin-like Receptors (KIR) are encoded by a diverse group of genes, which are characterized by allelic polymorphism, gene duplications, and recombinations, which may generate recombinant entities. The number of reported macaque KIR sequences is steadily increasing, and these data illustrate a gene system that may match or exceed the complexity of the human KIR cluster. This report lists the names of quality controlled and annotated KIR genes/alleles with all the relevant references for two different macaque species: rhesus and cynomolgus macaques. Numerous recombinant KIR genes in these species necessitate a revision of some of the earlier-published nomenclature guidelines. In addition, this report summarizes the latest information on the Immuno Polymorphism Database (IPD)-NHKIR Database, which contains annotated KIR sequences from four non-human primate species.

Published

2019

37. KIR B donors improve the outcome for AML patients given reduced intensity conditioning and unrelated donor transplantation

Author

Steven G.E. Marsh, Edmund K. Waller, Jenny Vogel, Jennifer A. Sees, Stephen R. Spellman, Betul Oran, Ronald Sobecks, Tsiporah B. Shore, Tao Wang, Elizabeth A. Trachtenberg, Maureen Ross, Ashley Spahn, Koen van Besien, Sherif S. Farag, Joseph P. McGuirk, Cynthia Vierra-Green, Steven M. Devine, Jeffrey S. Miller, Ann E. Woolfrey, Daniel J. Weisdorf, Todd A. Fehniger, Lisbeth A. Guethlein, Sarah Cooley, and Peter Parham

Subjects

Transplantation Conditioning, business.industry, Haplotype, Hematopoietic Stem Cell Transplantation, Myeloid leukemia, hemic and immune systems, chemical and pharmacologic phenomena, Hematology, Human leukocyte antigen, HLA Mismatch, Epitope, Transplantation, Leukemia, Myeloid, Acute, immune system diseases, hemic and lymphatic diseases, Genotype, Immunology, otorhinolaryngologic diseases, Medicine, Humans, Prospective Studies, Stem cell, business, Unrelated Donors

Abstract

Natural killer (NK) cell recognition and killing of target cells are enhanced when inhibitory killer immunoglobulin-like receptors (KIR) are unable to engage their cognate HLA class I ligands. The genes of the KIR locus are organized into either KIR B haplotypes, containing 1 or more activating KIR genes or KIR A haplotypes, which lack those genes. Analysis of unrelated donor (URD) hematopoietic cell transplants (HCT), given to acute myeloid leukemia (AML) patients between 1988 and 2009, showed that KIR B haplotype donors were associated with better outcomes, primarily from relapse protection. Most of these transplants involved marrow grafts, fully myeloablative (MAC) preparative regimens, and significant HLA mismatch. Because the practice of HCT continues to evolve, with increasing use of reduced intensity conditioning (RIC), peripheral blood stem cell grafts, and better HLA match, we evaluated the impact of URD KIR genotype on HCT outcome for AML in the modern era (2010-2016). This analysis combined data from a prospective trial testing URD selection based on KIR genotypes (n = 243) with that from a larger contemporaneous cohort of transplants (n = 2419). We found that KIR B haplotype donors conferred a significantly reduced risk of leukemia relapse and improved disease-free survival after RIC, but not MAC HCT. All genes defining KIR B haplotypes were associated with relapse protection, which was significant only in transplant recipients expressing the C1 epitope of HLA-C. In the context of current HCT practice using RIC, selection of KIR B donors could reduce relapse and improve overall outcome for AML patients receiving an allogeneic HCT.

Published

2019

38. Two to Tango: Co-evolution of Hominid Natural Killer Cell Receptors and MHC

Author

Peter Parham, Lisbeth A. Guethlein, and Emily E. Wroblewski

Subjects

lcsh:Immunologic diseases. Allergy, 0301 basic medicine, Immunology, chemical and pharmacologic phenomena, Gorilla, Review, great ape, NK cells, Protein Sorting Signals, Ligands, NKG2, Major histocompatibility complex, Epitope, Natural killer cell, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Gene Duplication, Histocompatibility Antigens, biology.animal, MHC class I, Gene duplication, medicine, Animals, Humans, Immunology and Allergy, Receptor, Alleles, Phylogeny, Polymorphism, Genetic, biology, Reproduction, hominid, Hominidae, Biological Evolution, KIR, Killer Cells, Natural, 030104 developmental biology, medicine.anatomical_structure, Haplotypes, CD94, Evolutionary biology, biology.protein, Receptors, Natural Killer Cell, MHC, lcsh:RC581-607, Protein Binding, 030215 immunology

Abstract

Natural killer (NK) cells have diverse roles in hominid immunity and reproduction. Modulating these functions are the interactions between major histocompatibility complex (MHC) class I molecules that are ligands for two NK cell surface receptor types. Diverse killer cell immunoglobulin-like receptors (KIR) bind specific motifs encoded within the polymorphic MHC class I cell surface glycoproteins, while, in more conserved interactions, CD94:NKG2A receptors recognize MHC-E with bound peptides derived from MHC class I leader sequences. The hominid lineage presents a choreographed co-evolution of KIR with their MHC class I ligands. MHC-A, -B, and -C are present in all great apes with species-specific haplotypic variation in gene content. The Bw4 epitope recognized by lineage II KIR is restricted to MHC-B but also present on some gorilla and human MHC-A. Common to great apes, but rare in humans, are MHC-B possessing a C1 epitope recognized by lineage III KIR. MHC-C arose from duplication of MHC-B and is fixed in all great apes except orangutan, where it exists on approximately 50% of haplotypes and all allotypes are C1-bearing. Recent study showed that gorillas possess yet another intermediate MHC organization compared to humans. Like orangutans, but unlike the Pan-Homo species, duplication of MHC-B occurred. However, MHC-C is fixed, and the MHC-C C2 epitope (absent in orangutans) emerges. The evolution of MHC-C drove expansion of its cognate lineage III KIR. Recently, position −21 of the MHC-B leader sequence has been shown to be critical in determining NK cell educational outcome. In humans, methionine (−21M) results in CD94:NKG2A-focused education whereas threonine (−21T) produces KIR-focused education. This is another dynamic position among hominids. Orangutans have exclusively −21M, consistent with their intermediate stage in lineage III KIR-focused evolution. Gorillas have both −21M and −21T, like humans, but they are unequally encoded by their duplicated B genes. Chimpanzees have near-fixed −21T, indicative of KIR-focused NK education. Harmonious with this observation, chimpanzee KIR exhibit strong binding and, compared to humans, smaller differences between binding levels of activating and inhibitory KIR. Consistent between these MHC-NK cell receptor systems over the course of hominid evolution is the evolution of polymorphism favoring the more novel and dynamic KIR system.

Published

2019

39. Genetically Determined Strength of Natural Killer Cells is Enhanced by Adaptive Admixture of HLA class I Allotypes in East <a>Asians

Author

Genelle F Harrison, Zhihui Deng, Jianxin Zhen, Guobin Zhang, Rui Chen, Ge Sun, Qiong Yu, Neda Nemat-Gorgani, Lisbeth Ann Guethlein, Liumei He, Mingzhong Tang, Xiaojiang Gao, Siqi Cai, William Palmer, Jonathan Shortt, Chris Gignoux, Mary Carrington, Hongyan Zhou, Peter Parham, Wenxu Hong, and Paul Norman

Subjects

Immunology, Immunology and Allergy

Abstract

Human natural killer (NK) cells are essential for controlling infection, cancer and fetal development. NK cell functions are modulated by interactions between polymorphic inhibitory killer cell immunoglobulin-like receptors (KIR) and polymorphic HLA-A, -B and -C ligands expressed on tissue cells. All HLA-C alleles encode a KIR ligand and contribute to reproduction and immunity. In contrast, only some HLA-A and -B alleles encode KIR ligands and they focus on immunity. By high-resolution analysis of KIR and HLA-A, -B and -C genes, we show that the Chinese Southern Han are significantly enriched for interactions between inhibitory KIR and HLA-A and -B. This enrichment has had substantial input through population admixture with neighboring populations, who contributed HLA class I haplotypes expressing the KIR ligands B*46:01 and B*58:01, which subsequently rose to high frequency by natural selection. Consequently, over 80% of Southern Han HLA haplotypes encode more than one KIR ligand. Complementing the high number of KIR ligands, the Chinese Southern Han KIR locus combines a high frequency of genes expressing potent inhibitory KIR, with a low frequency of those expressing activating KIR. The Southern Han centromeric KIR region encodes strong, conserved, inhibitory HLA-C specific receptors, and the telomeric region provides a high number and diversity of inhibitory HLA-A and -B specific receptors. In all these characteristics, the Southern Han represent other East Asians, whose NK cell repertoires are thus enhanced in quantity, diversity and effector strength, likely through natural selection for resistance to endemic viral infections.

Published

2021

40. Defining KIR and HLA Class I Genotypes at Highest Resolution via High-Throughput Sequencing

Author

Jill A. Hollenbach, Steven Norberg, Jorge R. Oksenberg, Mostafa Ronaghi, Emily E. Wroblewski, Wesley M. Marin, Paul Norman, Jacques Chiaroni, James A. Traherne, Jyothi Jayaraman, Neda Nemat-Gorgani, Lisbeth A. Guethlein, Peter Parham, Raja Rajalingam, Elham Ashouri, John Trowsdale, Department of Physics, Chemistry and Biology [Linköping] (IFM), Linköping University (LIU), Howard Hughes Medical Institute (HHMI), Dept Pathol, Div Immunol, University of Cambridge [UK] (CAM), David Geffen School of Medicine [Los Angeles], University of California [Los Angeles] (UCLA), University of California-University of California, Department of Neurology [San Francisco], University of California [San Francisco] (UCSF), Etablissement Français du Sang - Alpes-Méditerranée (EFS - Alpes-Méditerranée), Etablissement Français du Sang, Anthropologie bio-culturelle, Droit, Ethique et Santé (ADES), Aix Marseille Université (AMU)-EFS ALPES MEDITERRANEE-Centre National de la Recherche Scientifique (CNRS), Department of Infectious Disease Epidemiology [London] (DIDE), Imperial College London, University of California (UC)-University of California (UC), University of California [San Francisco] (UC San Francisco), Trowsdale, John [0000-0002-0150-5698], Traherne, James [0000-0002-6003-8559], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, Gene Dosage, Genes, MHC Class I, Medical and Health Sciences, MHC Class I, 0302 clinical medicine, Receptors, KIR, Receptors, 2.1 Biological and endogenous factors, Genetics(clinical), Aetiology, Genetics (clinical), ComputingMilieux_MISCELLANEOUS, Genetics & Heredity, Genetics, Genome, gene content diversity, High-Throughput Nucleotide Sequencing, hemic and immune systems, [SDV.MHEP.HEM]Life Sciences [q-bio]/Human health and pathology/Hematology, Biological Sciences, KIR, 3. Good health, HIV/AIDS, Biotechnology, Human, Genotype, chemical and pharmacologic phenomena, HLA-C Antigens, Human leukocyte antigen, Biology, Article, DNA sequencing, 03 medical and health sciences, Genetic, otorhinolaryngologic diseases, HLA-B Antigens, Humans, Polymorphism, 1000 Genomes Project, Genotyping, Alleles, Polymorphism, Genetic, HLA-A Antigens, Genome, Human, Human Genome, Haplotype, HLA class I, immunity, Transplantation, 030104 developmental biology, Genes, Haplotypes, Human genome, highly polymorphic, 030215 immunology

Abstract

The physiological functions of natural killer (NK) cells in human immunity and reproduction depend upon diverse interactions between killer cell immunoglobulin-like receptors (KIRs) and their HLA class I ligands: HLA-A, HLA-B, and HLA-C. The genomic regions containing the KIR and HLA class I genes are unlinked, structurally complex, and highly polymorphic. They are also strongly associated with a wide spectrum of diseases, including infections, autoimmune disorders, cancers, and pregnancy disorders, as well as the efficacy of transplantation and other immunotherapies. To facilitate study of these extraordinary genes, we developed a method that captures, sequences, and analyzes the 13 KIR genes and HLA-A, HLA-B, and HLA-C from genomic DNA. We also devised a bioinformatics pipeline that attributes sequencing reads to specific KIR genes, determines copy number by read depth, and calls high-resolution genotypes for each KIR gene. We validated this method by using DNA from well-characterized cell lines, comparing it to established methods of HLA and KIR genotyping, and determining KIR genotypes from 1000 Genomes sequence data. This identified 116 previously uncharacterized KIR alleles, which were all demonstrated to be authentic by sequencing from source DNA via standard methods. Analysis of just two KIR genes showed that 22% of the 1000 Genomes individuals have a previously uncharacterized allele or a structural variant. The method we describe is suited to the large-scale analyses that are needed for characterizing human populations and defining the precise HLA and KIR factors associated with disease. The methods are applicable to other highly polymorphic genes.

Published

2016

41. KIR Donor Selection: Feasibility in Identifying better Donors

Author

Ronald Sobecks, Jeffrey S. Miller, Michael Haagenson, Elizabeth Trachtenberg, Peter Parham, Steven G.E. Marsh, Todd Fehninger, Hati Kobusingye, Ashley Spahn, Steven M. Devine, Jenny Vogel, Edmund K. Waller, Sarah Cooley, Ann E. Woolfrey, Cynthia Vierra-Green, Lisbeth A. Guethlein, Daniel J. Weisdorf, Stephen R. Spellman, Tao Wang, and Maureen Ross

Subjects

Oncology, Adult, Male, medicine.medical_specialty, Genotype, Adolescent, chemical and pharmacologic phenomena, Human leukocyte antigen, Article, Prospective evaluation, Donor Selection, Receptors, KIR, immune system diseases, Internal medicine, otorhinolaryngologic diseases, medicine, Humans, Prospective Studies, Genotyping, Transplantation, Donor selection, business.industry, Stem Cells, Haplotype, Hematopoietic Stem Cell Transplantation, hemic and immune systems, Hematology, Middle Aged, medicine.disease, Tissue Donors, Leukemia, Leukemia, Myeloid, Acute, Haplotypes, embryonic structures, Feasibility Studies, Female, business, Unrelated Donors

Abstract

We previously reported that acute myelogenous leukemia (AML) transplants using killer cell immunoglobulin-type receptor (KIR) B haplotype better or best (≥2 B activating gene loci ± Cen B/B) unrelated donors (URDs) yield less relapse and better survival. In this prospective trial we evaluated 535 AML searches from 14 participating centers with centralized donor KIR genotyping for donor selection. This represented 3% to 48% of all AML searches (median 20%) per center, totaling 3 to 172 patients (median 22) per center. Donor KIR genotype was reported at a median of 14 days after request (≤26 days for 76% of searches). In 535 searches, 2080 donors were requested for KIR genotyping (mean 4.3 per search); and a median of 1.8 (range, 0 to 4.5) per search were KIR typed. Choosing more donors for confirmatory HLA and KIR haplotype identification enriched the likelihood of finding KIR better or best donors. The search process identified a mean of 30% KIR better or best donors; the success ranged from 24% to 38% in the 11 centers enrolling ≥8 patients. More donors requested for KIR genotyping increased the likelihood of identifying KIR better or best haplotype donors. Of the 247 transplants, 9.3% used KIR best, 19% used KIR better, and 48% used KIR neutral donors while 24% used a non–KIR-tested donor. KIR genotyping did not delay transplantation. The time from search to transplant was identical for transplants using a KIR-genotyped versus a non–KIR-genotyped donor. Prospective evaluation can rapidly identify KIR favorable genotype donors, but choosing more donors per search would substantially increase the likelihood of having a KIR best or better donor available for transplantation. Transplant centers and donor registries must both commit extra effort to incorporate new characteristics (beyond HLA, age, and parity) into improved donor selection. Deliberate efforts to present additional genetic factors for donor selection will require novel procedures.

Published

2018

42. Donor Killer Cell Immunoglobulin-Like Receptor Genotype Does Not Improve Graft-versus-Leukemia Responses in Chronic Lymphocytic Leukemia after Unrelated Donor Transplant: A Center for International Blood and Marrow Transplant Research Analysis

Author

Peter Parham, Stephanie J. Lee, Sarah Cooley, Steven G.E. Marsh, Stephen R. Spellman, Jeffrey S. Miller, Veronika Bachanova, Tao Wang, Nezih Cereb, Michael Haagenson, Lisbeth A. Guethlein, and Daniel J. Weisdorf

Subjects

Oncology, Adult, Male, medicine.medical_specialty, Allogeneic transplantation, Chronic lymphocytic leukemia, Killer-cell immunoglobulin-like receptor, Graft vs Host Disease, Graft vs Leukemia Effect, Human leukocyte antigen, Disease-Free Survival, Article, Donor Selection, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Receptors, KIR, immune system diseases, Recurrence, Internal medicine, medicine, Humans, Transplantation, Donor selection, business.industry, Hematopoietic Stem Cell Transplantation, Hematology, Middle Aged, medicine.disease, Leukemia, Lymphocytic, Chronic, B-Cell, Survival Rate, Leukemia, 030220 oncology & carcinogenesis, Female, business, KIR3DL1, Unrelated Donors, 030215 immunology

Abstract

Allogeneic hematopoietic cell transplantation (alloHCT) remains the sole curative therapy for patients with chronic lymphocytic leukemia (CLL), leading to 40% to 45% long-term survival. The impact of donor killer immunoglobulin-like receptor (KIR) genotype on outcomes of unrelated donor (URD) alloHCT for CLL is unknown. We examined 573 adult URD CLL recipient pairs. KIR genotype (presence/absence) was determined for each donor, and comprehensive modeling of interactions with recipient HLA class I loci (KIR ligands) was used to evaluate their effect on relapse and survival. Recipients had a median age of 56 years, and most were not in remission (65%). Both 8/8 HLA-matched (81%) or 7/8 HLA matched grafts (19%) were studied. Factors associated with improved overall survival (OS) were reduced-intensity conditioning (hazard ratio [HR] of death, .76) and good performance status (HR, .46), whereas alloHCT in nonremission (HR, 1.96) and mismatched donors (HR, 2.01) increased mortality. No models demonstrated a relationship between donor KIR genotype and transplant outcomes. Cox regression models comparing donors with A/A versus B/x KIR haplotypes and those with KIR gene content scores of 0 versus 1 versus ≥2 yielded similar rates of nonrelapse mortality, relapse, acute graft-versus-host disease (GVHD), and chronic GVHD and the same progression-free survival and OS. Relapse risk was not different for grafts from donors with KIR3DL1 transplanted into HLA C1/1 versus C2 recipients. This large analysis failed to demonstrate an association between URD KIR genotype and transplant outcome for patients with CLL, and thus KIR genotyping should not be used as a donor selection criterion in this setting.

Published

2018

43. Genetics of Natural Killer Cells in Human Health, Disease, and Survival

Author

Peter Parham and Lisbeth A. Guethlein

Subjects

0301 basic medicine, Immunology, Cell, Human leukocyte antigen, Biology, Proinflammatory cytokine, Major Histocompatibility Complex, 03 medical and health sciences, Human reproduction, 0302 clinical medicine, Immune system, Receptors, KIR, Immunity, medicine, Immunology and Allergy, Animals, Humans, Genetic Predisposition to Disease, Receptor, Placentation, Genomics, Biological Evolution, Killer Cells, Natural, 030104 developmental biology, medicine.anatomical_structure, Haplotypes, Genetic Loci, 030215 immunology

Abstract

Natural killer (NK) cells have vital functions in human immunity and reproduction. In the innate and adaptive immune responses to infection, particularly by viruses, NK cells respond by secreting inflammatory cytokines and killing infected cells. In reproduction, NK cells are critical for genesis of the placenta, the organ that controls the supply of oxygen and nutrients to the growing fetus. Controlling NK cell functions are interactions of HLA class I with inhibitory NK cell receptors. First evolved was the conserved interaction of HLA-E with CD94:NKG2A; later established were diverse interactions of HLA-A, -B, and -C with killer cell immunoglobulin-like receptors. Characterizing the latter interactions is rapid evolution, which distinguishes human populations and all species of higher primate. Driving this evolution are the different and competing selections imposed by pathogens on NK cell–mediated immunity and by the constraints of human reproduction on NK cell–mediated placentation. Promoting rapid evolution is independent segregation of polymorphic receptors and ligands throughout human populations.

Published

2018

44. Regulation of Adaptive NK Cells and CD8 T Cells by HLA-C Correlates with Allogeneic Hematopoietic Cell Transplantation and with Cytomegalovirus Reactivation

Author

Peter Parham, Sarah Cooley, Lisbeth A. Guethlein, Jeffrey S. Miller, Amir Horowitz, Neda Nemat-Gorgani, and Paul Norman

Subjects

medicine.medical_treatment, Janus kinase 3, Lymphocyte, Immunology, Hematopoietic stem cell transplantation, Biology, Transplantation, Interleukin 21, surgical procedures, operative, medicine.anatomical_structure, medicine, Interleukin 12, Immunology and Allergy, Cytotoxic T cell, NK Cell Lectin-Like Receptor Subfamily C

Abstract

Mass cytometry was used to investigate the effect of CMV reactivation on lymphocyte reconstitution in hematopoietic cell transplant patients. For eight transplant recipients (four CMV negative and four CMV positive), we studied PBMCs obtained 6 mo after unrelated donor hematopoietic cell transplantation (HCT). Forty cell-surface markers, distinguishing all major leukocyte populations in PBMC, were analyzed with mass cytometry. This group included 34 NK cell markers. Compared with healthy controls, transplant recipients had higher HLA-C expression on CD56−CD16+ NK cells, B cells, CD33bright myeloid cells, and CD4CD8 T cells. The increase in HLA-C expression was greater for CMV-positive HCT recipients than for CMV negative recipients. Present in CMV-positive HCT recipients, but not in CMV-negative HCT recipients or controls, is a population of killer cell Ig-like receptor (KIR)-expressing CD8 T cells not previously described. These CD8 T cells coexpress CD56, CD57, and NKG2C. The HCT recipients also have a population of CD57+NKG2A+ NK cells that preferentially express KIR2DL1. An inverse correlation was observed between the frequencies of CD57+NKG2C+ NK cells and CD57+NKG2A+ NK cells. Although CD57+NKG2A+ NK cells are less abundant in CMV-positive recipients, their phenotype is of a more activated cell than the CD57+NKG2A+ NK cells of controls and CMV-negative HCT recipients. These data demonstrate that HCT and CMV reactivation are associated with an increased expression of HLA-C. This could influence NK cell education during lymphocyte reconstitution. The increased inhibitory KIR expression by proliferating CMV-specific CD8 T cells suggests regulatory interactions between HLA-C and KIR might promote Graft-versus-Leukemia effects following transplantation.

Published

2015

45. A Distinctive Cytoplasmic Tail Contributes to Low Surface Expression and Intracellular Retention of the Patr-AL MHC Class I Molecule

Author

Lisbeth A. Guethlein, Frances M. Brodsky, Amir Horowitz, Peter Parham, Ana Goyos, Michael Gleimer, and Hugo G. Hilton

Subjects

Pan troglodytes, Immunology, Golgi Apparatus, Biology, Endoplasmic Reticulum, Major histocompatibility complex, Article, HLA-A2 Antigen, MHC class I, medicine, Animals, Humans, Immunology and Allergy, Gene, B cell, Secretory pathway, Cell Line, Transformed, Regulation of gene expression, B-Lymphocytes, Cell Membrane, MHC Class I Gene, MHC restriction, Molecular biology, Protein Structure, Tertiary, medicine.anatomical_structure, Gene Expression Regulation, biology.protein

Abstract

Chimpanzees have orthologs of the six fixed, functional human MHC class I genes. But, in addition, the chimpanzee has a seventh functional gene, Patr-AL, which is not polymorphic but contributes substantially to population diversity by its presence on only 50% of MHC haplotypes. The ancestral AL gene emerged long before the separation of human and chimpanzee ancestors and then subsequently and specifically lost function during human evolution, but was maintained in chimpanzees. Patr-AL is an alloantigen that participates in negative and positive selection of the T cell repertoire. The three-dimensional structure and the peptide-binding repertoire of Patr-AL and HLA-A*02 are surprisingly similar. In contrast, the expression of these two molecules is very different, as shown using specific mAbs and polyclonal Abs made against Patr-AL. Peripheral blood cells and B cell lines express low levels of Patr-AL at the cell surface. Higher levels are seen for 221-cell transfectants expressing Patr-AL, but in these cells a large majority of Patr-AL molecules are retained in the early compartments of the secretory pathway: mainly the endoplasmic reticulum, but also cis-Golgi. Replacing the cytoplasmic tail of Patr-AL with that of HLA-A*02 increased the cell-surface expression of Patr-AL substantially. Four substitutions distinguish the Patr-AL and HLA-A*02 cytoplasmic tails. Systematic mutagenesis showed that each substitution contributes changes in cell-surface expression. The combination of residues present in Patr-AL appears unique, but each individual residue is present in other primate MHC class I molecules, notably MHC-E, the most ancient of the functional human MHC class I molecules.

Published

2015

46. Co-evolution of MHC class I and variable NK cell receptors in placental mammals

Author

Lisbeth A. Guethlein, Hugo G. Hilton, Peter Parham, and Paul Norman

Subjects

Old World, Immunology, NK Cell Receptors, chemical and pharmacologic phenomena, Locus (genetics), Article, Evolution, Molecular, Receptors, KIR, Species Specificity, immune system diseases, Phylogenetics, MHC class I, otorhinolaryngologic diseases, Animals, Humans, Immunology and Allergy, Avidity, Receptor, Phylogeny, Mammals, Genetics, biology, Histocompatibility Antigens Class I, Haplotype, Genetic Variation, hemic and immune systems, Killer Cells, Natural, embryonic structures, biology.protein

Abstract

Shaping natural killer (NK) cell functions in human immunity and reproduction are diverse killer cell immunoglobulin-like receptors (KIRs) that recognize polymorphic MHC class I determinants. A survey of placental mammals suggests that KIRs serve as variable NK cell receptors only in certain primates and artiodactyls. Divergence of the functional and variable KIRs in primates and artiodactyls predates placental reproduction. Among artiodactyls, cattle but not pigs have diverse KIRs. Catarrhine (humans, apes, and Old World monkeys) and platyrrhine (New World monkeys) primates, but not prosimians, have diverse KIRs. Platyrrhine and catarrhine systems of KIR and MHC class I are highly diverged, but within the catarrhines, a stepwise co-evolution of MHC class I and KIR is discerned. In Old World monkeys, diversification focuses on MHC-A and MHC-B and their cognate lineage II KIR. With evolution of C1-bearing MHC-C from MHC-B, as informed by orangutan, the focus changes to MHC-C and its cognate lineage III KIR. Evolution of C2 from C1 and fixation of MHC-C drove further elaboration of MHC-C-specific KIR, as exemplified by chimpanzee. In humans, the evolutionary trajectory changes again. Emerging from reorganization of the KIR locus and selective attenuation of KIR avidity for MHC class I are the functionally distinctive KIR A and KIR B haplotypes.

Published

2015

47. Chimpanzee susceptibility to hepatitis C virus infection correlates with presence of Pt-KIR3DS2 and Pt-KIR2DL9: paired activating and inhibitory natural killer cell receptors

Author

Lisbeth A. Guethlein, Laurent Abi-Rached, Paul Norman, and Peter Parham

Subjects

Genotype, Pan troglodytes, Hepatitis C virus, Immunology, Hepacivirus, Human leukocyte antigen, medicine.disease_cause, Major histocompatibility complex, Article, Epitope, Natural killer cell, Gene Frequency, Receptors, KIR, MHC class I, Genetics, medicine, Animals, Genetic Predisposition to Disease, biology, Histocompatibility Antigens Class I, Genetic Variation, Receptors, KIR3DL2, Hepatitis C, medicine.disease, Virology, Chronic infection, medicine.anatomical_structure, Haplotypes, Disease Progression, biology.protein

Abstract

Infection of humans and chimpanzees with Hepatitis C virus (HCV) results in either the resolution of the acute infection or its progression to a persistent infection associated with chronic liver disease. In cohorts of human patients, resolution of HCV infection has been associated with homozygosity for both C1(+)HLA-C and its cognate inhibitory receptor, KIR2DL3. Compared here are the killer cell immunoglobulin-like receptors (KIR) and major histocompatibility complex (MHC) class I factors of chimpanzees who resolve, or resist, HCV infection with those chimpanzees who progress to chronic infection. Analysis of Pt-KIR gene content diversity associated two of the 12 Pt-KIR with clinical outcome. Activating Pt-KIR3DS2 and inhibitory Pt-KIR2DL9 are strong receptors specific for the C2 epitope. They are encoded by neighboring genes within the Pt-KIR locus that are in strong linkage disequilibrium. HCV-infected chimpanzees with KIR genotypes containing Pt-KIR3DS2 and KIR2DL9 are significantly more likely to progress to chronic infection than infected chimpanzees lacking the genes (p = 0.0123 and p = 0.0045, respectively), whereas human HLA-B allotypes having the C1 epitope are unusual, such allotypes comprise about one quarter of the chimpanzee Patr-B allotypes. Homozygous C1 (+) Patr-B are enriched in chimpanzees with chronic HCV infection, and the compound genotype of homozygous C1 (+) Patr-B combined with either Pt-KIR3DS2 or Pt-KIR2DL9 is more strongly associated with disease progression than either factor alone (p = 0.0031 and p = 0.0013, respectively). Thus, despite similarities suggesting a common basis in disease resistance, there are substantial differences in the KIR and MHC class I correlations observed for HCV-infected humans and chimpanzees, consistent with the divergence of their KIR and MHC class I systems.

Published

2015

48. Very long haplotype tracts characterized at high resolution from HLA homozygous cell lines

Author

Lisbeth A. Guethlein, Mostafa Ronaghi, Peter Parham, Paul Norman, Jill A. Hollenbach, Steve Norberg, Thomas Royce, Kevin L. Gunderson, Melissa Won, and Neda Nemat-Gorgani

Subjects

Genes, MHC Class II, Immunology, Genes, MHC Class I, Single-nucleotide polymorphism, Human leukocyte antigen, Biology, Polymorphism, Single Nucleotide, Article, White People, Cell Line, Asian People, Chromosome 19, Genetics, Humans, Allele, Alleles, B-Lymphocytes, Genome, Human, Histocompatibility Antigens Class I, Haplotype, Histocompatibility Antigens Class II, Chromosome, Histocompatibility, Haplotypes, Chromosomes, Human, Pair 6, Imputation (genetics)

Abstract

The HLA region of chromosome 6 contains the most polymorphic genes in humans. Spanning ~5 Mbp the densely packed region encompasses approximately 175 expressed genes including the highly polymorphic HLA class I and II loci. Most of the other genes and functional elements are also polymorphic, and many of them are directly implicated in immune function or immune-related disease. For these reasons, this complex genomic region is subject to intense scrutiny by researchers with the common goal of aiding further understanding and diagnoses of multiple immune-related diseases and syndromes. To aid assay development and characterization of the classical loci, a panel of cell lines partially or fully homozygous for HLA class I and II was assembled over time by the International Histocompatibility Working Group (IHWG). Containing a minimum of 88 unique HLA haplotypes, we show that this panel represents a significant proportion of European HLA allelic and haplotype diversity (60-95 %). Using a high-density whole genome array that includes 13,331 HLA region SNPs, we analyzed 99 IHWG cells to map the coordinates of the homozygous tracts at a fine scale. The mean homozygous tract length within chromosome 6 from these individuals is 21 Mbp. Within HLA, the mean haplotype length is 4.3 Mbp, and 65 % of the cell lines were shown to be homozygous throughout the entire region. In addition, four cell lines are homozygous throughout the complex KIR region of chromosome 19 (~250 kbp). The data we describe will provide a valuable resource for characterizing haplotypes, designing and refining imputation algorithms and developing assay controls.

Published

2015

49. Nomenclature for the KIR of non-human species

Author

Natasja G. de Groot, Laurent Abi-Rached, Lutz Walter, Peter Parham, Steven G.E. Marsh, Ronald E. Bontrop, Jeroen H. Blokhuis, James Robinson, Nicholas D Sanderson, Benjamin N. Bimber, John A. Hammond, Giuseppe Maccari, Lisbeth A. Guethlein, Department of Structural Biology [Stanford], Stanford Medicine, Stanford University-Stanford University, Microbes évolution phylogénie et infections (MEPHI), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Department of Infectious Disease Epidemiology [London] (DIDE), and Imperial College London

Subjects

0301 basic medicine, Pan troglodytes, Immunology, Gene, Database, 03 medical and health sciences, 0302 clinical medicine, Pongo pygmaeus, Receptors, KIR, [SDV.MHEP.MI]Life Sciences [q-bio]/Human health and pathology/Infectious diseases, Terminology as Topic, biology.animal, Sequence, Genetics, Animals, Humans, Primate, Variant, Nomenclature, Allele, biology, Pongo abelii, biology.organism_classification, Macaca mulatta, KIR, Rhesus macaque, 030104 developmental biology, Evolutionary biology, Original Article, Cattle, 030215 immunology

Abstract

International audience; The increasing number of Killer Immunoglobulin-like Receptor (KIR) sequences available for non-human primate species and cattle has prompted development of a centralized database, guidelines for a standardized nomenclature, and minimum requirements for database submission. The guidelines and nomenclature are based on those used for human KIR and incorporate modifications made for inclusion of non-human species in the companion IPD-NHKIR database. Included in this first release are the rhesus macaque (Macaca mulatta), chimpanzee (Pan troglodytes), orangutan (Pongo abelii and Pongo pygmaeus), and cattle (Bos taurus).

Published

2018

50. Distinguishing functional polymorphism from random variation in the sequences of >10,000 HLA-A, -B and -C alleles

Author

Peter Parham, Lisbeth A. Guethlein, Steven G.E. Marsh, Soo Young Yang, Paul Norman, James Robinson, and Nezih Cereb

Subjects

0301 basic medicine, Cancer Research, Mutation rate, DNA Mutational Analysis, Database and Informatics Methods, Phylogeny, Genetics (clinical), Genetics, education.field_of_study, Histocompatibility Testing, 3. Good health, HLA-A, Sequence Analysis, Research Article, Multiple Alignment Calculation, lcsh:QH426-470, Bioinformatics, Sequence analysis, Population, Sequence Databases, Nucleotide Sequencing, Single-nucleotide polymorphism, HLA-C Antigens, Human leukocyte antigen, Biology, Research and Analysis Methods, Polymorphism, Single Nucleotide, 03 medical and health sciences, Sequence Motif Analysis, Computational Techniques, Humans, Point Mutation, Allele, Molecular Biology Techniques, Sequencing Techniques, education, Molecular Biology, Alleles, Germ-Line Mutation, DNA sequence analysis, Ecology, Evolution, Behavior and Systematics, HLA-A Antigens, Biology and Life Sciences, Split-Decomposition Method, lcsh:Genetics, Genetics, Population, Biological Databases, 030104 developmental biology, HLA-B Antigens, Genetic Loci, Sequence Alignment, Identity by type

Abstract

HLA class I glycoproteins contain the functional sites that bind peptide antigens and engage lymphocyte receptors. Recently, clinical application of sequence-based HLA typing has uncovered an unprecedented number of novel HLA class I alleles. Here we define the nature and extent of the variation in 3,489 HLA-A, 4,356 HLA-B and 3,111 HLA-C alleles. This analysis required development of suites of methods, having general applicability, for comparing and analyzing large numbers of homologous sequences. At least three amino-acid substitutions are present at every position in the polymorphic α1 and α2 domains of HLA-A, -B and -C. A minority of positions have an incidence >1% for the ‘second’ most frequent nucleotide, comprising 70 positions in HLA-A, 85 in HLA-B and 54 in HLA-C. The majority of these positions have three or four alternative nucleotides. These positions were subject to positive selection and correspond to binding sites for peptides and receptors. Most alleles of HLA class I (>80%) are very rare, often identified in one person or family, and they differ by point mutation from older, more common alleles. These alleles with single nucleotide polymorphisms reflect the germ-line mutation rate. Their frequency predicts the human population harbors 8–9 million HLA class I variants. The common alleles of human populations comprise 42 core alleles, which represent all selected polymorphism, and recombinants that have assorted this polymorphism., Author summary The HLA complex is a region of the human genome containing immune system genes. Our study concerns those HLA genes that orchestrate defense against viral infections. Distinguishing HLA genes from other human genes is their extensive variation within individuals, families and populations. One advantage of this genetic variation is to increase the depth and breadth of the weaponry used against viruses; another is to impede the spread of infection within families and communities. A drawback to HLA variation is that bone-marrow transplants between donors and patients of different HLA type trigger immune reactions that attack and can kill the patient. For some patients an HLA identical family member can be the donor, but for others an unrelated HLA identical donor is sought. Facilitating these searches are registries, listing millions of possible donors whose HLA types were determined by gene sequencing. During the last ten years, this effort produced exponential growth in the number of HLA variants sequenced. This gave us the unprecedented opportunity to compare more than 10,000 sequences and distinguish aspects of the variation that are important for immune functions, from those that are not. First, however, we needed to develop software that could handle this mass of data.

Published

2017