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1. The selection landscape and genetic legacy of ancient Eurasians

Author

Irving-Pease, Evan K, Refoyo-Martínez, Alba, Barrie, William, Ingason, Andrés, Pearson, Alice, Fischer, Anders, Sjögren, Karl-Göran, Halgren, Alma S, Macleod, Ruairidh, Demeter, Fabrice, Henriksen, Rasmus A, Vimala, Tharsika, McColl, Hugh, Vaughn, Andrew H, Speidel, Leo, Stern, Aaron J, Scorrano, Gabriele, Ramsøe, Abigail, Schork, Andrew J, Rosengren, Anders, Zhao, Lei, Kristiansen, Kristian, Iversen, Astrid KN, Fugger, Lars, Sudmant, Peter H, Lawson, Daniel J, Durbin, Richard, Korneliussen, Thorfinn, Werge, Thomas, Allentoft, Morten E, Sikora, Martin, Nielsen, Rasmus, Racimo, Fernando, and Willerslev, Eske

Subjects
Biological Sciences, Genetics, History, Heritage and Archaeology, Human Society, Archaeology, Historical Studies, Anthropology, Good Health and Well Being, Humans, Alzheimer Disease, Affect, Alleles, Agriculture, Europe, General Science & Technology
Abstract

The Holocene (beginning around 12,000 years ago) encompassed some of the most significant changes in human evolution, with far-reaching consequences for the dietary, physical and mental health of present-day populations. Using a dataset of more than 1,600 imputed ancient genomes1, we modelled the selection landscape during the transition from hunting and gathering, to farming and pastoralism across West Eurasia. We identify key selection signals related to metabolism, including that selection at the FADS cluster began earlier than previously reported and that selection near the LCT locus predates the emergence of the lactase persistence allele by thousands of years. We also find strong selection in the HLA region, possibly due to increased exposure to pathogens during the Bronze Age. Using ancient individuals to infer local ancestry tracts in over 400,000 samples from the UK Biobank, we identify widespread differences in the distribution of Mesolithic, Neolithic and Bronze Age ancestries across Eurasia. By calculating ancestry-specific polygenic risk scores, we show that height differences between Northern and Southern Europe are associated with differential Steppe ancestry, rather than selection, and that risk alleles for mood-related phenotypes are enriched for Neolithic farmer ancestry, whereas risk alleles for diabetes and Alzheimer's disease are enriched for Western hunter-gatherer ancestry. Our results indicate that ancient selection and migration were large contributors to the distribution of phenotypic diversity in present-day Europeans.

Published
2024

2. Elevated genetic risk for multiple sclerosis emerged in steppe pastoralist populations

Author

Barrie, William, Yang, Yaoling, Irving-Pease, Evan K, Attfield, Kathrine E, Scorrano, Gabriele, Jensen, Lise Torp, Armen, Angelos P, Dimopoulos, Evangelos Antonios, Stern, Aaron, Refoyo-Martinez, Alba, Pearson, Alice, Ramsøe, Abigail, Gaunitz, Charleen, Demeter, Fabrice, Jørkov, Marie Louise S, Møller, Stig Bermann, Springborg, Bente, Klassen, Lutz, Hyldgård, Inger Marie, Wickmann, Niels, Vinner, Lasse, Korneliussen, Thorfinn Sand, Allentoft, Morten E, Sikora, Martin, Kristiansen, Kristian, Rodriguez, Santiago, Nielsen, Rasmus, Iversen, Astrid KN, Lawson, Daniel J, Fugger, Lars, and Willerslev, Eske

Subjects
Biological Sciences, Genetics, History, Heritage and Archaeology, Archaeology, Historical Studies, Neurosciences, Autoimmune Disease, Multiple Sclerosis, Brain Disorders, Neurodegenerative, Human Genome, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Neurological, Humans, Neurodegenerative Diseases, Cluster Analysis, Population Density, Child, Preschool, Europe, General Science & Technology
Abstract

Multiple sclerosis (MS) is a neuro-inflammatory and neurodegenerative disease that is most prevalent in Northern Europe. Although it is known that inherited risk for MS is located within or in close proximity to immune-related genes, it is unknown when, where and how this genetic risk originated1. Here, by using a large ancient genome dataset from the Mesolithic period to the Bronze Age2, along with new Medieval and post-Medieval genomes, we show that the genetic risk for MS rose among pastoralists from the Pontic steppe and was brought into Europe by the Yamnaya-related migration approximately 5,000 years ago. We further show that these MS-associated immunogenetic variants underwent positive selection both within the steppe population and later in Europe, probably driven by pathogenic challenges coinciding with changes in diet, lifestyle and population density. This study highlights the critical importance of the Neolithic period and Bronze Age as determinants of modern immune responses and their subsequent effect on the risk of developing MS in a changing environment.

Published
2024

5. Antibody agonists trigger immune receptor signaling through local exclusion of receptor-type protein tyrosine phosphatases

Author

Lippert, Anna H., Paluch, Christopher, Gaglioni, Meike, Vuong, Mai T., McColl, James, Jenkins, Edward, Fellermeyer, Martin, Clarke, Joseph, Sharma, Sumana, Moreira da Silva, Sara, Akkaya, Billur, Anzilotti, Consuelo, Morgan, Sara H., Jessup, Claire F., Körbel, Markus, Gileadi, Uzi, Leitner, Judith, Knox, Rachel, Chirifu, Mami, Huo, Jiandong, Yu, Susan, Ashman, Nicole, Lui, Yuan, Wilkinson, Ian, Attfield, Kathrine E., Fugger, Lars, Robertson, Nathan J., Lynch, Christopher J., Murray, Lynne, Steinberger, Peter, Santos, Ana Mafalda, Lee, Steven F., Cornall, Richard J., Klenerman, David, and Davis, Simon J.

Published
2024
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9. The Human Cell Atlas White Paper

Author

Regev, Aviv, Teichmann, Sarah, Rozenblatt-Rosen, Orit, Stubbington, Michael, Ardlie, Kristin, Amit, Ido, Arlotta, Paola, Bader, Gary, Benoist, Christophe, Biton, Moshe, Bodenmiller, Bernd, Bruneau, Benoit, Campbell, Peter, Carmichael, Mary, Carninci, Piero, Castelo-Soccio, Leslie, Clatworthy, Menna, Clevers, Hans, Conrad, Christian, Eils, Roland, Freeman, Jeremy, Fugger, Lars, Goettgens, Berthold, Graham, Daniel, Greka, Anna, Hacohen, Nir, Haniffa, Muzlifah, Helbig, Ingo, Heuckeroth, Robert, Kathiresan, Sekar, Kim, Seung, Klein, Allon, Knoppers, Bartha, Kriegstein, Arnold, Lander, Eric, Lee, Jane, Lein, Ed, Linnarsson, Sten, Macosko, Evan, MacParland, Sonya, Majovski, Robert, Majumder, Partha, Marioni, John, McGilvray, Ian, Merad, Miriam, Mhlanga, Musa, Naik, Shalin, Nawijn, Martijn, Nolan, Garry, Paten, Benedict, Pe'er, Dana, Philippakis, Anthony, Ponting, Chris, Quake, Steve, Rajagopal, Jayaraj, Rajewsky, Nikolaus, Reik, Wolf, Rood, Jennifer, Saeb-Parsy, Kourosh, Schiller, Herbert, Scott, Steve, Shalek, Alex, Shapiro, Ehud, Shin, Jay, Skeldon, Kenneth, Stratton, Michael, Streicher, Jenna, Stunnenberg, Henk, Tan, Kai, Taylor, Deanne, Thorogood, Adrian, Vallier, Ludovic, van Oudenaarden, Alexander, Watt, Fiona, Weicher, Wilko, Weissman, Jonathan, Wells, Andrew, Wold, Barbara, Xavier, Ramnik, Zhuang, Xiaowei, and Committee, Human Cell Atlas Organizing

Subjects
Quantitative Biology - Tissues and Organs
Abstract

The Human Cell Atlas (HCA) will be made up of comprehensive reference maps of all human cells - the fundamental units of life - as a basis for understanding fundamental human biological processes and diagnosing, monitoring, and treating disease. It will help scientists understand how genetic variants impact disease risk, define drug toxicities, discover better therapies, and advance regenerative medicine. A resource of such ambition and scale should be built in stages, increasing in size, breadth, and resolution as technologies develop and understanding deepens. We will therefore pursue Phase 1 as a suite of flagship projects in key tissues, systems, and organs. We will bring together experts in biology, medicine, genomics, technology development and computation (including data analysis, software engineering, and visualization). We will also need standardized experimental and computational methods that will allow us to compare diverse cell and tissue types - and samples across human communities - in consistent ways, ensuring that the resulting resource is truly global. This document, the first version of the HCA White Paper, was written by experts in the field with feedback and suggestions from the HCA community, gathered during recent international meetings. The White Paper, released at the close of this yearlong planning process, will be a living document that evolves as the HCA community provides additional feedback, as technological and computational advances are made, and as lessons are learned during the construction of the atlas.

Published
2018

10. Mouse fetal growth restriction through parental and fetal immune gene variation and intercellular communications cascade

Author

Kaur, Gurman, Porter, Caroline B. M., Ashenberg, Orr, Lee, Jack, Riesenfeld, Samantha J., Hofree, Matan, Aggelakopoulou, Maria, Subramanian, Ayshwarya, Kuttikkatte, Subita Balaram, Attfield, Kathrine E., Desel, Christiane A. E., Davies, Jessica L., Evans, Hayley G., Avraham-Davidi, Inbal, Nguyen, Lan T., Dionne, Danielle A., Neumann, Anna E., Jensen, Lise Torp, Barber, Thomas R., Soilleux, Elizabeth, Carrington, Mary, McVean, Gil, Rozenblatt-Rosen, Orit, Regev, Aviv, and Fugger, Lars

Published
2022
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11. The Human Cell Atlas.

Author

Regev, Aviv, Teichmann, Sarah A, Lander, Eric S, Amit, Ido, Benoist, Christophe, Birney, Ewan, Bodenmiller, Bernd, Campbell, Peter, Carninci, Piero, Clatworthy, Menna, Clevers, Hans, Deplancke, Bart, Dunham, Ian, Eberwine, James, Eils, Roland, Enard, Wolfgang, Farmer, Andrew, Fugger, Lars, Göttgens, Berthold, Hacohen, Nir, Haniffa, Muzlifah, Hemberg, Martin, Kim, Seung, Klenerman, Paul, Kriegstein, Arnold, Lein, Ed, Linnarsson, Sten, Lundberg, Emma, Lundeberg, Joakim, Majumder, Partha, Marioni, John C, Merad, Miriam, Mhlanga, Musa, Nawijn, Martijn, Netea, Mihai, Nolan, Garry, Pe'er, Dana, Phillipakis, Anthony, Ponting, Chris P, Quake, Stephen, Reik, Wolf, Rozenblatt-Rosen, Orit, Sanes, Joshua, Satija, Rahul, Schumacher, Ton N, Shalek, Alex, Shapiro, Ehud, Sharma, Padmanee, Shin, Jay W, Stegle, Oliver, Stratton, Michael, Stubbington, Michael JT, Theis, Fabian J, Uhlen, Matthias, van Oudenaarden, Alexander, Wagner, Allon, Watt, Fiona, Weissman, Jonathan, Wold, Barbara, Xavier, Ramnik, Yosef, Nir, and Human Cell Atlas Meeting Participants

Subjects
Human Cell Atlas Meeting Participants, Eukaryotic Cells, Humans, Human Body, International Cooperation, Atlases as Topic, cell atlas, cell biology, computational biology, human, lineage, mouse, science forum, single-cell genomics, systems biology, Biochemistry and Cell Biology
Abstract

The recent advent of methods for high-throughput single-cell molecular profiling has catalyzed a growing sense in the scientific community that the time is ripe to complete the 150-year-old effort to identify all cell types in the human body. The Human Cell Atlas Project is an international collaborative effort that aims to define all human cell types in terms of distinctive molecular profiles (such as gene expression profiles) and to connect this information with classical cellular descriptions (such as location and morphology). An open comprehensive reference map of the molecular state of cells in healthy human tissues would propel the systematic study of physiological states, developmental trajectories, regulatory circuitry and interactions of cells, and also provide a framework for understanding cellular dysregulation in human disease. Here we describe the idea, its potential utility, early proofs-of-concept, and some design considerations for the Human Cell Atlas, including a commitment to open data, code, and community.

Published
2017

12. Genetic variation inHIF1Ais associated with smoldering inflammation and disease progression in Multiple Sclerosis

Author

Giordano, Antonino, primary, Stridh, Pernilla, additional, Preziosa, Paolo, additional, Pisa, Marco, additional, Sorosina, Melissa, additional, Mascia, Elisabetta, additional, Santoro, Silvia, additional, Misra, Kaalindi, additional, Clarelli, Ferdinando, additional, Ferrè, Laura, additional, Needhamsen, Maria, additional, Manouchehrinia, Ali, additional, Cannizzaro, Miryam, additional, Moridi, Thomas, additional, Shchetynsky, Klementy, additional, Ouellette, Russell, additional, Harroud, Adil, additional, Sandberg, Elisabeth, additional, Kuttikkatte, Subita Balaram, additional, Piehl, Fredrik, additional, Alfredsson, Lars, additional, Hillert, Jan, additional, Olsson, Tomas, additional, Fugger, Lars, additional, Attfield, Kate, additional, Granberg, Tobias, additional, Jagodic, Maja, additional, DeLuca, Gabriele Carmine, additional, Rocca, Mara, additional, Filippi, Massimo, additional, Kockum, Ingrid, additional, and Esposito, Federica, additional

Published
2024
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14. Acute Inflammatory Diseases of the Central Nervous System After SARS-CoV-2 Vaccination

Author

Francis, Anna G., Elhadd, Kariem, Camera, Valentina, Ferreira dos Santos, Monica, Rocchi, Chiara, Adib-Samii, Poneh, Athwal, Bal, Attfield, Kathrine, Barritt, Andrew, Craner, Matthew, Fisniku, Leonora, Iversen, Astrid K.N., Leach, Oliver, Matthews, Lucy, Redmond, Ian, OʼRiordan, Jonathan, Scalfari, Antonio, Tanasescu, Radu, Wren, Damian, Huda, Saif, Leite, Maria Isabel, Fugger, Lars, and Palace, Jacqueline

Published
2023
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18. Class II HLA interactions modulate genetic risk for multiple sclerosis.

Author

Moutsianas, Loukas, Jostins, Luke, Beecham, Ashley, Dilthey, Alexander, Xifara, Dionysia, Ban, Maria, Shah, Tejas, Patsopoulos, Nikolaos, Alfredsson, Lars, Anderson, Carl, Attfield, Katherine, Barrett, Jeffrey, Binder, Thomas, Booth, David, Buck, Dorothea, Celius, Elisabeth, Cotsapas, Chris, DAlfonso, Sandra, Dendrou, Calliope, Donnelly, Peter, Dubois, Bénédicte, Fontaine, Bertrand, Fugger, Lars, Goris, An, Graetz, Christiane, Hemmer, Bernhard, Hillert, Jan, Kockum, Ingrid, Leslie, Stephen, Lill, Christina, Martinelli-Boneschi, Filippo, Olsson, Tomas, Oturai, Annette, Saarela, Janna, Søndergaard, Helle, Spurkland, Anne, Taylor, Bruce, Winkelmann, Juliane, Zipp, Frauke, Haines, Jonathan, Pericak-Vance, Margaret, Spencer, Chris, Stewart, Graeme, Hafler, David, Ivinson, Adrian, Harbo, Hanne, De Jager, Philip, Compston, Alastair, McCauley, Jacob, Sawcer, Stephen, McVean, Gil, Hauser, Stephen, Oksenberg, Jorge, Baranzini, Sergio, and Gourraud, Pierre-Antoine

Subjects
Alleles, Epistasis, Genetic, Genetic Predisposition to Disease, Histocompatibility Antigens Class II, Humans, Multiple Sclerosis, Polymorphism, Single Nucleotide
Abstract

Association studies have greatly refined the understanding of how variation within the human leukocyte antigen (HLA) genes influences risk of multiple sclerosis. However, the extent to which major effects are modulated by interactions is poorly characterized. We analyzed high-density SNP data on 17,465 cases and 30,385 controls from 11 cohorts of European ancestry, in combination with imputation of classical HLA alleles, to build a high-resolution map of HLA genetic risk and assess the evidence for interactions involving classical HLA alleles. Among new and previously identified class II risk alleles (HLA-DRB1*15:01, HLA-DRB1*13:03, HLA-DRB1*03:01, HLA-DRB1*08:01 and HLA-DQB1*03:02) and class I protective alleles (HLA-A*02:01, HLA-B*44:02, HLA-B*38:01 and HLA-B*55:01), we find evidence for two interactions involving pairs of class II alleles: HLA-DQA1*01:01-HLA-DRB1*15:01 and HLA-DQB1*03:01-HLA-DQB1*03:02. We find no evidence for interactions between classical HLA alleles and non-HLA risk-associated variants and estimate a minimal effect of polygenic epistasis in modulating major risk alleles.

Published
2015

19. The landscape of ancient human pathogens in Eurasia from the Stone Age to historical times

Author

Sikora, Martin, primary, Canteri, Elisabetta, additional, Fernandez-Guerra, Antonio, additional, Oskolkov, Nikolay, additional, Agren, Rasmus, additional, Hansson, Lena, additional, Irving-Pease, Evan K, additional, Muehlemann, Barbara, additional, Holtsmark Nielsen, Sofie, additional, Scorrano, Gabriele, additional, Allentoft, Morten E, additional, Seersholm, Frederik Valeur, additional, Schroeder, Hannes, additional, Gaunitz, Charleen, additional, Stenderup, Jesper, additional, Vinner, Lasse, additional, Jones, Terry C, additional, Nystedt, Bjorn, additional, Parkhill, Julian, additional, Fugger, Lars, additional, Racimo, Fernando, additional, Kristiansen, Kristian, additional, Iversen, Astrid K N, additional, and Willerslev, Eske, additional

Published
2023
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31. Remarkably low affinity of CD4/peptide-major histocompatibility complex class II protein interactions

Author

Jönsson, Peter, Southcombe, Jennifer H., Santos, Ana Mafalda, Huo, Jiandong, Fernandes, Ricardo A., McColl, James, Lever, Melissa, Evans, Edward J., Hudson, Alexander, Chang, Veronica T., Hanke, Tomáš, Godkin, Andrew, Dunne, Paul D., Horrocks, Mathew H., Palayret, Matthieu, Screaton, Gavin R., Petersen, Jan, Rossjohn, Jamie, Fugger, Lars, Dushek, Omer, Xu, Xiao-Ning, Davis, Simon J., and Klenerman, David

Published
2016

32. A plasmid-encoded peptide from Staphylococcus aureus induces anti-myeloperoxidase nephritogenic autoimmunity

Author

Ooi, Joshua D., Jiang, Jhih-Hang, Eggenhuizen, Peter J., Chua, Ling L., van Timmeren, Mirjan, Loh, Khai L., O’Sullivan, Kim M., Gan, Poh Y., Zhong, Yong, Tsyganov, Kirill, Shochet, Lani R., Ryan, Jessica, Stegeman, Coen A., Fugger, Lars, Reid, Hugh H., Rossjohn, Jamie, Heeringa, Peter, Holdsworth, Stephen R., Peleg, Anton Y., and Kitching, A. Richard

Published
2019
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33. Acute Inflammatory Diseases of the Central Nervous System After SARS-CoV-2 Vaccination

Author

Francis, Anna G., primary, Elhadd, Kariem, additional, Camera, Valentina, additional, Ferreira dos Santos, Monica, additional, Rocchi, Chiara, additional, Adib-Samii, Poneh, additional, Athwal, Bal, additional, Attfield, Kathrine, additional, Barritt, Andrew, additional, Craner, Matthew, additional, Fisniku, Leonora, additional, Iversen, Astrid K.N., additional, Leach, Oliver, additional, Matthews, Lucy, additional, Redmond, Ian, additional, O'Riordan, Jonathan, additional, Scalfari, Antonio, additional, Tanasescu, Radu, additional, Wren, Damian, additional, Huda, Saif, additional, Leite, Maria Isabel, additional, Fugger, Lars, additional, and Palace, Jacqueline, additional

Published
2022
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34. Genetic risk for Multiple Sclerosis originated in Pastoralist Steppe populations

Author

Barrie, William, primary, Yang, Yaoling, additional, Attfield, Kathrine E., additional, Irving-Pease, Evan, additional, Scorrano, Gabriele, additional, Jensen, Lise Torp, additional, Armen, Angelos P., additional, Dimopoulos, Evangelos Antonios, additional, Stern, Aaron, additional, Refoyo-Martinez, Alba, additional, Ramsøe, Abigail, additional, Gaunitz, Charleen, additional, Demeter, Fabrice, additional, Jørkov, Marie Louise S., additional, Møller, Stig Bermann, additional, Springborg, Bente, additional, Klassen, Lutz, additional, Hyldgård, Inger Marie, additional, Wickmann, Niels, additional, Vinner, Lasse, additional, Korneliussen, Thorfinn Sand, additional, Sikora, Martin, additional, Kristiansen, Kristian, additional, Rodriguez, Santiago, additional, Nielsen, Rasmus, additional, Iversen, Astrid K. N., additional, Lawson, Daniel J., additional, Fugger, Lars, additional, and Willerslev, Eske, additional

Published
2022
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38. Genetic risk for Multiple Sclerosis originated in Pastoralist Steppe populations

Author

Barrie, William, Yang, Yaoling, Attfield, Kathrine E., Irving-Pease, Evan, Scorrano, Gabriele, Jensen, Lise Torp, Armen, Angelos P., Dimopoulos, Evangelos Antonios, Stern, Aaron, Refoyo-Martínez, Alba, Ramsøe, Abigail, Gaunitz, Charleen, Demeter, Fabrice, Jørkov, Marie Louise S., Møller, Stig Bermann, Springborg, Bente, Klassen, Lutz, Hyldgård, Inger Marie, Wickmann, Niels, Vinner, Lasse, Korneliussen, Thorfinn Sand, Sikora, Martin, Kristiansen, Kristian, Rodriguez, Santiago, Nielsen, Rasmus, Iversen, Astrid K. N., Lawson, Daniel J., Fugger, Lars, Willerslev, Eske, Barrie, William, Yang, Yaoling, Attfield, Kathrine E., Irving-Pease, Evan, Scorrano, Gabriele, Jensen, Lise Torp, Armen, Angelos P., Dimopoulos, Evangelos Antonios, Stern, Aaron, Refoyo-Martínez, Alba, Ramsøe, Abigail, Gaunitz, Charleen, Demeter, Fabrice, Jørkov, Marie Louise S., Møller, Stig Bermann, Springborg, Bente, Klassen, Lutz, Hyldgård, Inger Marie, Wickmann, Niels, Vinner, Lasse, Korneliussen, Thorfinn Sand, Sikora, Martin, Kristiansen, Kristian, Rodriguez, Santiago, Nielsen, Rasmus, Iversen, Astrid K. N., Lawson, Daniel J., Fugger, Lars, and Willerslev, Eske

Abstract

Multiple sclerosis (MS) is a modern neuro-inflammatory and -degenerative disease, which is most prevalent in Northern Europe. Whilst it is known that inherited risk to MS is located within or within close proximity to immune genes it is unknown when, where and how this genetic risk originated. By using the largest ancient genome dataset from the Stone Age, along with new Medieval and post-Medieval genomes, we show that many of the genetic risk variants for MS rose to higher frequency among pastoralists located on the Pontic Steppe, and were brought into Europe by the Yamnaya-related migration approximately 5,000 years ago. We further show that these MS-associated immunogenetic variants underwent positive selection both within the Steppe population, and later in Europe, likely driven by pathogenic challenges coinciding with dietary and lifestyle environmental changes. This study highlights the critical importance of this period as a determinant of modern immune responses and its subsequent impact on the risk of developing MS in a changing environment.

Published
2022

40. Ingested non-essential amino acids recruit brain orexin cells to suppress eating in mice

Author

Viskaitis, Paulius, Arnold, Myrtha, Garau, Celia, Jensen, Lise T., Fugger, Lars, Peleg-Raibstein, Daria, Burdakov, Denis, Viskaitis, Paulius, Arnold, Myrtha, Garau, Celia, Jensen, Lise T., Fugger, Lars, Peleg-Raibstein, Daria, and Burdakov, Denis

Abstract

Ingested nutrients are proposed to control mammalian behavior by modulating the activity of hypothalamic orexin/hypocretin neurons (HONs). Previous in vitro studies showed that nutrients ubiquitous in mammalian diets, such as non-essential amino acids (AAs) and glucose, modulate HONs in distinct ways. Glucose inhibits HONs, whereas non-essential (but not essential) AAs activate HONs. The latter effect is of particular interest because its purpose is unknown. Here, we show that ingestion of a dietary-relevant mix of non-essential AAs activates HONs and shifts behavior from eating to exploration. These effects persisted despite ablation of a key neural gut → brain communication pathway, the cholecystokinin-sensitive vagal afferents. The behavioral shift induced by the ingested non-essential AAs was recapitulated by targeted HON optostimulation and abolished in mice lacking HONs. Furthermore, lick microstructure analysis indicated that intragastric non-essential AAs and HON optostimulation each reduce the size, but not the frequency, of consumption bouts, thus implicating food palatability modulation as a mechanism for the eating suppression. Collectively, these results suggest that a key purpose of HON activation by ingested, non-essential AAs is to suppress eating and re-initiate food seeking. We propose and discuss possible evolutionary advantages of this, such as optimizing the limited stomach capacity for ingestion of essential nutrients.

Published
2022

41. Epitope length variants balance protective immune responses and viral escape in HIV-1 infection

Author

Pymm, Phillip, Tenzer, Stefan, Wee, Edmund, Weimershaus, Mirjana, Burgevin, Anne, Kollnberger, Simon, Gerstoft, Jan, Josephs, Tracy M., Ladell, Kristin, McLaren, James E., Appay, Victor, Price, David A., Fugger, Lars, Bell, John I., Schild, Hansjörg, van Endert, Peter, Harkiolaki, Maria, Iversen, Astrid K.N., Pymm, Phillip, Tenzer, Stefan, Wee, Edmund, Weimershaus, Mirjana, Burgevin, Anne, Kollnberger, Simon, Gerstoft, Jan, Josephs, Tracy M., Ladell, Kristin, McLaren, James E., Appay, Victor, Price, David A., Fugger, Lars, Bell, John I., Schild, Hansjörg, van Endert, Peter, Harkiolaki, Maria, and Iversen, Astrid K.N.

Abstract

Cytotoxic T lymphocyte (CTL) and natural killer (NK) cell responses to a single optimal 10-mer epitope (KK10) in the human immunodeficiency virus type-1 (HIV-1) protein p24Gag are associated with enhanced immune control in patients expressing human leukocyte antigen (HLA)-B∗27:05. We find that proteasomal activity generates multiple length variants of KK10 (4–14 amino acids), which bind TAP and HLA-B∗27:05. However, only epitope forms ≥8 amino acids evoke peptide length-specific and cross-reactive CTL responses. Structural analyses reveal that all epitope forms bind HLA-B∗27:05 via a conserved N-terminal motif, and competition experiments show that the truncated epitope forms outcompete immunogenic epitope forms for binding to HLA-B∗27:05. Common viral escape mutations abolish (L136M) or impair (R132K) production of KK10 and longer epitope forms. Peptide length influences how well the inhibitory NK cell receptor KIR3DL1 binds HLA-B∗27:05 peptide complexes and how intraepitope mutations affect this interaction. These results identify a viral escape mechanism from CTL and NK responses based on differential antigen processing and peptide competition.

Published
2022

45. Epitope length variants balance protective immune responses and viral escape in HIV-1 infection

Author

Pymm, Phillip, primary, Tenzer, Stefan, additional, Wee, Edmund, additional, Weimershaus, Mirjana, additional, Burgevin, Anne, additional, Kollnberger, Simon, additional, Gerstoft, Jan, additional, Josephs, Tracy M., additional, Ladell, Kristin, additional, McLaren, James E., additional, Appay, Victor, additional, Price, David A., additional, Fugger, Lars, additional, Bell, John I., additional, Schild, Hansjörg, additional, van Endert, Peter, additional, Harkiolaki, Maria, additional, and Iversen, Astrid K.N., additional

Published
2022
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