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黒死病は、免疫関連のヒト遺伝子の選択を促し、今日の病気に対する私たちの感受性に影響を与えました

黒死病は、免疫関連のヒト遺伝子の選択を促し、今日の病気に対する私たちの感受性に影響を与えました

ペストドクターマスク

研究は、記録された人類の歴史の中で最も暗黒の時代の 1 つは、特定の免疫関連の遺伝子バリアントの頻度を変更し、今日の病気に対する私たちの感受性に影響を与える、人間に大きな選択圧を与えたという新しい証拠を明らかにしました。

5 年足らずでヨーロッパの人口の最大 50% を殺した黒死病は、記録された歴史の中で最大の致命的な出来事でした。 新しい研究は、記録された人類の歴史の中で最も暗黒の時代の 1 つは、特定の免疫関連の遺伝子変異体の頻度を変更し、今日の病気に対する私たちの感受性に影響を与える、人間に重大な選択圧を課したという証拠を発見しました。

黒死病(パンデミック、グレート デス、または単にペストとも呼ばれる)は、1346 年から 1353 年にかけて西ユーラシアと北アフリカで発生した腺ペストのパンデミックでした。 ペストは宗教的、社会的、経済的に大きな混乱を引き起こし、ヨーロッパの歴史に大きな影響を与えました。

博士が行った研究の結果[{” attribute=””>University of Chicago (UChicago), McMaster University, and the Institut Pasteur, were published on October 19 in the journal Nature.

Caused by the bacterium Yersinia pestis (Y. pestis), the global pandemic of the bubonic plague wiped out 30% to 60% of people in cities across North Africa, Europe, and Asia, with massive repercussions for the human race — and, apparently, our genome.

“This was a very direct way to evaluate the impact that a single pathogen had on human evolution,” said co-senior author on the study, Luis Barreiro, PhD, Professor of Genetic Medicine at UChicago. “People have speculated for a long time that the Black Death might be a strong cause of selection, but it’s hard to demonstrate that when looking at modern populations, because humans had to face many other selective pressures between then and now. The only way to address the question is to narrow the time window we’re looking at.”

シカゴ大学、マクマスター大学、パスツール研究所による新たな研究により、記録された人類の歴史の中で最も暗黒の時代の 1 つが集団に重大な選択圧を与え、特定の免疫関連遺伝子変異の頻度が変化し、病気に対する感受性に影響を与えたという証拠が見つかりました。今日。 クレジット: UChicago Medicine

この研究では、科学者は配列決定技術の最近の進歩を利用して古代を調べました。[{” attribute=””>DNA samples from the bones of over 200 individuals from London and Denmark who died before, during, and after the Black Death plague swept through the region in the late 1340s. Using targeted sequencing for a set of 300 immune-related genes, they identified four genes that, depending on the variant, either protected against or increased susceptibility to Y. pestis.

“This is, to my knowledge, the first demonstration that indeed, the Black Death was an important selective pressure to the evolution of the human immune system,” said Barreiro.

Barreiro Lab Tissue Culture Hood

A member of the Barreiro lab works in the tissue culture hood. Credit: UChicago Medicine

The research team zeroed in on one gene with a particularly strong association to susceptibility: ERAP2. Individuals who possessed two copies of one specific genetic variant, dubbed rs2549794, were able to produce full-length copies of the ERAP2 transcript, therefore producing more of the functional protein, compared to another variant that led to a truncated and non-functional version of the transcript. Functional ERAP2 plays a role in helping the immune system recognize the presence of an infection.

“When a macrophage encounters a bacterium, it chops it into pieces for them to be presented to other immune cells signaling that there’s an infection,” said Barreiro. “Having the functional version of the gene appears to create an advantage, likely by enhancing the ability of our immune system to sense the invading pathogen. By our estimate, possessing two copies of the rs2549794 variant would have made a person about 40% more likely to survive the Black Death than those who had two copies of the non-functional variant.”

Luis Barreiro

Luis Barreiro, PhD, co-senior author on the study. Credit: UChicago Medicine

The team even went so far as to test how the rs2549794 variant affected the ability of living human cells to help fight the plague, determining that macrophages expressing two copies of the variant were more efficient at neutralizing Y. pestis compared to those without it.

“Examining the effects of the ERAP2 variants in vitro allows us to functionally test how the different variants affect the behavior of immune cells from modern humans when challenged with living Yersinia pestis,” said Javier Pizarro-Cerda, PhD, head of the Yersinia Research Unit and director of the World Health Organization Collaborating Centre for Plague at Institut Pasteur. “The results support the ancient DNA evidence that rs2549794 is protective against the plague.”

Tauras Vilgalys

Tauras Vilgalys, PhD, analyzing sequencing data obtained from ancient DNA. Credit: UChicago Medicine

The team further concluded that the selection for rs2549794 is part of the balancing act evolution places upon our genome; while ERAP2 is protective against the Black Death, in modern populations, the same variant is associated with an increased susceptibility to autoimmune diseases, including acting as a known risk factor for Crohn’s disease.

“Diseases and epidemics like the Black Death leave impacts on our genomes, like archeology projects to detect,” said Hendrik Poinar, PhD, Professor of Anthropology at McMaster University and co-senior author on the study. “This is a first look at how pandemics can modify our genomes but go undetected in modern populations. These genes are under balancing selection — what provided tremendous protection during hundreds of years of plague epidemics has turned out to be autoimmune-related now. A hyperactive immune system may have been great in the past but in the environment today it might not be as helpful.”

Barreiro Lab Cell Culture Experiments

Members of the Barreiro Lab conduct cell culture experiments. Credit: UChicago Medicine

Future research will scale the project to examine the entire genome, not just a selected set of immune-related genes; and the team hopes to explore genetic variants that affect susceptibility to bacteria in modern humans and compare them to these ancient DNA samples to determine if those variants were also a result of natural selection.

“There is a lot of talk about how pathogens have shaped human evolution, so being able to formally demonstrate which pathways and genes have been targeted really helps us understand what allowed humans to adapt and exist today,” said Barreiro. “This tells us about the mechanisms that allowed us to survive throughout history and why we’re still here today.”

Reference: “Evolution of immune genes is associated with the Black Death” by Jennifer Klunk, Tauras P. Vilgalys, Christian E. Demeure, Xiaoheng Cheng, Mari Shiratori, Julien Madej, Rémi Beau, Derek Elli, Maria I. Patino, Rebecca Redfern, Sharon N. DeWitte, Julia A. Gamble, Jesper L. Boldsen, Ann Carmichael, Nükhet Varlik, Katherine Eaton, Jean-Christophe Grenier, G. Brian Golding, Alison Devault, Jean-Marie Rouillard, Vania Yotova, Renata Sindeaux, Chun Jimmie Ye, Matin Bikaran, Anne Dumaine, Jessica F. Brinkworth, Dominique Missiakas, Guy A. Rouleau, Matthias Steinrücken, Javier Pizarro-Cerdá, Hendrik N. Poinar and Luis B. Barreiro, 19 October 2022, Nature.
DOI: 10.1038/s41586-022-05349-x

The study was supported by the National Institutes of Health (R01-GM134376, F32GM140568, R01GM146051), the Wenner-Gren Foundation (8702), the UChicago DDRCC, Center for Interdisciplinary Study of Inflammatory Intestinal Disorders (C-IID) (NIDDK P30 DK042086) and an Insight Grant (20008499). Additional authors include Tauras P. Vilgalys, Xiaoheng Cheng, Mari Shiratori, Derek Elli, Maria I. Patino, Anne Dumaine, Dominique Missiakas and Matthias Steinrücken of the University of Chicago; Jennifer Klunk of McMaster University and Daicel Arbor Biosciences; Christian E. Demeure, Julien Madej and Rémi Beau of the Institut Pasteur; Rebecca Redfern of the Museum of London; Sharon N. DeWitte of the University of South Carolina; Julia A. Gamble of the University of Manitoba; Jesper L. Boldsen of the University of Southern Denmark; Ann Carmichiael of Indiana University; Nükhet Varlik of Rutgers University; Katherine Eaton and G. Brian Golding of McMaster University; Jean-Christophe Grenier of the Université de Montréal; Alison Devault of Daicel Arbor Biosciences; Jean-Marie Rouillard of Daicel Arbor Biosciences and the University of Michigan Ann Arbor; Vania Yotova and Renata Sindeaux of the Universitaire Saint-Justine; Chun Jimmie Ye and Matin Bikaran of the University of California San Francisco; Jessica F. Brinkworth of the University of Illinois Urbana-Champaign; and Guy A. Rouleau of McGill University.

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