yellow fever – NIH Director's Blog (original) (raw)
Genome Data from Africa Reveal Millions of New Variants
Posted on November 10th, 2020 by Dr. Francis Collins
Credit: Human Heredity and Health in Africa Initiative
The first Homo sapiens emerged in Africa hundreds of thousands of years ago. We are all descended from that common pool of ancestors. Put another way, we are all Africans. While it’s not possible to study the DNA of these vanished original human populations, it is possible to study the genetic material of today’s African peoples to learn more about the human genome and its evolution over time. The degree of genetic diversity in Africa is greater than anywhere else in the world.
Progress continues to be made in this important area of genomic research. The latest step forward is a study just published in the journal Nature that analyzes more than 400 complete human genomes, including 50 distinct groups of people from 13 African countries. This work has uncovered about 3.4 million unique gene variants that had never before been described, greatly expanding our knowledge of human genetic variation and its implications for health and disease.
This work is the latest from the Human Heredity and Health in Africa (H3Africa) Initiative , which I helped establish a decade ago. This partnership between NIH, the Wellcome Trust, and the Alliance for Accelerating Excellence in Science in Africa (AESA) seeks to train a new generation of African scientists in genomic science and other disciplines, while conducting state-of-the-art health research on the African continent. The hope is to help these scientists use their new knowledge to improve human health in Africa and to help fill significant gaps in our knowledge of the diversity within human genomes.
The new study was led by Zané Lombard, the University of the Witwatersrand, South Africa; Neil Hanchard, Baylor College of Medicine, Houston; and Adebowale Adeyemo, NIH’s National Human Genome Research Institute, Bethesda, MD. It also included more than 50 other H3Africa data providers and data analysts from across Africa and around the world.
These researchers sequenced and analyzed the genomes of 426 individuals, almost all from studies and countries within the H3Africa Consortium, the network of NIH and Wellcome Trust-funded research sites in Africa. These individuals were carefully selected to provide broad coverage of the diverse landscape of African genomic variation. They also included many populations that hadn’t been studied at the genetic level before. The team focused its attention on single-letter differences, also known as single nucleotide variants (SNVs), located across the 3 billion DNA letters of the human genome.
All told, the researchers observed more than 31 million confirmed SNVs. Of the 3.4 million newly discovered SNVs, most turned up in the genomes of individuals from previously unstudied African ethnic groups with their own distinct languages. Even among SNVs that had been previously reported, several were found much more often than in other populations. That’s important because medical geneticists often include information about frequency in deciding whether a gene variant is a likely cause of rare disease. So, this more complete picture of normal genetic variation will be valuable for diagnosing such genetic conditions around the globe.
The researchers also found more than 100 regions of the genome where the pattern of genetic variation was suggestive of underlying variants that were evolutionarily favored at some time in the past. Sixty-two of those chromosomal locations weren’t previously known to be under such strong natural selection in human populations. Interestingly, those selected regions were found to contain genes associated with viral immunity, DNA repair, reproduction, and metabolism, or occurred close to variants that have been associated with conditions such as uterine fibroids and chronic kidney disease.
The findings suggest that viral infections, such as outbreaks of Ebola, yellow fever, and Lassa fever, may have played an important role over centuries in driving genetic differences on the African continent. The data also point to the possibility of human adaptation to differences across the African continent in local environments and diets, and these adaptations could be relevant to common diseases and traits we see now.
The researchers used the data to help gain insight into past migrations of human populations. The genetic data revealed complex patterns of ancestral mixing within and between groups. It also uncovered how distinct groups likely moved large distances across Africa in the past, going back hundreds to thousands of years. The findings also offered a more complete picture of the timing and extent of the migration of speakers of Africa’s most common language group (Bantu) as they moved from West Africa to the southern and eastern reaches of the continent—a defining event in the genetic history of Africa.
There’s still much more to learn about the diversity of human genomes, and a need for continued studies, including many more individuals representing more distinct groups in Africa. Indeed, H3Africa now consists of 51 projects all across the continent, focused on population-based genomic studies of many common health conditions, from heart disease to tuberculosis. As the cradle of all humanity, Africa has much to offer genomic research in the years ahead that will undoubtedly have far-reaching implications for people living in all parts of our planet.
Reference:
[1] High-depth African genomes inform human migration and health. Choudhury A et al. 2020 Oct;586(7831):741-748.
Links:
Human Heredity and Health in Africa (H3Africa) (NIH)
H3Africa (University of Cape Town, South Africa)
NIH Support: National Human Genome Research Institute; National Institute of Allergy and Infectious Diseases
Posted In: News
Tags: AESA, Africa, Alliance for Accelerating Excellence in Science in Africa, Bantu, chronic kidney disease, Ebola, gene variants, genetic epidemiology, genomics, global health, H3Africa, human diversity, human evolution, Human Heredity and Health in Africa Initiative, human migration, Lassa fever, single nucleotide variants, SNV, uterine fibroids, Wellcome Trust, yellow fever
NIH at 80: Sharing a Timeless Message from President Roosevelt
Posted on October 29th, 2020 by Dr. Francis Collins
This Saturday, October 31, marks an important milestone in American public health: the 80th anniversary of President Franklin Delano Roosevelt’s dedication of the campus of the National Institutes of Health (NIH) in Bethesda, MD. The President’s stirring speech, delivered from the steps of NIH’s brand-new Administration Building (now called Building 1), was much more than a ribbon-cutting ceremony. It gave voice to NIH’s commitment to using the power of science “to do infinitely more” for the health of all people with “no distinctions of race, of creed, or of color.”
“We cannot be a strong nation unless we are a healthy nation. And so, we must recruit not only men and materials, but also knowledge and science in the service of national strength,” Roosevelt told the crowd of about 3,000. To get a sense of what it was like to be there on that historic day, I encourage you to check out the archival video footage above from the National Archives and Records Administration (NARA).
These words from our 32nd President are especially worth revisiting for their enduring wisdom during a time of national crisis. In October 1940, with World War II raging overseas, the United States faced the prospect of defending its shores and territories from foreign forces. Yet, at the same time as he was bolstering U.S. military capacity, Roosevelt emphasized that it was also essential to use biomedical research to shore up our nation’s defenses against the threats of infectious disease. In a particularly prescient section of the speech, he said: “Now that we are less than a day by plane from the jungle-type yellow fever of South America, less than two days from the sleeping sickness of equatorial Africa, less than three days from cholera and bubonic plague, the ramparts we watch must be civilian in addition to military.”
Today, in the midst of another national crisis—the COVID-19 pandemic—a similar vision is inspiring the work of NIH. With the aim of defending the health of all populations, we are supporting science to understand the novel coronavirus that causes COVID-19 and to develop tests, treatments, and vaccines for this disease that has already killed more than 225,000 Americans and infected more than 8.6 million.
As part of the dedication ceremony, Roosevelt thanked the Luke and Helen Wilson family for donating their 70-acre estate, “Tree Tops,” to serve as a new home for NIH. (Visitors to Wilson Hall in Building 1 will see portraits of the Wilsons.) Founded in 1887, NIH had previously been housed in a small lab on Staten Island, and then in two cramped lab buildings in downtown Washington, D.C. The move to Bethesda, with NIH’s first six buildings already dotting the landscape as Roosevelt spoke, gave the small agency room to evolve into what today is the world’s largest supporter of biomedical research.
Yet, as FDR gazed out over our fledging campus on that autumn day so long ago, he knew that NIH’s true mission would extend far beyond simply conducting science to providing much-needed hope to humans around the world. As he put it in his closing remarks: “I voice for America and for the stricken world, our hopes, our prayers, our faith, in the power of man’s humanity to man.”
On the 80th anniversary of NIH’s move to Bethesda, I could not agree more. Our science—and our humanity—will get us through this pandemic and show the path forward to brighter days ahead.
Links:
Who We Are: History (NIH)
Office of NIH History and Stetten Museum (NIH)
“70 Acres of Science” (Office of NIH History)
Coronavirus (COVID-19) (NIH)
Posted In: Generic
Tags: 80 anniversary of NIH dedication, Bethesda, bubonic plague, cholera, COVID-19, FDR, Franklin Roosevelt, Helen Wilson, history, Luke Wilson, National Institutes of Health, NIH, NIH dedication speech, pandemic, President Roosevelt, public health, sleeping sickness, Staten Island, Tree Tops, video, Wilson Hall, World War II, yellow fever