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The source, timing, and geographical origin of the 1918–1920 pandemic influenza A virus have remained tenaciously obscure for nearly a century, as have the reasons for its unusual severity among young adults. Here, we reconstruct the origins of the pandemic virus and the classic swine influenza and (postpandemic) seasonal H1N1 lineages using a host-specific molecular clock approach that is demonstrably more accurate than previous methods. Our results suggest that the 1918 pandemic virus originated shortly before 1918 when a human H1 virus, which we infer emerged before ∼1907, acquired avian N1 neuraminidase and internal protein genes. We find that the resulting pandemic virus jumped directly to swine but was likely displaced in humans by ∼1922 by a reassortant with an antigenically distinct H1 HA. Hence, although the swine lineage was a direct descendent of the pandemic virus, the post-1918 seasonal H1N1 lineage evidently was not, at least for HA. These findings help resolve several seemingly disparate observations from 20th century influenza epidemiology, seroarcheology, and immunology. The phylogenetic results, combined with these other lines of evidence, suggest that the high mortality in 1918 among adults aged ∼20 to ∼40 y may have been due primarily to their childhood exposure to a doubly heterosubtypic putative H3N8 virus, which we estimate circulated from ∼1889–1900. All other age groups (except immunologically naive infants) were likely partially protected by childhood exposure to N1 and/or H1-related antigens. Similar processes may underlie age-specific mortality differences between seasonal H1N1 vs. H3N2 and human H5N1 vs. H7N9 infections.

As the alien Xenovirus reaches Britain, Prime Minister Sir Winston Churchill, now gifted with extraordinary longevity, joins with Alan Turing to set up a special organization, the Order of the Silver Helix, to outmaneuver the terrifying mutations of the virus in Britain.

Cervical cancer is caused by human papillomavirus infection. Most human papillomavirus infection is harmless and clears spontaneously but persistent infection with high-risk human papillomavirus (especially type 16) can cause cancer of the cervix, vulva, vagina, anus, penis, and oropharynx. The virus exclusively infects epithelium and produces new viral particles only in fully mature epithelial cells. Human papillomavirus disrupts normal cell-cycle control, promoting uncontrolled cell division and the accumulation of genetic damage. Two effective prophylactic vaccines composed of human papillomavirus type 16 and 18, and human papillomavirus type 16, 18, 6, and 11 virus-like particles have been introduced in many developed countries as a primary prevention strategy. Human papillomavirus testing is clinically valuable for secondary prevention in triaging low-grade cytology and as a test of cure after treatment. More sensitive than cytology, primary screening by human papillomavirus testing could enable screening intervals to be extended. If these prevention strategies can be implemented in developing countries, many thousands of lives could be saved.

Now on its final voyage, the historical steamboat Natchez is known for her super-powered guest entertainers. But after the suspicious death of a crew member, retired NY police detective Leo Storgman decides to make this incident his personal case. His findings only lead to a growing number of questions. Is there some truth behind the ghostly sightings of the steamboat's first captain Wilbur Leathers? What secret does the current captain seem to be hiding? And could the Natchez be ferrying mysterious - and possibly dangerous - cargo onboard?

Only four mutations in H5N1 HA are required to enable ferret-to-ferret transmission of a reassortant virus containing the H5 HA and the remaining seven gene segments from a human pandemic H1N1 influenza virus. Elements involved in H5N1 transmission Whether avian H5N1 viruses can gain the ability to transmit between humans was uncertain. The viral haemagglutinin protein (HA) mediates virus binding to host-specific cellular receptors, but previous studies have shown that alterations in HA that enable binding to human-type receptors are not sufficient to enable respiratory droplet transmission of H5N1 viruses in ferrets, the best animal model for human-to-human transmission. Imai et al . show that only four mutations in H5N1 HA are required to enable ferret-to-ferret transmission of a reassortant virus containing H5 HA, with the remaining genes from human pandemic H1N1 influenza virus. It is probable that further adaptations in other avian virus genes would be required to mediate transmission of wholly avian H5N1 in mammals, but human H1N1 and H5N1 viruses are genetically compatible and the emergence of H5-HA-containing viruses might be expected to cause a pandemic because humans lack immunity to H5 viruses. Knowledge of the mutations involved in adapting H5 HA to mammalian transmission could help with surveillance and monitoring of H5N1 viruses adapting towards pandemic potential. Highly pathogenic avian H5N1 influenza A viruses occasionally infect humans, but currently do not transmit efficiently among humans. The viral haemagglutinin (HA) protein is a known host-range determinant as it mediates virus binding to host-specific cellular receptors 1 , 2 , 3 . Here we assess the molecular changes in HA that would allow a virus possessing subtype H5 HA to be transmissible among mammals. We identified a reassortant H5 HA/H1N1 virus—comprising H5 HA (from an H5N1 virus) with four mutations and the remaining seven gene segments from a 2009 pandemic H1N1 virus—that was capable of droplet transmission in a ferret model. The transmissible H5 reassortant virus preferentially recognized human-type receptors, replicated efficiently in ferrets, caused lung lesions and weight loss, but was not highly pathogenic and did not cause mortality. These results indicate that H5 HA can convert to an HA that supports efficient viral transmission in mammals; however, we do not know whether the four mutations in the H5 HA identified here would render a wholly avian H5N1 virus transmissible. The genetic origin of the remaining seven viral gene segments may also critically contribute to transmissibility in mammals. Nevertheless, as H5N1 viruses continue to evolve and infect humans, receptor-binding variants of H5N1 viruses with pandemic potential, including avian–human reassortant viruses as tested here, may emerge. Our findings emphasize the need to prepare for potential pandemics caused by influenza viruses possessing H5 HA, and will help individuals conducting surveillance in regions with circulating H5N1 viruses to recognize key residues that predict the pandemic potential of isolates, which will inform the development, production and distribution of effective countermeasures.

This new collection of essays on HIV viruses spans disciplines to topple popular narratives about the origins of the AIDS pandemic and the impact of the disease on public health policy. With a death toll in the tens of millions, the AIDS pandemic was one of the worst medical disasters of the past century. The disease was identified in 1981, at the height of miraculous postwar medical achievements, including effective antibiotics, breakthrough advances in heart surgery and transplantations, and cheap, safe vaccines—smallpox had been eradicated just a few years earlier. Arriving as they did during this era of confidence in modern medicine, the HIV epidemics shook the public’s faith in health science. Despite subsequent success in identifying, testing, and treating AIDS, the emergence of epidemics and outbreaks of Ebola, Zika, and the novel coronaviruses (SARS and COVID-19) are stark reminders that such confidence in modern medicine is not likely to be restored until the emergence of these viruses is better understood. This collection combines the work of major social science and humanities scholars with that of virologists and epidemiologists to provide a broader understanding of the historical, social, and cultural circumstances that produced the pandemic. The authors argue that the emergence of the HIV viruses and their epidemic spread were not the result of a random mutation but rather broader new influences whose impact depended upon a combination of specific circumstances at different places and times. The viruses emerged and were transmitted according to population movement and urbanization, changes in sexual relations, new medical procedures, and war. In this way, the AIDS pandemic was not a chance natural occurrence, but a human-made disaster. Essays by: Ernest M. Drucker, Tamara Giles-Vernick, Ch. Didier Gondola, Guillaume Lachenal, Amandine Lauro, Preston A. Marx, Stephanie Rupp, François Simon, Jorge Varanda

Viruses are big news. From pandemics such as HIV, swine flu, and SARS, we are constantly being bombarded with information about new lethal infections. In this Very Short Introduction Dorothy Crawford demonstrates how clever these entities really are. From their discovery and the unravelling of their intricate structures.-- Souce other than Library of Congress.

Approximately 12% of human cancers worldwide are associated with infectious agents, which are classified by the International Agency for Research on Cancer (IARC) as Group 1 within the agents that are carcinogenic to humans. Most of these agents are viruses. Group 1 oncogenic viruses include hepatitis C virus, hepatitis B virus (HBV), human T-cell lymphotropic virus type 1, Epstein-Barr virus, Kaposi sarcoma-associated herpesvirus, human immunodeficiency virus-1 and high-risk human papillomaviruses (HPVs). In addition, some human polyomaviruses are suspected of inducing cancer prevalently in hosts with impaired immune responses. Merkel cell polyomavirus has been associated with Merkel cell carcinoma and included by the IARC in Group 2A (i.e., probably carcinogenic to humans). Linking viruses to human cancers has allowed for the development of diagnostic, prophylactic and therapeutic measures. Vaccination significantly reduced tumours induced by two oncogenic viruses as follows: HBV and HPV. Herein, we focus on mucosal alpha HPVs, which are responsible for the highest number of cancer cases due to tumour viruses and against which effective prevention strategies have been developed to reduce the global burden of HPV-related cancers.