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The challenges of avian influenza virus: Mechanism, epidemiology and control
May 22, 2009The latest special issue of Science in China Series C: Life Sciences focuses on the recent progress in the H5N1-related research field.
Early 2009, eight human infection cases of H5N1 highly pathogenic avian influenza (HPAI) virus, with 5 death cases, were reported in China. This again made the world alert on a possible pandemic worldwide, probably caused by avian-origin influenza virus. Again H5N1 is in the spotlight of the world, not only for the scientists but also for the ordinary people. How much do we know about this virus? Where will this virus go and where did it come? Can we avoid a possible pandemic of influenza? Will the human beings conquer this devastating agent? Obviously we can list more questions than we know the answers.
Influenza virus, as a pathogenic entity for chickens, has been known since the 19th century. However in 1997, the first human infection case with fatality and the virus identified as strain H5N1 were found in Hong Kong SAR (Special Administrative Region), China, reminding us the virus is expanding its host range from birds to mammalians. In 2003, during the outbreak of SARS (Severe acute respiratory syndrome), one human fatal case was surprisingly diagnosed with an H5N1 virus isolation. This is the first human infection case in the mainland China. Now we know many countries (15 countries up to early 2009) have human infections of H5N1 influenza virus. These countries have become epicenters of influenza viruses, including seasonal influenza in addition to the H5N1 virus. In 2005, even the natural reservoir host, migratory birds were found infected with an outbreak of more than 6000 dead birds involved. Therefore in this special topic, we invite scientists from Hong Kong and mainland China to review recent progress in the H5N1-related research field with seven reviews and one manuscript of original studies on endocytosis and H5N1 influenza virus. The Website for Avian Flu Information consisting of avian influenza information from broad aspects is also introduced. It is not only a database and a platform for the researchers but also a knowledgebase for the public.
First we invite two prominent scientists, Yuelong SHU and Paul CHAN, from China CDC and the Chinese University of Hong Kong respectively to overview the situation of human infection of H5N1 in mainland China and the experience in Hong Kong. They summarize the frontline epidemiological, clinical and virological characteristics of human avian influenza virus infections based on the national surveillance system in mainland China and give a chronological and archival description of the events in Hong Kong. These accounts would greatly be appreciated for the future preparedness of possible pandemics. From the current human reported H5N1 virus infection cases, most of the patients could trace back with contacts of birds (chicken or ducks) though there were some reports with evidence of limited human-to-human transmission. Therefore domestic or wild bird infection control is the key for the H5N1 human infection. Hualan CHEN from Harbin Veterinary Research Institute, Chinese Academy of Agricultural Sciences, discusses the situation of animal infection and the control in China.
As we know more and more species, especially some mammalian species such as cats and tigers, are found victims or carriers of H5N1, the expansion of the host range and interspecies transmission of H5N1 virus is worrisome. The mechanism underlying this change is elusive and scientists are working together to tackle this problem from our understanding of the virus itself and the host factors affecting this change. George F. GAO, Frank LIU and colleagues from CAS Key Laboratory of Pathogenic Microbiology and Immunology review our current knowledge of the interspecies transmission and host factors involved: from virus receptor usage to host proteins interacting with the virus or virus components.
Basic research always gives us some tantalizing hope for the control of virus infection. Nucleoprotein (NP) is an important structural protein of influenza virus, being the key component of the ribonucleoprotein complex. The structure of NP is revisited by Andy NG, Jia-Huai WANG and Pang-Chui SHAW from Dana-Farber Cancer Institute and the Chinese University of Hong Kong. Correlations are made between the sequence conservation and the atomic structure. This provides the basis for identifying structurally and functionally important regions for inhibitor design. Crystal structures of some parts of the polymerase complex, PA alone or PA with part of PB1, have been solved. Zihe RAO, Yingfang LIU and colleagues from Institute of Biophysics, CAS, Tsinghua University and Nankai University, provide an overview of the structure and potential target for the new drug design. For a long time the drug target for influenza viruses was basically limited to two proteins, hemagglutinin (HA) and neuraminidase (NA). Hopefully, the basic findings on nucleoprotein and polymerase will lead to some new drug leads.
Clinically the human cases of H5N1 infection manifest some ARDS (acute respiratory distress syndrome) symptoms, similar to SARS infection. Therefore unraveling the molecular pathogenesis mechanism will help save life. Chengyu JIANG, from Peking Union Medical College, Chinese Academy of Medical Sciences, who has long been involved in the study of molecular pathogenesis of SARS, describes our current understanding of the molecular pathogenesis of H5N1 in human infection and presents their recent work on the clathrin-dependent endocytosis of H5N1 influenza virus.
H5N1 virus research is a scientifically fascinating field and a much-needed field for life-saving. In the future we ought to know why and how H5N1 virus expands its host range. Compared to SARS, H5N1 is more complicated. Is there any chance human beings will be in a position to conquer this devastating virus? The understanding of H5N1 virus also helps us to combat other influenza viruses, such as the swine flu that has recently surfaced from Mexico. Though readers would see we have made some progress in the field, this tantalizing record is far from our ultimate goal of control of this virus. Molecular pathogenesis, virus evolution, human immune response and vaccine development, drug discovery and other basic research must be addressed.
Science in China Press
First we invite two prominent scientists, Yuelong SHU and Paul CHAN, from China CDC and the Chinese University of Hong Kong respectively to overview the situation of human infection of H5N1 in mainland China and the experience in Hong Kong. They summarize the frontline epidemiological, clinical and virological characteristics of human avian influenza virus infections based on the national surveillance system in mainland China and give a chronological and archival description of the events in Hong Kong. These accounts would greatly be appreciated for the future preparedness of possible pandemics. From the current human reported H5N1 virus infection cases, most of the patients could trace back with contacts of birds (chicken or ducks) though there were some reports with evidence of limited human-to-human transmission. Therefore domestic or wild bird infection control is the key for the H5N1 human infection. Hualan CHEN from Harbin Veterinary Research Institute, Chinese Academy of Agricultural Sciences, discusses the situation of animal infection and the control in China.
As we know more and more species, especially some mammalian species such as cats and tigers, are found victims or carriers of H5N1, the expansion of the host range and interspecies transmission of H5N1 virus is worrisome. The mechanism underlying this change is elusive and scientists are working together to tackle this problem from our understanding of the virus itself and the host factors affecting this change. George F. GAO, Frank LIU and colleagues from CAS Key Laboratory of Pathogenic Microbiology and Immunology review our current knowledge of the interspecies transmission and host factors involved: from virus receptor usage to host proteins interacting with the virus or virus components.
Basic research always gives us some tantalizing hope for the control of virus infection. Nucleoprotein (NP) is an important structural protein of influenza virus, being the key component of the ribonucleoprotein complex. The structure of NP is revisited by Andy NG, Jia-Huai WANG and Pang-Chui SHAW from Dana-Farber Cancer Institute and the Chinese University of Hong Kong. Correlations are made between the sequence conservation and the atomic structure. This provides the basis for identifying structurally and functionally important regions for inhibitor design. Crystal structures of some parts of the polymerase complex, PA alone or PA with part of PB1, have been solved. Zihe RAO, Yingfang LIU and colleagues from Institute of Biophysics, CAS, Tsinghua University and Nankai University, provide an overview of the structure and potential target for the new drug design. For a long time the drug target for influenza viruses was basically limited to two proteins, hemagglutinin (HA) and neuraminidase (NA). Hopefully, the basic findings on nucleoprotein and polymerase will lead to some new drug leads.
Clinically the human cases of H5N1 infection manifest some ARDS (acute respiratory distress syndrome) symptoms, similar to SARS infection. Therefore unraveling the molecular pathogenesis mechanism will help save life. Chengyu JIANG, from Peking Union Medical College, Chinese Academy of Medical Sciences, who has long been involved in the study of molecular pathogenesis of SARS, describes our current understanding of the molecular pathogenesis of H5N1 in human infection and presents their recent work on the clathrin-dependent endocytosis of H5N1 influenza virus.
H5N1 virus research is a scientifically fascinating field and a much-needed field for life-saving. In the future we ought to know why and how H5N1 virus expands its host range. Compared to SARS, H5N1 is more complicated. Is there any chance human beings will be in a position to conquer this devastating virus? The understanding of H5N1 virus also helps us to combat other influenza viruses, such as the swine flu that has recently surfaced from Mexico. Though readers would see we have made some progress in the field, this tantalizing record is far from our ultimate goal of control of this virus. Molecular pathogenesis, virus evolution, human immune response and vaccine development, drug discovery and other basic research must be addressed.
Science in China Press
Avian Influenza Current Events and Avian Influenza News RSSInitial Results Show Pregnant Women Mount Strong Immune Response To One Dose of 2009 H1N1 Flu Vaccine
Healthy pregnant women mount a robust immune response following just one dose of 2009 H1N1 influenza vaccine, according to initial results from an ongoing clinical trial sponsored by the National Institute of Allergy and Infectious Diseases (NIAID) of the National Institutes of Health.
Triple-Combo Drug Shows Promise Against Antiviral-Resistant Swine Flu, UAB Researcher Says
An experimental drug cocktail that includes three prescriptions now widely available offers the best hope in developing a single agent to treat drug-resistant H1N1 swine flu, says a virology researcher in the University of Alabama Birmingham (UAB) Division of Pediatric Infectious Diseases.
Media source impacts ag biotech communication
Communication between the public and government is a necessary component of public trust. For many modern issues, constituents trust that their legislators understand the science behind these topics and pass legislation for the betterment of society.
Earlier flu viruses provided some immunity to current H1N1 influenza, study shows
University of California, Davis, researchers studying the 2009 H1N1 influenza virus, formerly referred to as "swine flu," have identified a group of immunologically important sites on the virus that are also present in seasonal flu viruses that have been circulating for years.
World will miss 2010 target to stem biodiversity loss, experts say
The world will miss its agreed target to stem biodiversity loss by next year, according to experts convening in Cape Town for a landmark conference devoted to biodiversity science.
IOM report released on species-jumping diseases
Significant weaknesses undermine the global community's abilities to prevent, detect early, and respond efficiently to potentially deadly species-crossing microbes, such as the pandemic H1N1 influenza virus sweeping the globe, says a new report from the Institute of Medicine and National Research Council.
Early results: In children, 2009 H1N1 influenza vaccine works like seasonal flu vaccine
Early results from a trial testing a 2009 H1N1 influenza vaccine in children look promising, according to the trial sponsor, the National Institute of Allergy and Infectious Diseases (NIAID), part of the National Institutes of Health.
H1N1 Pandemic Virus Does Not Mutate Into 'Superbug' in UMd. Lab Study
A laboratory study by University of Maryland researchers suggests that some of the worst fears about a virulent H1N1 pandemic flu season may not be realized this year, but does demonstrate the heightened communicability of the virus.
Bird flu leaves the nest -- adapting to a new host
Current research suggests that viral polymerase may provide a new therapeutic target for host-adapted avian influenza.
Avian influenza strain primes brain for Parkinson's disease
At least one strain of the H5N1 avian influenza virus leaves survivors at significantly increased risk for Parkinson's disease and possibly other neurological problems later in life.
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Pandemic Influenza, Swine Flu, Avian Flu Kit / Protective Apparel Emergency Disaster and First Aid Protection, Survival Transit Set with 1 Ex. Lg. Full Length Protective Coverall, 1 Face Mask with Eye Shield, 1 Pair of Lg. Gloves, 1 Pair of Lg. Shoe Covers - Safety Toggs / Frogg Toggs Brand - Polyspun Breathable Synthetic Fabric Disposable Set by Safety Toggs / Frogg Toggs Brand Product A Factory Sealed Brand New Safety Toggs / Frogg Toggs Brand Portable Home, Travel and Glovebox First Aid and Emergency Survival and Emergency Preparedness Disaster Accessory. This is a Basic Emergency Flu, Germ - Disease Emergency Disposable Apparel Kit. All Components are Extra Large, the Full Length Coverall Features a Polyspun Fabric Covered Neck to Crotch Zipper. These Components Are NOT WATERPROOF.. The Largest Test Subject we could find was 5" 11" tall, 44/46" waisted, and a shy bit under 300 lbs, they fit snugly but closed just fine, The Coverall's feature the Safety Toggs / Frogg Toggs Brand Name Logo. The Gloves fit most Lg./Ex. Large Hands, The Mask Fits Most Adults, and the Shoe Covers fit Men's Size 10 to 12. Great for Fast Evacuation and Transit, Self Rescue, and... |
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