Children previously infected with COVID-19 develop natural circulating antibodies that last for at least seven months, according to a new study led by researchers at UTHealth Houston.
Replenishing the body’s high-density lipoprotein (HDL) could be an effective treatment for sepsis, according to a new University of Kentucky College of Medicine study published in Science Signaling. The lab study, led by Xiangan Li, Ph.D., a professor in the Department of Physiology and the Saha Cardiovascular Research Center, found that a synthetic form of HDL provided protection against sepsis in mice.
The team's latest study, published in Cell, shows that two clever human antibodies can target two ebolavirus species at once: Ebola virus and Sudan virus. These two species are responsible for the biggest, deadliest outbreaks. The new report suggests researchers could combine these two potent antibodies to make a powerful antiviral therapy.
Columbia Engineering researchers report that they have developed a “cloaking” system that temporarily hides therapeutic bacteria from immune systems, enabling them to more effectively deliver drugs to tumors and kill cancer cells in mice. By manipulating the microbes’ DNA, they programmed gene circuits that control the bacteria surface, building a molecular “cloak'' that encapsulates the bacteria.
Lawrence Livermore National Laboratory (LLNL) scientists exploring the interaction between cancer cells and the extracellular matrix (ECM) — the “scaffolding” of organs — found that proteins in the ECM can dramatically impact the immune system’s ability to kill tumors.
With the aid of a recently awarded $3.5 million, five-year National Cancer Institute grant (R01CA262265), Rutgers Cancer Institute of New Jersey, New Jersey’s only NCI-designated Comprehensive Cancer Center, and Tufts Medical Center in Boston are collaborating on groundbreaking work that is unifying global multi-source big data in order to enhance clinical decision support for improved acute and long-term outcomes for Hodgkin lymphoma patients around the world.
Newly released data from an ongoing research study at the University of Arizona Health Sciences in combination with the Center for Disease Control and Prevention’s PROTECT study show that the Pfizer-BioNTech COVID-19 vaccine has been a moderately effective tool for preventing the spread of COVID-19 and reducing the severity of infection among children and adolescents.
The parasites that cause a disfiguring skin disease affecting about 12 million people globally may have met their match in vaccines developed using CRISPR gene-editing technology, new research suggests.
Researchers developed a new computational model to study gene expression trends over time and applied datasets from COVID-19 patients -- they found that early and persistent activation of neutrophils is a hallmark of severe COVID-19 illness.
Briefly blocking a key molecule when administering the only approved vaccine for tuberculosis vastly improves long-term protection against the devastating disease in mice, researchers from Texas Biomedical Research Institute report this week in the Journal of Immunology.
Researchers from Georgia Tech’s Colleges of Engineering and Computing have completed the first published study on the link between America’s mass transit use and Covid-19 cases at the beginning of the pandemic.
People who gained immunity — either through vaccination or exposure — against the original strain of SARS-CoV-2, the virus that causes COVID-19, also are likely to have some protection against the pathogen’s omicron variant, says an international research team from Johns Hopkins Medicine.
• Compared with individuals on dialysis who were not vaccinated against COVID-19, those who had received 2 mRNA vaccine doses were 69% and 83% less likely to become infected or experience severe disease, respectively.
• There were no significant differences in vaccine effectiveness among age groups, mode of dialysis, or vaccine type.
In laboratory experiments involving a class of mutations in people with a rare collection of immune system disorders, Johns Hopkins Medicine researchers say they have uncovered new details about how immune system cells respond to disease-causing bacteria, fungi and viruses such as SARS-CoV-2.
Seasonal allergies are very widespread in certain parts of the world. In Japan, it is estimated that about one third of the population is allergic to the pollen of the Japanese cedar, a native tree species, making Japanese cedar pollinosis one of the most common allergic diseases in the country.
Researchers at the Uniformed Services University in collaboration with University of Washington, have recently uncovered new details about how Nipah and Hendra viruses infect cells and the immune responses that can block them, which could ultimately lead to the development of new tactics to prevent and treat these deadly illnesses.
Researchers at the University of Michigan Rogel Cancer Center found that a cytokine, a category of protein that acts as messengers in the body, and a fatty acid can work together to trigger a type of cell death previously defined by studies with synthetic molecules.
People who have certain types of cancers may have an increased risk of having new onset Guillain-Barré syndrome, according to a study published in the March 2, 2022, online issue of Neurology®, the medical journal of the American Academy of Neurology. Researchers found an increased risk in people who had lymphomas and blood cancers, as well as in those who had lung, prostate or breast cancers. The study does not prove that cancer causes Guillain-Barré syndrome. It only shows an association.
The Vasculitis Foundation (VF) is pleased to announce an exciting new initiative: Vasculitis-Building Outcomes, Leading Discoveries (V-BOLD), which combines three of the VF’s most critical programs: Fellowships, Vasculitis Centers, and Research.
The largest clinical review of immune responses to paracetamol, non-steroidal anti-inflammatory drugs (NSAIDs) and opioid analgesics, with a focus on infectious diseases, has provided insights into unintended impacts of these commonly used medicines.
A new study using serum from human blood samples suggests neutralizing antibody levels produced by two-dose mRNA vaccines against the original and early variants of the SARS-CoV-2 virus wane substantially over time, and offer essentially no protection against the omicron variant.
People suffering from COVID-19 could have several different SARS-CoV-2 variants hidden away from the immune system in different parts of the body, finds new research published in Nature Communications by an international research team. The study’s authors say that this may make complete clearance of the virus from the body of an infected person, by their own antibodies, or by therapeutic antibody treatments, much more difficult.
Studying mice, researchers at Washington University School of Medicine in St. Louis have discovered that roseolovirus can trigger autoimmunity in a previously unknown way: by disrupting the process by which immune cells learn to avoid targeting their own body's cells and tissues.
Researchers at La Jolla Institute for Immunology (LJI) have discovered new genes in CD4+ "helper" T cell subset that are linked to risk of autoimmune diseases.
As they work to shed light on the exact functions of these CD4+ T cell subsets, the researchers have uncovered major differences between donors based on genetics and how the cells may function in men and women.
The spectacular structure of the protective armour of superbug C.difficile has been revealed for the first time showing the close-knit yet flexible outer layer – like chain mail.
A Stony Brook University physician-scientist has identified that mucosal-associated invariant T (MAIT) cells exercise several complex roles during healthy and disease states. The published findings may help to serve as a benchmark for future research on MAIT cells as targets for immunotherapies and vaccines.
The Conrad Prebys Foundation has given more than $1.17 million to support La Jolla Institute for Immunology's (LJI) Flow Cytometry Core and more than $415,000 to fuel infectious disease research led by LJI Instructor Julie Burel, Ph.D.
As organisms grow, older cells can undergo a phenomenon called senescence. This process defines a cell state where cells permanently stop dividing but do not die. Senescent cells secrete toxic pro-inflammatory factors contributing to the development of many diseases.
Researchers developed a radio-labeled molecule that allows real-time PET imaging of inflammation and activation of innate immune activity. This would allow physicians to pinpoint areas of inflammation in a variety of clinical settings before symptoms appear.
A new study suggests that a single bout of exercise does not change the immune response to a coronavirus booster shot in people with rheumatic autoimmune diseases. The article is published ahead of print in the Journal of Applied Physiology.
The SARS-CoV-2 virus is continuously evolving and structural changes to the virus may impact the efficacy of antibody therapies and vaccines. A study publishing February 17th in PLOS Pathogens by Anshumali Mittal at the University of Pittsburgh, USA and colleagues describes the structural and functional landscape of neutralizing antibodies against SARS-CoV-2 spike protein and discuss the effects of mutations on the virus spike protein that may allow it to evade antibody responses.
Using powerful tools and techniques developed in the field of structural biology, researchers at the University of Washington and The Scripps Research Institute have discovered new details about the human immunodeficiency virus, HIV.
A future vaccine providing protection against a wide range of coronaviruses that jump from their original animal hosts to humans — including SARS-CoV-2, the cause of COVID-19 — may be possible, say Johns Hopkins Medicine researchers, based on findings from their recent study.
A Kaiser Permanente study published Feb. 14, 2022, in The Lancet Regional Health – Americas found that one month after a third dose, the Pfizer-BioNTech COVID-19 vaccine effectiveness is higher for preventing infection and hospitalization than 2 doses of the vaccine after 1 month.
Asymptomatic COVID infection in generally healthy unvaccinated adults is likely much less common than previously reported, according to a new study published Feb. 14 in Open Forum Infectious Diseases by researchers at the Uniformed Services University of the Health Sciences (USU).
A team headed by Professor Stephanie Pfänder from the Department of Molecular and Medical Virology at Ruhr-Universität Bochum and Dr. Kathrin Sutter from the Institute of Virology at the University Hospital Essen published their findings in the renowned journal PNAS on 22 February 2022 online first.
Antibodies elicited by COVID-19 vaccination become steadily more powerful for at least six months after vaccination, according to a study by researchers at Washington University School of Medicine in St. Louis that involved the Pfizer-BioNTech COVID-19 vaccine.
Participants in the study who cycled on a stationary bike or took a brisk walk for an hour-and-a-half after getting a flu shot or COVID-19 jab produced more antibodies in the following four weeks compared to participants who sat or continued with their daily routine post-immunization.
A team led by UCLA researchers will receive a multi-million dollar grant to study why some people suffer from a devastating fungal infection called Valley Fever, while others suffer seemingly no impact from the disease.
A paper published this week in the journal Immunity lays the groundwork to better understand and treat Crohn’s disease. The research identified a new role for Interleukin-17A (IL-17A), an immune cell-derived cytokine, in promoting selective epithelial cell development and limiting inflammation during colitis.