Investigators at the University of California at San Francisco have identified a confounder that appears to be behind the purported anti-SARS-CoV-2 effects of a number of therapeutic candidates that were identified via repurposing.

LONDON – Relaxing of control measures such as mask wearing and social distancing at a time when most of a population has been vaccinated against COVID-19 greatly increases the probability of the emergence of a vaccine-resistant strain, according to a new modeling study.

Researchers at Google AI company Deepmind and the European Molecular Biology Laboratory/European Bioinformatics Institute have developed and published an open-access database with predicted structures of 98.5% of proteins in the human proteome.

The complete relegation of conferences to cyberspace that began with one HIV conference, CROI 2020, ended with another, the 2021 IAS meeting. Though the conference was still largely virtual, there was also an in-person component held in Berlin.

In infectious disease research, most of the research into genetic determinants of susceptibility to infection and disease severity are focused on the host. For COVID-19, for example, the delta variant’s infectivity, and how likely infection is to lead to severe disease, is the focus of an intense research agenda. But host genetics, too, contribute to the consequences of infections. An ongoing study into the host genetics of SARS-CoV-2 infection has identified 13 such factors that affected either the likelihood of contracting SARS-CoV-2, or the severity of disease, gleaned from the data of 50,000 infected persons and 2 million controls.

Researchers have identified an evolutionarily conserved metabolic role for tissue-resident macrophages, they reported in the July 2, 2021, issue of Science. In a commentary published alongside the paper, Conan O’Brien and Ana Domingos from the University of Oxford asserted that the work “introduces a new, macrophage-centered paradigm in… energy storage.”

Multiple companies are pursuing CD47-blockade as a tumor immunotherapy approach. Sana Biotechnology Inc., too, is interested in the therapeutic potential of CD47 – but from a very different angle. By overexpressing CD47 on stem cells, researchers at Sana want to make transplanted cells invisible to the immune system.

Sometimes, scientific progress comes from conceptual insights that arrive in a flash. More often, however, such progress arrives in a decidedly less glamorous, though no less important, manner – through the development of new technologies in what can be a very slow iterative cycle of getting a new method to work.

Researchers from The Hong Kong Polytechnic University (PolyU) said they have used two-dimensional nanosheets (FePSe3) to develop a biomimetic nanosheet that can monitor tumor development, treat tumors and monitor the treatment progress in real-time. With positive results from mice, the team hopes to further test it on larger animals, then move on to clinical studies.

Researchers at Oregon Health & Science University have turned acetaminophen's toxicity into an asset, using it to select genetically modified hepatocytes in vivo.