SARS-CoV-2 is the causative agent of COVID-19, and although vaccines have reduced disease severity, emerging variants remain a significant public health issue. Broadly effective therapeutics, particul Show more
SARS-CoV-2 is the causative agent of COVID-19, and although vaccines have reduced disease severity, emerging variants remain a significant public health issue. Broadly effective therapeutics, particularly those targeting host pathways essential for coronavirus infection, are still needed. Here, we used a CRISPR knockout screen to identify druggable host factors required for SARS-CoV-2 infection. The screen revealed NAE1 and FGFR1 as key contributors to infection. Inhibitors, either FDA-approved or those in clinical trials, of these pathways reduced replication of both ancestral and contemporary viral variants. Mechanistic studies showed that FGFR1 promotes viral replication through downstream MEK/ERK signaling, while neddylation appears to support viral entry or infectivity rather than replication itself. In a murine model of severe COVID-19, inhibitors of NAE1 and FGFR1 significantly decreased viral load and lung pathology. These findings support the development of host-targeted antiviral strategies. Show less
Hydrogen (H₂) will play a crucial role in Europe's green energy transition, necessitating efficient storage solutions such as underground storage in salt caverns or porous media. However, the potentia Show more
Hydrogen (H₂) will play a crucial role in Europe's green energy transition, necessitating efficient storage solutions such as underground storage in salt caverns or porous media. However, the potential microbial H₂ consumption in these subsurface environments poses risks to storage stability and safety, and its magnitude remains relatively unexplored. Within the HyLife-CETP project, we developed a brine sampling protocol for the field operators and tested a standardized laboratory procedure for estimating microbial hydrogen consumption rates in these original brine samples, combining precise gas, chemical, and genetic analyses. Four labs tested and compared the developed enrichment protocol in a round-robin-like test using artificial brine and the hydrogen-consuming, sulfate-reducer Oleidesulfovibrio alaskensis as a reference strain. This test revealed consistent trends in microbial hydrogen consumption and corresponding pH increase across labs, indicating that the developed protocol effectively captures the overall microbial activity. However, inter-laboratory variability in the reported H Show less