FABP4 as a Therapeutic Host Target Controlling SARS-CoV2 Infection (preprint)

Host metabolic fitness is a critical determinant of infectious disease outcomes. In COVID-19, obesity and aging are major high-risk disease modifiers, although the underlying mechanism remains unknown. Here, we demonstrate that fatty acid binding protein 4 (FABP4), a critical regulator of metabolic dysfunction in these conditions, regulates SARS-CoV2 pathogenesis. Our study revealed that elevated FABP4 levels in COVID-19 patients strongly correlate with disease severity. In adipocytes and airway epithelial cells we found that loss of FABP4 function by genetic or pharmacological means impaired SARS-CoV2 replication and disrupted the formation of viral replication organelles. Furthermore, treatment of infected hamsters with FABP4 inhibitors alleviated lung damage and fibrosis and reduced lung viral titers. These results highlight a novel host factor critical for SARS-CoV2 infection and the therapeutic potential of FABP4-targeting agents in treating COVID-19 patients.

Mask Up: Exploring Cross-Cultural Influences on Mask-Making Behavior During the COVID-19 Pandemic

At the beginning of the COVID-19 pandemic, people from around the world made numerous homemade masks for themselves and their community due to shortage of medical masks as well as to stop the spread of COVID-19. The purpose of the current study was to conduct cross cultural exploration of the reasons for making masks, self-construal and wellbeing associated with masks making by collecting data from residents across US, India, and China. The finding of this study presented different reasons for making masks as well as self-construal, and wellbeing in people who made masks versus those who did not. Differences were also observed among three different cultural groups. This study offers a unique contribution to the public health research engaging in craft making related activities to gain a better perspective of the state of health of a population and the understanding of cross-cultural study of craft making behavior during the pandemic.

SARS-CoV-2 Requires Cholesterol for Viral Entry and Pathological Syncytia Formation (preprint)

Summary Many enveloped viruses induce multinucleated cells (syncytia), reflective of membrane fusion events caused by the same machinery that underlies viral entry. These syncytia are thought to facilitate replication and evasion of the host immune response. Here, we report that co-culture of human cells expressing the receptor ACE2 with cells expressing SARS-CoV-2 spike, results in synapse-like intercellular contacts that initiate cell-cell fusion, producing syncytia resembling those we identify in lungs of COVID-19 patients. To assess the mechanism of spike/ACE2-driven membrane fusion, we developed a microscopy-based, cell-cell fusion assay to screen ∼6000 drugs and >30 spike variants. Together with cell biological and biophysical approaches, the screen reveals an essential role for membrane cholesterol in spike-mediated fusion, which extends to replication-competent SARS-CoV-2 isolates. Our findings provide a molecular basis for positive outcomes reported in COVID-19 patients taking statins, and suggest new strategies for therapeutics targeting the membrane of SARS-CoV-2 and other fusogenic viruses. Highlights Cell-cell fusion at ACE2-spike clusters cause pathological syncytia in COVID-19 Drug screen reveals critical role for membrane lipid composition in fusion Spike’s unusual membrane-proximal cysteines and aromatics are essential for fusion Cholesterol tunes relative infectivity of SARS-CoV-2 viral particles