Project description:Chimeric antigen receptor (CAR) T cell-therapy is substantially constrained by cytokine release syndrome (CRS). The precise mechanisms underlying CAR T cell-therapy-associated CRS remain elusive. Here, we show that CAR T cell-induced tumor cytotoxicity activates monocytes to release IL-1β, IL-6, and TNF-α, key inflammatory cytokines driving CRS, via monocyte contact-independent manner.

Project description:Lethal Cytokine Storm Post-mRNA Booster Vaccination

Project description:SARS-CoV2 infection leads to cardiac injury and dysfunction in 20-30% of hospitalized patients and higher rates of mortality in patients with pre-existing cardiovascular disease. Inflammatory factors released as part of the 'cytokine storm' are thought to play a critical role in cardiac dysfunction in severe COVID-19 patients. Here we use human cardiac organoid technology combined with high sensitivity phosphoproteomics and single nuclei RNA sequencing to identify inflammatory targets inducing cardiac dysfunction. This new pipeline allowed rapid progress and identification of putative therapeutics. We identify a novel interferon-gamma driven BRD4 (bromodomain protein 4)-fibrosis/iNOS axis as a key intracellular mediator of inflammation-induced cardiac dysfunction. This axis is therapeutically targetable using BRD4 inhibitors, which promoted full recovery of function in human cardiac organoids and prevented severe inflammation and death in a cytokine-storm mouse model. The BRD inhibitor INCB054329 was the most efficacious, and is a prime candidate for drug repurposing to attenuate cardiac dysfunction and improve COVID-19 mortality in humans.

Project description:An H5N1 virus-encoded microRNA directly targets mammalian poly(rC) binding protein 2 and is a major contributor to H5N1-associated ‘cytokine storm’ and mortality.

Project description:Prolonged sleep deprivation induces cytokine storm-like syndrome in mammals

Project description:Chimeric antigen receptor T cells (CAR-T) therapy has not yet been fully explored in solid tumors. Human epidermal growth factor receptor-2(HER2) is widely expressed in cancers. Investigators have developed anti-HER2 CAR-modified T cells and validated the efficiency targeting HER2-positive cancer in preclinical studies. This study is aimed to confirm its adverse effects including cytokine storm response and any other adverse effects. In addition, CAR-T cells persistence, tumor elimination and disease status after treatment will be evaluated.

Project description:Acute cardiac injuries occur in 20%–25% of hospitalized COVID‐19 patients. Herein, we demonstrate that human cardiac organoids (hCOs) are a viable platform to model the cardiac injuries caused by COVID‐19 hyperinflammation. As IL‐1β is an upstream cytokine and a core COVID‐19 signature cytokine, it was used to stimulate hCOs to induce the release of a milieu of proinflammatory cytokines that mirror the profile of COVID‐19 cytokine storm. The IL‐1β treated hCOs recapitulated transcriptomic, structural, and functional signatures of COVID‐19 hearts. The comparison of IL‐1β treated hCOs with cardiac tissue from COVID‐19 autopsies illustrated the critical roles of hyper‐inflammation in COVID‐19 cardiac insults and indicated the cardioprotective effects of endothelium. The IL‐1β treated hCOs thus provide a defined and robust model to assess the efficacy and potential side effects of immunomodulatory drugs, as well as the reversibility of COVID‐19 cardiac in- juries at baseline and simulated exercise conditions.

Project description:sn-RNAseq profiling of the impact of a cytokine storm model in human cardiac organoids

Project description:Human cardiac organoids to model COVID‐19 cytokine storm induced cardiac injuries

Project description:Prolonged sleep deprivation induces cytokine storm-like syndrome in mammals [RNA-Seq]