cIAPs control RIPK1 kinase activity-dependent and -independent cell death and tissue inflammation.

Cellular inhibitor of apoptosis proteins (cIAPs) are RING-containing E3 ubiquitin ligases that ubiquitylate receptor-interacting protein kinase 1 (RIPK1) to regulate TNF signalling. Here, we established mice simultaneously expressing enzymatically inactive cIAP1/2 variants, bearing mutations in the RING domains of cIAP1/2 (cIAP1/2 mutant RING, cIAP1/2MutR ). cIap1/2MutR/MutR mice died during embryonic development due to RIPK1-mediated apoptosis. While expression of kinase-inactive RIPK1D138N rescued embryonic development, Ripk1D138N/D138N /cIap1/2MutR/MutR mice developed systemic inflammation and died postweaning. Cells expressing cIAP1/2MutR and RIPK1D138N were still susceptible to TNF-induced apoptosis and necroptosis, implying additional kinase-independent RIPK1 activities in regulating TNF signalling. Although further ablation of Ripk3 did not lead to any phenotypic improvement, Tnfr1 gene knock-out prevented early onset of systemic inflammation and premature mortality, indicating that cIAPs control TNFR1-mediated toxicity independent of RIPK1 and RIPK3. Beyond providing novel molecular insights into TNF-signalling, the mouse model established in this study can serve as a useful tool to further evaluate ongoing therapeutic protocols using inhibitors of TNF, cIAPs and RIPK1.

Cleavage of cFLIP restrains cell death during viral infection and tissue injury and favors tissue repair.

Cell death coordinates repair programs following pathogen attack and tissue injury. However, aberrant cell death can interfere with such programs and cause organ failure. Cellular FLICE-like inhibitory protein (cFLIP) is a crucial regulator of cell death and a substrate of Caspase-8. However, the physiological role of cFLIP cleavage by Caspase-8 remains elusive. Here, we found an essential role for cFLIP cleavage in restraining cell death in different pathophysiological scenarios. Mice expressing a cleavage-resistant cFLIP mutant, CflipD377A, exhibited increased sensitivity to severe acute respiratory syndrome coronavirus (SARS-CoV)-induced lethality, impaired skin wound healing, and increased tissue damage caused by Sharpin deficiency. In vitro, abrogation of cFLIP cleavage sensitizes cells to tumor necrosis factor(TNF)-induced necroptosis and apoptosis by favoring complex-II formation. Mechanistically, the cell death-sensitizing effect of the D377A mutation depends on glutamine-469. These results reveal a crucial role for cFLIP cleavage in controlling the amplitude of cell death responses occurring upon tissue stress to ensure the execution of repair programs.

Cell death and inflammation during obesity: "Know my methods, WAT(son)".

Obesity is a state of low-grade chronic inflammation that causes multiple metabolic diseases. During obesity, signalling via cytokines of the TNF family mediate cell death and inflammation within the adipose tissue, eventually resulting in lipid spill-over, glucotoxicity and insulin resistance. These events ultimately lead to ectopic lipid deposition, glucose intolerance and other metabolic complications with life-threatening consequences. Here we review the literature on how inflammatory responses affect metabolic processes such as energy homeostasis and insulin signalling. This review mainly focuses on the role of cell death in the adipose tissue as a key player in metabolic inflammation.

Thyroid status regulates the tumor microenvironment delineating breast cancer fate.

The patient's hormonal context plays a crucial role in the outcome of cancer. However, the association between thyroid disease and breast cancer risk remains unclear. We evaluated the effect of thyroid status on breast cancer growth and dissemination in an immunocompetent mouse model. For this, hyperthyroid and hypothyroid Balb/c mice were orthotopically inoculated with triple-negative breast cancer 4T1 cells. Tumors from hyperthyroid mice showed an increased growth rate and an immunosuppressive tumor microenvironment, characterized by increased IL-10 levels and decreased percentage of activated cytotoxic T cells. On the other hand, delayed tumor growth in hypothyroid animals was associated with increased tumor infiltration of activated CD8+ cells and a high IFNγ/IL-10 ratio. Paradoxically, hypothyroid mice developed a higher number of lung metastasis than hyperthyroid animals. This was related to an increased secretion of tumor CCL2 and an immunosuppressive systemic environment, with increased proportion of regulatory T cells and IL-10 levels in spleens. A lower number of lung metastasis in hyperthyroid mice was related to the reduced presence of mesenchymal stem cells in tumors and metastatic sites. These animals also exhibited decreased percentages of regulatory T lymphocytes and myeloid-derived suppressor cells in spleens but increased activated CD8+ cells and the IFNγ/IL-10 ratio. Therefore, thyroid hormones modulate the cellular and cytokine content of the breast tumor microenvironment. A better understanding of the mechanisms involved in these effects could be a starting point for the discovery of new therapeutic targets for breast cancer.