Kate Rainczuk scite author profile

Background and PurposeSevere influenza A virus (IAV) infections are associated with damaging hyperinflammation that can be fatal. There is an urgent need to identify new therapeutic agents to treat severe and pathogenic IAV infections. Repurposing of drugs with an existing and studied pharmacokinetic and safety profile is a highly attractive potential strategy. We have previously demonstrated that the NLRP3 inflammasome plays time‐dependent roles during severe IAV infection with early protective responses and later dysregulation leading to excessive inflammation, contributing to disease severity.Experimental ApproachWe tested two existing drugs, probenecid and AZ11645373, to target P2X7 receptor signalling and dampen NLRP3 inflammasome responses during severe IAV infection. In vitro, the drugs were assessed for their ability to limit NLRP3 inflammasome‐dependent IL‐1β secretion in macrophage cultures. In vivo, their effects were assessed on hyperinflammation and disease during severe IAV infection in C57BL/6 mice.Key ResultsTreatment of macrophages with probenecid or AZ11645373 in vitro diminished NLRP3 inflammasome‐dependent IL‐1β secretion. Intranasal therapeutic treatment of mice displaying severe influenza disease with probenecid or AZ11645373 reduced pro‐inflammatory cytokine production, cellular infiltrates in the lung, and provided protection against disease. Importantly, these drugs could be administered at either early or late stage of disease and provide therapeutic efficacy.Conclusions and ImplicationsOur study demonstrates that the anti‐inflammatory drugs probenecid and AZ11645373, which have documented pharmacokinetics and safety profiles in humans, are effective at dampening hyperinflammation and severe influenza disease providing potentially new therapeutic strategies for treating severe or pathogenic IAV infections.

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Targeting Interleukin-11 Receptor-α Impairs Human Endometrial Cancer Cell Proliferation and Invasion In Vitro and Reduces Tumor Growth and Metastasis In Vivo

Winship

Sinderen

Donoghue

et al. 2016

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Endometrial cancer contributes to significant morbidity and mortality in women with advanced stage or recurrent disease. IL11 is a cytokine that regulates cell cycle, invasion, and migration, all hallmarks of cancer. IL11 is elevated in endometrial tumors and uterine lavage fluid in women with endometrial cancer, and alters endometrial epithelial cancer cell adhesion and migration in vitro, but its role in endometrial tumorigenesis in vivo is unknown. We injected mice subcutaneously with human-derived Ishikawa or HEC1A endometrial epithelial cancer cells (ectopic), or HEC1A cells into the uterus (orthotopic) to develop endometrial cancer mouse models. Administration of anti-human IL11 receptor (R) a blocking antibody dramatically reduced HEC1A-derived tumor growth in both models and reduced peritoneal metastatic lesion spread in the orthotopic model, compared with IgG. Anti-human IL11Ra retained a well-differentiated, endometrial epithelial phenotype in the HEC1A ectopic mice, suggesting it prevented epithelial-to-mesenchymal transition. Blockade of mouse IL11Ra with anti-mouse IL11Ra antibody did not alter tumor growth, suggesting that cancer epithelial cell IL11 signaling is required for tumor progression. In vitro, anti-human IL11Ra antibody significantly reduced Ishikawa and HEC1A cell proliferation and invasion and promoted apoptosis. Anti-human, but not anti-mouse, IL11Ra antibody reduced STAT3, but not ERK, activation in HEC1A cells in vitro and in endometrial tumors in xenograft mice. We demonstrated that targeted blockade of endometrial cancer epithelial cell IL11 signaling reduced primary tumor growth and impaired metastasis in ectopic and orthotopic endometrial cancer models in vivo. Our data suggest that therapeutically targeting IL11Ra could inhibit endometrial cancer growth and dissemination. Mol Cancer Ther; 15(4); 720-30. Ó2016 AACR.

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Galectin-7 Impairs Placentation and Causes Preeclampsia Features in Mice

et al. 2020

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Preeclampsia is a serious pregnancy-induced disorder unique to humans. The etiology of preeclampsia is poorly understood; however, poor placental formation is thought causal. Galectin-7 is produced by trophoblast and is elevated in first-trimester serum of women who subsequently develop preeclampsia. We hypothesized that elevated placental galectin-7 may be causative of preeclampsia. Here, we demonstrated increased galectin-7 production in chorionic villous samples from women who subsequently develop preterm preeclampsia compared with uncomplicated pregnancies. In vitro, galectin-7 impaired human first-trimester trophoblast outgrowth, increased placental production of the antiangiogenic sFlt-1 splice variant, sFlt-1-e15a , and reduced placental production and secretion of ADAM12 (a disintegrin and metalloproteinase12) and angiotensinogen. In vivo, galectin-7 administration (E8–E12) to pregnant mice caused elevated systolic blood pressure, albuminuria, impaired placentation (reduced labyrinth vascular branching, impaired decidual spiral artery remodeling, and a proinflammatory placental state demonstrated by elevated IL1β, IL6 and reduced IL10), and dysregulated expression of renin-angiotensin system components in the placenta, decidua, and kidney, including angiotensinogen, prorenin, and the angiotensin II type 1 receptor. Collectively, this study demonstrates that elevated galectin-7 during placental formation contributes to abnormal placentation and suggests that it leads to the development of preeclampsia via altering placental production of sFlt-1 and renin-angiotensin system components. Targeting galectin-7 may be a new treatment option for preeclampsia.

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Kate Rainczuk

Repurposing drugs targeting the P2X7 receptor to limit hyperinflammation and disease during influenza virus infection

Targeting Interleukin-11 Receptor-α Impairs Human Endometrial Cancer Cell Proliferation and Invasion In Vitro and Reduces Tumor Growth and Metastasis In Vivo

Galectin-7 Impairs Placentation and Causes Preeclampsia Features in Mice

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