The incidence of many cancer types is significantly reduced in individuals with Down syndrome1–4 and it is proposed that this broad cancer protection is conferred by the elevated expression of one or more of the 231 supernumerary genes on the extra copy of chromosome 21. One such gene is the Down syndrome candidate region-1 (Dscr1, RCAN1), which encodes a protein that suppresses vascular endothelial growth factor (VEGF)-mediated angiogenic signalling via the calcineurin pathway5–10. Here we show that DSCR1 is elevated in Down syndrome individuals and a mouse model of Down syndrome. Further, we show that the modest elevation in expression afforded by a single extra transgenic copy of Dscr1 is sufficient to confer significant suppression of tumor growth in mice and that such resistance is a consequence of a deficit in tumor angiogenesis arising from suppression of the calcineurin pathway. We also provide evidence that attenuation of calcineurin activity by DSCR1 together with another chromosome 21 gene DYRK1A, may be sufficient to dramatically diminish angiogenesis. These data provide a mechanism for the reduced cancer incidence in Down syndrome and identifies the calcineurin signalling pathway and its regulators DSCR1 and DYRK1A as potential therapeutic targets in cancers arising in all individuals.
In this study, we show that the formation of polyploidy following sustained mitotic checkpoint activation appears to be preceded by the ubiquitin-dependent proteolysis of hBubR1. In addition, the level of hBubR1 is significantly reduced not only in polyploid cells created by sustained mitotic spindle damage, but also in 21 (31.3%) of 67 human colon adenocarcinomas tested. Importantly, the introduction of hBubR1 triggers the apoptosis of polyploid cells formed by aberrant exit from mitosis and inhibits the growth of tumors established with these cells in athymic nude mice. These results suggest that hBubR1-mediated apoptosis prevents the propagation of cells that breach the mitotic checkpoint and that the control of hBubR1 protein level is an important factor in the acquisition of preneoplastic polyploidy.
The NF-AT transcription factors regulated by the phosphatase calcineurin play a role in breast cancer metastasis-promoting tumor cell invasion. Metastasis is a multistep process requiring angiogenesis and endothelial activation. NF-AT is also expressed in endothelial cells, and calcineurin-NF-AT signaling is an important downstream effector of the proangiogenic cytokine VEGF. One isoform of the endogenous calcineurin regulator, Down syndrome candidate region-1 (DSCR1.Ex4), suppresses calcineurin-NFAT signaling blocking endothelial proliferation. However, overexpression of the other DSCR1 isoform (DSCR1.Ex1) may promote angiogenesis. We report that targeted deletion of both isoforms leads to hyperactivated calcineurin and precocious endothelial apoptosis, inhibiting formation of an effective tumor vasculature and suppressing tumorigenesis. Treatment with the specific pharmacological calcineurin inhibitor cyclosporin A rescues this endothelial defect in DSCR1(-/-) mice, restoring tumor growth.
The Geostationary Environment Monitoring Spectrometer (GEMS) is scheduled for launch in February 2020 to monitor air quality (AQ) at an unprecedented spatial and temporal resolution from a geostationary Earth orbit (GEO) for the first time. With the development of UV–visible spectrometers at sub-nm spectral resolution and sophisticated retrieval algorithms, estimates of the column amounts of atmospheric pollutants (O3, NO2, SO2, HCHO, CHOCHO, and aerosols) can be obtained. To date, all the UV–visible satellite missions monitoring air quality have been in low Earth orbit (LEO), allowing one to two observations per day. With UV–visible instruments on GEO platforms, the diurnal variations of these pollutants can now be determined. Details of the GEMS mission are presented, including instrumentation, scientific algorithms, predicted performance, and applications for air quality forecasts through data assimilation. GEMS will be on board the Geostationary Korea Multi-Purpose Satellite 2 (GEO-KOMPSAT-2) satellite series, which also hosts the Advanced Meteorological Imager (AMI) and Geostationary Ocean Color Imager 2 (GOCI-2). These three instruments will provide synergistic science products to better understand air quality, meteorology, the long-range transport of air pollutants, emission source distributions, and chemical processes. Faster sampling rates at higher spatial resolution will increase the probability of finding cloud-free pixels, leading to more observations of aerosols and trace gases than is possible from LEO. GEMS will be joined by NASA’s Tropospheric Emissions: Monitoring of Pollution (TEMPO) and ESA’s Sentinel-4 to form a GEO AQ satellite constellation in early 2020s, coordinated by the Committee on Earth Observation Satellites (CEOS).
CpG oligodeoxynucleotides (ODNs) are promising immunomodulatory agents for treating human diseases and vaccine development. Phosphodiester CpG ODNs were demonstrated to have poor immunostimulatory potentials for cytokine production. However, the conjugation of consecutive deoxyriboguanosine residues, called a dG run, at the 3′ terminus of phosphodiester CpG ODNs significantly enhanced TNF-α and IL-12 production from mouse splenic dendritic cells (DCs). The optimal induction of cytokine production was achieved by the addition of a hexameric dG (dG6) run. In contrast, the existence of a dG6 run either at the 5′ terminus of phosphodiester CpG ODNs or at the 3′ terminus of phosphorothioate CpG ODNs diminished CpG-mediated cytokine induction, suggesting that the effects of a dG run depend on its location and the chemical property of the ODN backbone, respectively. In addition, we provided the evidence that the conjugation of a dG6 run caused the structural transformation of CpG ODNs, which facilitates their targeting into mouse APCs such as splenic DCs, B cells, and peritoneal macrophages with a scavenger receptor type A ligand specificity. Among primary APCs, DCs were the most potent for CpG ODN-mediated IL-12 production. Furthermore, we demonstrated that the conjugation of a dG6 run into the 3′ terminus of phosphodiester CpG ODNs was crucial for their ability to generate Th1 immunity in vivo. Thus, the conjugation of a dG6 run into phosphodiester CpG ODNs would be an alternative way to optimize their immunostimulatory potentials in vitro and in vivo.
Postoperative radiation clearly benefitted patients with pathology risk factors, node metastasis, and advanced T stage in LGSGC. Meanwhile, the oncological outcomes are very good with surgery alone in cases of pT1-2N0 LGSGC without pathology risk factors.
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