Facing the challenges of the next generation exascale computing, National University of Defense Technology has developed a prototype system to explore opportunities, solutions, and limits toward the next generation Tianhe system. This paper briefly introduces the prototype system, which is deployed at the National Supercomputer Center in Tianjin and has a theoretical peak performance of 3.15 Pflops. A total of 512 compute nodes are found where each node has three proprietary CPUs called Matrix-2000+. The system memory is 98.3 TB, and the storage is 1.4 PB in total.
It has been shown that Caspy2, a zebrafish active caspase, can efficiently suppress the growth of malignant tumor. The present study was designed to test whether combined gene therapy with IP-10, a potent antitumor chemokine, and Caspy2 would improve therapy efficacy. Recombinant plasmid expressing both Caspy2 and IP-10 genes was mixed with DOTAP-cholesterol nanoparticles. Immunocompetent mice bearing CT26 colon carcinoma, B16-F10 melanoma, and 4T1 breast carcinoma were treated with the complex. We found that the combined gene therapy more efficiently inhibited tumor growth, while efficiently prolonging the survival of tumor-bearing animals, compared with monotherapy. Moreover, a significant reduction in spontaneous lung metastasis could be observed in the 4T1 breast carcinoma model. Infiltration of CD8(+) T lymphocytes was also observed. In addition, apoptotic cells were widely detected by TUNEL assay and caspase-3 immunostaining in coadministered tumor tissues. The combination treatment also successfully inhibited angiogenesis and tumor cell proliferation as assessed by CD31 and Ki-67 immunostaining, respectively. Furthermore, depletion of CD8(+) T lymphocytes could significantly abrogate the antitumor activity, whereas the depletion of CD4(+) cells or natural killer cells showed partial abrogation. Rechallenged CT26 tumors were rejected in all of the surviving mice treated by combination therapy. Our results suggest that combined therapy with Caspy2 and IP-10 can significantly enhance antitumor activity by acting as an immune response initiator, apoptosis inducer, and angiogenesis inhibitor, which may be important for further applications in clinical cancer therapy.
The endocytosis of transferrin receptor (TfR) has served as a model to study the receptor-targeted cargo delivery system for cancer therapy for many years. To accurately evaluate and optically measure this TfR targeting delivery in vitro, a CHO cell line with enhanced green fluorescent protein (EGFP)-tagged human TfR was established. A chimera of the hTfR and EGFP was engineered by fusing EGFP to the amino terminus of hTfR. Data were provided to demonstrate that hTfR-EGFP chimera was predominantly localized on the plasma membrane with some intracellular fluorescent structures on CHO cells and the EGFP moiety did not affect the endocytosis property of hTfR. Receptor internalization occurred similarly to that of HepG2 cells expressing wild-type hTfR. The internalization percentage of this chimeric receptor was about 81±3% of wild type. Time-dependent co-localization of hTfR-EGFP and PE-conjugated anti-hTfR mAb in living cells demonstrated the trafficking of mAb-receptor complexes through the endosomes followed by segregation of part of the mAb and receptor at the late stages of endocytosis. The CHO-hTfR cells preferentially took up anti-hTfR mAb conjugated nanoparticles. This CHO-hTfR cell line makes it feasible for accurate evaluation and visualization of intracellular trafficking of therapeutic agents conjugated with transferrin or Abs targeting the hTfRs.
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