Chengyu Liu scite author profile

Signaling through the thrombospondin-1 receptor CD47 broadly limits cell and tissue survival of stress, but the molecular mechanisms are incompletely understood. We now show that loss of CD47 permits sustained proliferation of primary murine endothelial cells, increases asymmetric division, and enables these cells to spontaneously reprogram to form multipotent embryoid body-like clusters. c-Myc, Klf4, Oct4, and Sox2 expression is elevated in CD47-null endothelial cells, in several tissues of CD47- and thrombospondin-1-null mice, and in a human T cell line lacking CD47. CD47 knockdown acutely increases mRNA levels of c-Myc and other stem cell transcription factors in cells and in vivo, whereas CD47 ligation by thrombospondin-1 suppresses c-Myc expression. The inhibitory effects of increasing CD47 levels can be overcome by maintaining c-Myc expression and are absent in cells with dysregulated c-Myc. Thus, CD47 antagonists enable cell self-renewal and reprogramming by overcoming negative regulation of c-Myc and other stem cell transcription factors.

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Growth hormone receptor regulates β cell hyperplasia and glucose-stimulated insulin secretion in obese mice

Wu¹,

Liu²,

Sun³

et al. 2011

J. Clin. Invest.

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Insulin, growth hormone (GH), and insulin-like growth factor-1 (IGF-1) play key roles in the regulation of β cell growth and function. Although β cells express the GH receptor, the direct effects of GH on β cells remain largely unknown. Here we have employed a rat insulin II promoter-driven (RIP-driven) Cre recombinase to disrupt the GH receptor in β cells (βGHRKO). βGHRKO mice fed a standard chow diet exhibited impaired glucose-stimulated insulin secretion but had no changes in β cell mass. When challenged with a high-fat diet, βGHRKO mice showed evidence of a β cell secretory defect, with further deterioration of glucose homeostasis indicated by their altered glucose tolerance and blunted glucose-stimulated insulin secretion. Interestingly, βGHRKO mice were impaired in β cell hyperplasia in response to a high-fat diet, with decreased β cell proliferation and overall reduced β cell mass. Therefore, GH receptor plays critical roles in glucose-stimulated insulin secretion and β cell compensation in response to a high-fat diet.

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Purification and enrichment of virus samples utilizing magnetic beads on a microfluidic system

et al. 2007

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This study reports a new microfluidic system with three integrated functional devices for pumping, mixing and separation of bio-samples by utilizing micro-electro-mechanical-systems technology. By using antibody-conjugated magnetic beads, the developed system can be used to purify and enrich virus samples such that the subsequent detection of viruses can be performed with a higher sensitivity. The target viruses were first captured by the antibody coated onto the magnetic beads by using a rotary micromixer which performed the incubation process. The viruses were then purified and enriched by a magnetic field generated by planar microcoils. The integrated microfluidic system can perform the whole purification and enrichment process automatically using a rotary micropump and appropriate microvalves. In addition, a numerical simulation was also employed to optimize the design of the microcoils and to investigate the magnetic field strength and distribution. The simulation results were consistent with experimental observations. Finally, the developed system was used to successfully perform the purification and enrichment of Dengue viruses. The detectable limit of Dengue viruses was found to be as low as 10(2) pfu ml(-1) by using this approach. Therefore, the integrated microsystem can perform incubation, transportation, mixing and purification of virus samples, possibly making it a promising platform for future biological and medical applications.

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A RUNX2-Mediated Epigenetic Regulation of the Survival of p53 Defective Cancer Cells

Shin

Marrogi

et al. 2016

PLoS Genet

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The inactivation of p53 creates a major challenge for inducing apoptosis in cancer cells. An attractive strategy is to identify and subsequently target the survival signals in p53 defective cancer cells. Here we uncover a RUNX2-mediated survival signal in p53 defective cancer cells. The inhibition of this signal induces apoptosis in cancer cells but not non-transformed cells. Using the CRISPR technology, we demonstrate that p53 loss enhances the apoptosis caused by RUNX2 knockdown. Mechanistically, RUNX2 provides the survival signal partially through inducing MYC transcription. Cancer cells have high levels of activating histone marks on the MYC locus and concomitant high MYC expression. RUNX2 knockdown decreases the levels of these histone modifications and the recruitment of the Menin/MLL1 (mixed lineage leukemia 1) complex to the MYC locus. Two inhibitors of the Menin/MLL1 complex induce apoptosis in p53 defective cancer cells. Together, we identify a RUNX2-mediated epigenetic mechanism of the survival of p53 defective cancer cells and provide a proof-of-principle that the inhibition of this epigenetic axis is a promising strategy to kill p53 defective cancer cells.

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Sodium Lauryl Sulfate Competitively Interacts with HPMC-AS and Consequently Reduces Oral Bioavailability of Posaconazole/HPMC-AS Amorphous Solid Dispersion

Chen

Wang

et al. 2016

Mol. Pharmaceutics

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Sodium lauryl sulfate (SLS), as an effective surfactant, is often used as a solubilizer and/or wetting agent in various dosage forms for the purpose of improving the solubility and dissolution of lipophilic, poorly water-soluble drugs. This study aims to understand the impact of SLS on the solution behavior and bioavailability of hypromellose acetate succinate (HPMC-AS)-based posaconazole (PSZ) ASDs, and to identify the underlying mechanisms governing the optimal oral bioavailability of ASDs when surfactants such as SLS are used in combination. Fluorescence spectroscopy and optical microscopy showed that "oil-out" or "liquid-liquid phase separation (LLPS)" occurred in the supersaturated PSZ solution once drug concentration surpassed ∼12 μg/mL, which caused the formation of drug-rich oily droplets with initial size of ∼300-400 nm. Although FT-IR study demonstrated the existence of specific interactions between PSZ and HPMC-AS in the solid state, predissolved HPMC-AS was unable to delay LLPS of the supersaturated PSZ solution and PSZ-rich amorphous precipitates with ∼16-18% HPMC-AS were formed within 10 min. The coprecipitated HPMC-AS was found to be able to significantly delay the crystallization of PSZ in the PSZ-rich amorphous phase from less than 10 min to more than 4 h, yet coexistent SLS was able to negate this crystallization inhibition effect of HPMC-AS in the PSZ-rich amorphous precipitates and cause fast PSZ crystallization within 30 min. 2D-NOESY and the CMC/CAC results demonstrated that SLS could assemble around HPMC-AS and competitively interact with HPMC-AS in the solution, thus prevent HPMC-AS from acting as an effective crystallization inhibitor. In a crossover dog PK study, this finding was found to be correlating well with the in vivo bioavailability of PSZ ASDs formulated with or without SLS. The SLS containing PSZ ASD formulation demonstrated an in vivo bioavailability ∼30% of that without SLS, despite the apparently better in vitro dissolution, which only compared the dissolved drug in solution, a small fraction of the total PSZ dose. We conclude that the bioavailability of ASDs is highly dependent on the molecular interactions between drug, surfactant, and polymer, not only in the solution phase but also in the drug-rich "oily" phase caused by supersaturation.

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Chengyu Liu

Thrombospondin-1 Signaling through CD47 Inhibits Self-renewal by Regulating c-Myc and Other Stem Cell Transcription Factors

Growth hormone receptor regulates β cell hyperplasia and glucose-stimulated insulin secretion in obese mice

Purification and enrichment of virus samples utilizing magnetic beads on a microfluidic system

A RUNX2-Mediated Epigenetic Regulation of the Survival of p53 Defective Cancer Cells

Sodium Lauryl Sulfate Competitively Interacts with HPMC-AS and Consequently Reduces Oral Bioavailability of Posaconazole/HPMC-AS Amorphous Solid Dispersion

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