Tingting Hu scite author profile

The potential for infection by coronaviruses (CoVs) has become a serious concern with the recent emergence of Middle East respiratory syndrome and severe acute respiratory syndrome (SARS) in the human population. CoVs encode two large polyproteins, which are then processed into 15-16 nonstructural proteins (nsps) that make significant contributions to viral replication and transcription by assembling the RNA replicase complex. Among them, nsp9 plays an essential role in viral replication by forming a homodimer that binds single-stranded RNA. Thus, disrupting nsp9 dimerization is a potential anti-CoV therapy. However, different nsp9 dimer forms have been reported for alpha- and beta-CoVs, and no structural information is available for gamma-CoVs. Here we determined the crystal structure of nsp9 from the avian infectious bronchitis virus (IBV), a representative gamma-CoV that affects the economy of the poultry industry because it can infect domestic fowl. IBV nsp9 forms a homodimer via interactions across a hydrophobic interface, which consists of two parallel alpha helices near the carboxy terminus of the protein. The IBV nsp9 dimer resembles that of SARS-CoV nsp9, indicating that this type of dimerization is conserved among all CoVs. This makes disruption of the dimeric interface an excellent strategy for developing anti-CoV therapies. To facilitate this effort, we characterized the roles of six conserved residues on this interface using site-directed mutagenesis and a multitude of biochemical and biophysical methods. We found that three residues are critical for nsp9 dimerization and its abitlity to bind RNA.

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Killing colon cancer cells through PCD pathways by a novel hyaluronic acid-modified shell-core nanoparticle loaded with RIP3 in combination with chloroquine

Hou

Yang

Zhang

et al. 2017

Biomaterials

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LHD-Modified Mechanism-Based Liposome Coencapsulation of Mitoxantrone and Prednisolone Using Novel Lipid Bilayer Fusion for Tissue-Specific Colocalization and Synergistic Antitumor Effects

Cao

Yang

et al. 2016

ACS Appl. Mater. Interfaces

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Coencapsulation liposomes are of interest to researchers because they maximize the synergistic effect of loaded drugs. A combination regimen of mitoxantrone (MTO) and prednisolone (PLP) has been ideal for tumor therapy. MTO and PLP offer synergistic antitumor effects confirmed by several experiments in this research. The deduced synergistic mechanism is regulation of Akt signaling pathway including the targets of p-Akt, p-GSK-3β, p-s6 ribosomal protein, and p-AMPK by MTO reactivating PLP-induced apoptosis. The liposome fusion method is adopted to create coencapsulation liposomes (PLP-MTO-YM). Low molecular weight heparin-sodium deoxycholate conjugate (LHD) then is used as a targeting ligand to prove target binding and inhibition of angiogenesis. LHD-modified liposomes (PLP-MTO-HM) have a high entrapment efficiency around 95% for both MTO and PLP. DSC results indicate that both drugs interacted with liposomes to prevent drug leak during liposome fusion. DiD-C6-HM dyes colocalize well to tumor tissue, and coadministration of DiD-HM and C6-CM did not achieve dye colocalization until 24 h after administration. In both CT26 and B16F10 mouse model, PLP-MTO-HM shows a significantly higher tumor inhibition rate relative to the coadministration of MTO-HM and PLP-CM (p < 0.05 or p < 0.01). Thus, the coencapsulation system (PLP-MTO-HM) offers ideal antitumor effects relative to coadministration therapy due to enhanced synergistic effect, and this suggests a promising future for the tumor targeting vectors.

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Facile Construction of Chloroquine Containing PLGA-Based pDNA Delivery System for Efficient Tumor and Pancreatitis Targeting in Vitro and in Vivo

Yang

Cao

et al. 2015

Mol. Pharmaceutics

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Chloroquine diphosphate (CQ) was ingeniously used to take place of phosphate salt in traditional calcium phosphate coprecipitation method for pDNA transfection. With multiple roles of CQ in the novel Ca-CQ-pDNA complex including pDNA compaction and assistance in lysosome escape, the transfection efficiency of the pDNA was significantly increased relative to the traditional method. CQ did not intercalate into the DNA double helix as free CQ did, which was probably ascribed to the prior mixing of the pDNA with high concentration of calcium chloride. In order to construct efficacious vector for in vivo gene delivery, Ca-CQ-pDNA-PLGA-NPs was designed and prepared. With entrapment efficiency, particle size and pDNA integrity as screening conditions, the optimal prescription was obtained and CaPi-pDNA-PLGA-NPs made with classic calcium phosphate coprecipitation method after optimization was also prepared as control to systematically study the role of CQ in the novel vector. Physical characters of the vectors were comprehensively studied using TEM, DSC, and XRD. The safety of the vector both in vitro and in vivo was evaluated using MTT, hemolysis test, and histological sections. The Ca-CQ-pDNA-PLGA-NPs dramatically enhanced the gene tranfection efficiency in Human Embryonic kidney HEK293 cells compared with the CaPi-pDNA-PLGA-NPs and presented an increasing gene transfection for up 144 h. The relative fast release of the CQ compared with pDNA from the nanoparticles was responsive for the increased transfection. The Did-labeled-Ca-CQ-pDNA-PLGA-NPs exhibited excellent tumor targeting efficiency and sustained circulation time in CT26 mouse model. The Ca-CQ-pDNA-PLGA-NP loaded with the plasmid pVITRO2 expressing mSurvivin-T34A protein gave 70% tumor inhibition rate, which was partially ascribed to CQ. The Ca-CQ-pDNA-PLGA-NPs showed high targeting efficiency in C57 acute pancreatitis model. In all, the Ca-CQ-pDNA-PLGA-NP was a promising candidate for targeted gene delivery to both tumor and pancreatitis.

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Tingting Hu

Antioxidant activity of sulfated polysaccharide fractions extracted from Undaria pinnitafida in vitro

Structural basis for dimerization and RNA binding of avian infectious bronchitis virus nsp9

Killing colon cancer cells through PCD pathways by a novel hyaluronic acid-modified shell-core nanoparticle loaded with RIP3 in combination with chloroquine

LHD-Modified Mechanism-Based Liposome Coencapsulation of Mitoxantrone and Prednisolone Using Novel Lipid Bilayer Fusion for Tissue-Specific Colocalization and Synergistic Antitumor Effects

Facile Construction of Chloroquine Containing PLGA-Based pDNA Delivery System for Efficient Tumor and Pancreatitis Targeting in Vitro and in Vivo

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