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2. Dual-Targeting Nanoparticle-Mediated Gene Therapy Strategy for Hepatocellular Carcinoma by Delivering Small Interfering RNA

Author

Qi Chang Zheng, Shuai Jiang, Yu Zhe Wu, Dan Shang, Yong Zhang, Shao Bo Hu, Xiang Cheng, Chen Zhang, Ping Sun, Yang Gao, Zi Fang Song, and Min Li

Subjects
small interfering RNA, gene therapy, targeted therapy, chitosan, hepatocellular carcinoma, drug delivery, Biotechnology, TP248.13-248.65
Abstract

As a gene therapy strategy, RNA interference (RNAi) offers tremendous tumor therapy potential. However, its therapeutic efficacy is restricted by its inferior ability for targeted delivery and cellular uptake of small interfering RNA (siRNA). This study sought to develop a dual-ligand nanoparticle (NP) system loaded with siRNA to promote targeted delivery and therapeutic efficacy. We synthesized a dual receptor-targeted chitosan nanosystem (GCGA), whose target function was controlled by the ligands of galactose of lactobionic acid (LA) and glycyrrhetinic acid (GA). By loading siPAK1, an siRNA targeting P21-activated kinase 1 (PAK1), a molecular-targeted therapeutic dual-ligand NP (GCGA–siPAK1) was established. We investigated the synergistic effect of these two targeting units in hepatocellular carcinoma (HCC). In particular, GCGA–siPAK1 enhanced the NP targeting ability and promoted siPAK1 cell uptake. Subsequently, dramatic decreases in cell proliferation, invasion, and migration, with an apparent increase in cell apoptosis, were observed in treated cells. Furthermore, this dual-ligand NP gene delivery system demonstrated significant anti-tumor effects in tumor-bearing mice. Finally, we illuminated the molecular mechanism, whereby GCGA–siPAK1 promotes endogenous cell apoptosis through the PAK1/MEK/ERK pathway. Thus, the dual-target property effectively promotes the HCC therapeutic effect and provides a promising gene therapy strategy for clinical applications.

Published
2020
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3. P-21-activated kinase 1 contributes to tumor angiogenesis upon photodynamic therapy via the HIF-1α/VEGF pathway

Author

Shuai Jiang, Yang Gao, Zi Fang Song, Min Li, Shao Bo Hu, Qi Chang Zheng, Qi Hong Yu, and Xiang Cheng

Subjects
Vascular Endothelial Growth Factor A, 0301 basic medicine, Proteasome Endopeptidase Complex, medicine.medical_treatment, Biophysics, Alpha (ethology), Photodynamic therapy, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Hypoxia-Inducible Factor 1-Alpha, 0302 clinical medicine, PAK1, Downregulation and upregulation, Cell Line, Tumor, Human Umbilical Vein Endothelial Cells, Humans, Medicine, Molecular Biology, Gene knockdown, Neovascularization, Pathologic, business.industry, Kinase, Ubiquitination, Cell Biology, Hypoxia-Inducible Factor 1, alpha Subunit, Vascular endothelial growth factor, 030104 developmental biology, Photochemotherapy, p21-Activated Kinases, chemistry, 030220 oncology & carcinogenesis, Proteolysis, Cancer research, business, Signal Transduction
Abstract

Photodynamic therapy (PDT) is an effective oncotherapy and has been approved for clinical application. Unfortunately, its therapeutic efficacy is usually overshadowed by tumor angiogenesis. Thus, a detailed understanding of the tumor angiogenesis upon PDT is imperative. This study aimed to investigate the potential contribution and mechanism of P-21-activated kinase 1 (PAK1) in PDT-induced tumor angiogenesis. Firstly, we found that PAK1 was upregulated upon PDT and associated with tumor angiogenesis. Then, we elucidated the underlying molecular mechanism. Activation of PAK1 prevents hypoxia-inducible factor 1 alpha (HIF-1α) protein from ubiquitin-mediated degradation. Thereafter, HIF-1α accumulation results in the upregulation of vascular endothelial growth factor (VEGF), thus promoting tumor angiogenesis. More importantly, we determined that PAK1 knockdown effectually repressed tumor angiogenesis, which contributes to enhance the therapeutic effect of PDT. Together, PAK1 is a potential novel pharmaceutical target for inhibiting PDT-induced tumor angiogenesis, and PAK1 suppression in combination with PDT may be a potentially effective strategy for anti-tumor therapy.

Published
2020
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4. Corrigendum: Dual-Targeting Nanoparticle-Mediated Gene Therapy Strategy for Hepatocellular Carcinoma by Delivering Small Interfering RNA

Author

Chen Zhang, Yu Zhe Wu, Min Li, Ping Sun, Shao Bo Hu, Qi Chang Zheng, Zi Fang Song, Xiang Cheng, Yong Zhang, Dan Shang, Yang Gao, and Shuai Jiang

Subjects
0301 basic medicine, MAPK/ERK pathway, Small interfering RNA, Histology, Genetic enhancement, medicine.medical_treatment, lcsh:Biotechnology, Cell, Biomedical Engineering, Bioengineering, 02 engineering and technology, Gene delivery, 010402 general chemistry, 01 natural sciences, Targeted therapy, 03 medical and health sciences, RNA interference, lcsh:TP248.13-248.65, medicine, Original Research, Chemistry, Bioengineering and Biotechnology, Correction, hepatocellular carcinoma, 021001 nanoscience & nanotechnology, targeted therapy, small interfering RNA, gene therapy, 0104 chemical sciences, 030104 developmental biology, medicine.anatomical_structure, Drug delivery, drug delivery, Cancer research, chitosan, 0210 nano-technology, Biotechnology
Abstract

As a gene therapy strategy, RNA interference (RNAi) offers tremendous tumor therapy potential. However, its therapeutic efficacy is restricted by its inferior ability for targeted delivery and cellular uptake of small interfering RNA (siRNA). This study sought to develop a dual-ligand nanoparticle (NP) system loaded with siRNA to promote targeted delivery and therapeutic efficacy. We synthesized a dual receptor-targeted chitosan nanosystem (GCGA), whose target function was controlled by the ligands of galactose of lactobionic acid (LA) and glycyrrhetinic acid (GA). By loading siPAK1, an siRNA targeting P21-activated kinase 1 (PAK1), a molecular-targeted therapeutic dual-ligand NP (GCGA–siPAK1) was established. We investigated the synergistic effect of these two targeting units in hepatocellular carcinoma (HCC). In particular, GCGA–siPAK1 enhanced the NP targeting ability and promoted siPAK1 cell uptake. Subsequently, dramatic decreases in cell proliferation, invasion, and migration, with an apparent increase in cell apoptosis, were observed in treated cells. Furthermore, this dual-ligand NP gene delivery system demonstrated significant anti-tumor effects in tumor-bearing mice. Finally, we illuminated the molecular mechanism, whereby GCGA–siPAK1 promotes endogenous cell apoptosis through the PAK1/MEK/ERK pathway. Thus, the dual-target property effectively promotes the HCC therapeutic effect and provides a promising gene therapy strategy for clinical applications.

Published
2021
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5. Safe and Effective Production of Coal Mine Promoted by Coalbed Methane Reclamation

Author

Yan Hui Xu, Jun Deng, Hua Jiang, and Shao Bo Hu

Subjects
Engineering, Waste management, Coalbed methane, Land reclamation, business.industry, Gas explosion, Coal field, General Engineering, Coal mining, New energy, Production (economics), Energy consumption, business
Abstract

Along with the rapid increase of energy consumption of China, more attention has been paid to the CBM as one kind of clean and high-quality energy. CBM is the greatest threat to the coal mining. If CBM is extracted and well used before coal mining, the environment will be improved and gas explosion accident in coal mine will be obviously diminished. The exploit and advantage of CBM improves the coal field exploration degree and coal mine production safety and efficiency.

Published
2012
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6. Chinese herbal injections in combination with radiotherapy for advanced pancreatic cancer: A systematic review and network meta-analysis

Author

Yun-Ru Chen, Ruo-Tong Zhao, Yi-Fang Xu, Yin-Jie Ma, Shao-Bo Hu, Xue-Hui Wang, Bing-Bing Fan, Yan-Ji Zhou, Yu-Bei Huang, Nicola Robinson, Jian-Ping Liu, and Zhao-Lan Liu

Subjects
Bayesian network meta-analysis, Compound Kushen injection, Integrative therapy, Radiotherapy, Pancreatic cancer, Miscellaneous systems and treatments, RZ409.7-999
Abstract

Background: Advanced pancreatic cancer (APC) is a fatal disease with limited treatment options. This study aims to evaluate the effectiveness and safety of different Chinese herbal injections (CHIs) as adjuvants for radiotherapy (RT) in APC and compare their treatment potentials using network meta-analysis. Methods: We systematically searched three English and four Chinese databases for randomized controlled trials (RCTs) from inception to July 25, 2023. The primary outcome was the objective response rate (ORR). Secondary outcomes included Karnofsky performance status (KPS) score, overall survival (OS), and adverse events (AEs). The treatment potentials of different CHIs were ranked using the surface under the cumulative ranking curve (SUCRA). The Cochrane RoB 2 tool and CINeMA were used for quality assessment and evidence grading. Results: Eighteen RCTs involving 1199 patients were included. Five CHIs were evaluated. Compound Kushen injection (CKI) combined with RT significantly improved ORR compared to RT alone (RR 1.49, 95 % CrI 1.21–1.86). Kanglaite (KLT) plus RT (RR 1.58, 95 % CrI 1.20–2.16) and CKI plus RT (RR 1.49, 95 % CrI 1.16–1.95) were associated with improved KPS score compared to radiation monotherapy, with KLT+RT being the highest rank (SUCRA 72.28 %). Regarding AEs, CKI plus RT was the most favorable in reducing the incidence of leukopenia (SUCRA 90.37 %) and nausea/vomiting (SUCRA 85.79 %). Conclusions: CKI may be the optimal choice of CHIs to combine with RT for APC as it may improve clinical response, quality of life, and reduce AEs. High-quality trials are necessary to establish a robust body of evidence. Protocol registration: PROSPERO, CRD42023396828.

Published
2023
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