Your search keyword '"Zhijian Cao"' showing total 5 results

1. Diverse Structural Features of Potassium Channels Characterized by Scorpion Toxins as Molecular Probes

Author

Yonghui Zhao, Zhijian Cao, Zongyun Chen, Wenxin Li, and Yingliang Wu

Subjects

Models, Molecular, Potassium Channels, scorpion toxin, Scorpion, Molecular Conformation, Pharmaceutical Science, Scorpion Venoms, Peptide, Review, half-open or half-closed channel conformation, complex mixtures, Analytical Chemistry, lcsh:QD241-441, Scorpions, 03 medical and health sciences, Closed state, Structure-Activity Relationship, lcsh:Organic chemistry, biology.animal, closed channel conformation, Drug Discovery, Potassium Channel Blockers, Animals, Humans, Amino Acid Sequence, Physical and Theoretical Chemistry, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Scorpion toxin, Binding Sites, biology, channel turret, 030302 biochemistry & molecular biology, Organic Chemistry, Potassium channel, chemistry, Chemistry (miscellaneous), Molecular Probes, open channel conformation, Biophysics, Molecular Medicine, Molecular probe, Toxin binding, potassium channel, Protein Binding

Abstract

Scorpion toxins are well-known as the largest potassium channel peptide blocker family. They have been successfully proven to be valuable molecular probes for structural research on diverse potassium channels. The potassium channel pore region, including the turret and filter regions, is the binding interface for scorpion toxins, and structural features from different potassium channels have been identified using different scorpion toxins. According to the spatial orientation of channel turrets with differential sequence lengths and identities, conformational changes and molecular surface properties, the potassium channel turrets can be divided into the following three states: open state with less hindering effects on toxin binding, half-open state or half-closed state with certain effects on toxin binding, and closed state with remarkable effects on toxin binding. In this review, we summarized the diverse structural features of potassium channels explored using scorpion toxin tools and discuss future work in the field of scorpion toxin-potassium channel interactions.

Published

2019

2. A Scorpion Defensin BmKDfsin4 Inhibits Hepatitis B Virus Replication in Vitro.

Author

Zhengyang Zeng, Qian Zhang, Wei Hong, Yingqiu Xie, Yun Liu, Wenxin Li, Yingliang Wu, and Zhijian Cao

Subjects

HEPATITIS B, VIRAL replication, PUBLIC health, CIRRHOSIS of the liver, CANCER risk factors, LIVER cancer, NUCLEOTIDE analysis, DISEASE risk factors

Abstract

Hepatitis B virus (HBV) infection is a major worldwide health problem which can cause acute and chronic hepatitis and can significantly increase the risk of liver cirrhosis and primary hepatocellular carcinoma (HCC). Nowadays, clinical therapies of HBV infection still mainly rely on nucleotide analogs and interferons, the usage of which is limited by drug-resistant mutation or side effects. Defensins had been reported to effectively inhibit the proliferation of bacteria, fungi, parasites and viruses. Here, we screened the anti-HBV activity of 25 scorpion-derived peptides most recently characterized by our group. Through evaluating anti-HBV activity and cytotoxicity, we found that BmKDfsin4, a scorpion defensin with antibacterial and Kv1.3-blocking activities, has a comparable high inhibitory rate of both HBeAg and HBsAg in HepG2.2.15 culture medium and low cytotoxicity to HepG2.2.15. Then, our experimental results further showed that BmKDfsin4 can dose-dependently decrease the production of HBV DNA and HBV viral proteins in both culture medium and cell lysate. Interestingly, BmKDfsin4 exerted high serum stability. Together, this study indicates that the scorpion defensin BmKDfsin4 also has inhibitory activity against HBV replication along with its antibacterial and potassium ion channel Kv1.3-blocking activities, which shows that BmKDfsin4 is a uniquely multifunctional defensin molecule. Our work also provides a good molecule material which will be used to investigate the link or relationship of its antiviral, antibacterial and ion channel–modulating activities in the future. [ABSTRACT FROM AUTHOR]

Published

2016

3. The Scorpion Toxin Analogue BmKTX-D33H as a Potential Kv1.3 Channel-Selective Immunomodulator for Autoimmune Diseases.

Author

Fang Ye, Youtian Hu, Weiwei Yu, Zili Xie, Jun Hu, Zhijian Cao, Wenxin Li, and Yingliang Wu

Abstract

The Kv1.3 channel-acting scorpion toxins usually adopt the conserved anti-parallel -sheet domain as the binding interface, but it remains challenging to discover some highly selective Kv1.3 channel-acting toxins. In this work, we investigated the pharmacological profile of the Kv1.3 channel-acting BmKTX-D33H, a structural analogue of the BmKTX scorpion toxin. Interestingly, BmKTX-D33H, with its conserved anti-parallel -sheet domain as a Kv1.3 channel-interacting interface, exhibited more than 1000-fold selectivity towards the Kv1.3 channel as compared to other K+ channels (including Kv1.1, Kv1.2, Kv1.7, Kv11.1, KCa2.2, KCa2.3, and KCa3.1). As expected, BmKTX-D33H was found to inhibit the cytokine production and proliferation of both Jurkat cells and human T cells in vitro. It also significantly improved the delayed-type hypersensitivity (DTH) responses, an autoreactive T cell-mediated inflammation in rats. Amino acid sequence alignment and structural analysis strongly suggest that the “evolutionary” Gly11 residue of BmKTX-D33H interacts with the turret domain of Kv1 channels; it appears to be a pivotal amino acid residue with regard to the selectivity of BmKTX-D33H towards the Kv1.3 channel (in comparison with the highly homologous scorpion toxins). Together, our data indicate that BmKTX-D33H is a Kv1.3 channel–specific blocker. Finally, the remarkable selectivity of BmKTX-D33H highlights the great potential of evolutionary-guided peptide drug design in future studies. [ABSTRACT FROM AUTHOR]

Published

2016

4. Plectasin, First Animal Toxin-Like Fungal Defensin Blocking Potassium Channels through Recognizing Channel Pore Region.

Author

Fang Xiang, Zili Xie, Jing Feng, Weishan Yang, Zhijian Cao, Wenxin Li, Zongyun Chen, and Yingliang Wu

Subjects

DEFENSINS, POTASSIUM antagonists, POTASSIUM channels, ARACHNID toxins, MUTAGENESIS, SCORPIONS

Abstract

The potassium channels were recently found to be inhibited by animal toxin-like human β-defensin 2 (hBD2), the first defensin blocker of potassium channels. Whether there are other defensin blockers from different organisms remains an open question. Here, we reported the potassium channel-blocking plectasin, the first defensin blocker from a fungus. Based on the similar cysteine-stabilized alpha-beta (CSαβ) structure between plectasin and scorpion toxins acting on potassium channels, we found that plectasin could dose-dependently block Kv1.3 channel currents through electrophysiological experiments. Besides Kv1.3 channel, plectasin could less inhibit Kv1.1, Kv1.2, IKCa, SKCa3, hERG and KCNQ channels at the concentration of 1 µM. Using mutagenesis and channel activation experiments, we found that outer pore region of Kv1.3 channel was the binding site of plectasin, which is similar to the interacting site of Kv1.3 channel recognized by animal toxin blockers. Together, these findings not only highlight the novel function of plectasin as a potassium channel inhibitor, but also imply that defensins from different organisms functionally evolve to be a novel kind of potassium channel inhibitors. [ABSTRACT FROM AUTHOR]

Published

2015

5. Overview of Scorpion Species from China and Their Toxins.

Author

Zhijian Cao, Zhiyong Di, Yingliang Wu, and Wenxin Li

Subjects

*SCORPIONS, *SPECIES, *ANIMAL morphology, *TOXINS

Abstract

Scorpions are one of the most ancient groups of terrestrial animals. They have maintained a steady morphology over more than 400 million years of evolution. Their venom arsenals for capturing prey and defending against predators may play a critical role in their ancient and conservative appearance. In the current review, we present the scorpion fauna of China: 53 species covering five families and 12 genera. We also systematically list toxins or genes from Chinese scorpion species, involving eight species covering four families. Furthermore, we review the diverse functions of typical toxins from Chinese scorpion species, involving Na+ channel modulators, K+ channel blockers, antimicrobial peptides and protease inhibitors. Using scorpion species and their toxins from China as an example, we build the bridge between scorpion species and their toxins, which helps us to understand the molecular and functional diversity of scorpion venom arsenal, the dynamic and functional evolution of scorpion toxins, and the potential relationships of scorpion species and their toxins. (Z.D.) [ABSTRACT FROM AUTHOR]

Published

2014