Ling-Han Jiang scite author profile

Oxidative damage can lead to a wide range of diseases. Nrf2 is an important transcription factor that regulates many of the cytoprotective enzymes involved in the oxidative stress response. Therefore, targeting the regulation of Nrf2 activation is one logical and effective strategy to prevent or lower the risk of oxidative stress-related diseases. Until now, most research has focused on electrophilic indirect Nrf2 activators, but the risk of ‘off-target’ effects may be associated with these activators. To find novel small non-electrophilic modulators of Nrf2, we started from chemical agents derived from a connectivity map (cMap) and identified 22 non-electrophilic potential Nrf2-activating drugs through a drug repositioning tactic. By determining the expression changes of antioxidant genes in MCF7 cells that were treated with the potential Nrf2 activators using quantitative real-time polymerase chain reaction RT-PCR (real-time polymerase chain reaction) (qRT-PCR), astemizole was found to have a greater scale of upregulating antioxidant genes NQO1, HO-1, and GCLM than the positive control d,l-sulforaphane, although the testing concentration was lower than that of the control. Astemizole is a good potential redox regulator and deserves more pharmacodynamic experimentation to test and verify its feasibility for use as an Nrf2 activator.

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Evolutionary Origins of Cancer Driver Genes and Implications for Cancer Prognosis

Chu

Jiang

Zhou

et al. 2017

Genes

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The cancer atavistic theory suggests that carcinogenesis is a reverse evolution process. It is thus of great interest to explore the evolutionary origins of cancer driver genes and the relevant mechanisms underlying the carcinogenesis. Moreover, the evolutionary features of cancer driver genes could be helpful in selecting cancer biomarkers from high-throughput data. In this study, through analyzing the cancer endogenous molecular networks, we revealed that the subnetwork originating from eukaryota could control the unlimited proliferation of cancer cells, and the subnetwork originating from eumetazoa could recapitulate the other hallmarks of cancer. In addition, investigations based on multiple datasets revealed that cancer driver genes were enriched in genes originating from eukaryota, opisthokonta, and eumetazoa. These results have important implications for enhancing the robustness of cancer prognosis models through selecting the gene signatures by the gene age information.

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The complete mitochondrial genome of Cryptalaus larvatus (Coleoptera: Elateridae)

Wan

et al. 2020

Mitochondrial DNA Part B

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In this study, we sequenced the first complete mitochondrial genome of Cryptalaus larvatus. The complete mitochondrial genome of C. larvatus was 15,876 bp with 29.80% GC containing 13 protein-coding genes, 22 transfer RNA (tRNA), two ribosomal RNA (rRNA), as well as and an AT-rich region. Phylogenetic analysis showed that the C. larvatus, Pyrophprus divergens, Ignelater luminosus, Hapsodrilus ignifer, and Dicronychus cinereus were clustered together. This study provides important information for the identification of this species and the study of genetic evolution with other species of Elateridae.

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Ling-Han Jiang

Identification of Non-Electrophilic Nrf2 Activators from Approved Drugs

Evolutionary Origins of Cancer Driver Genes and Implications for Cancer Prognosis

The complete mitochondrial genome of Cryptalaus larvatus (Coleoptera: Elateridae)

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