2.Metabolic dysregulation and emerging therapeutical targets for hepatocellular carcinoma.
Danyu DU ; Chan LIU ; Mengyao QIN ; Xiao ZHANG ; Tao XI ; Shengtao YUAN ; Haiping HAO ; Jing XIONG
Acta Pharmaceutica Sinica B 2022;12(2):558-580
Hepatocellular carcinoma (HCC) is an aggressive human cancer with increasing incidence worldwide. Multiple efforts have been made to explore pharmaceutical therapies to treat HCC, such as targeted tyrosine kinase inhibitors, immune based therapies and combination of chemotherapy. However, limitations exist in current strategies including chemoresistance for instance. Tumor initiation and progression is driven by reprogramming of metabolism, in particular during HCC development. Recently, metabolic associated fatty liver disease (MAFLD), a reappraisal of new nomenclature for non-alcoholic fatty liver disease (NAFLD), indicates growing appreciation of metabolism in the pathogenesis of liver disease, including HCC, thereby suggesting new strategies by targeting abnormal metabolism for HCC treatment. In this review, we introduce directions by highlighting the metabolic targets in glucose, fatty acid, amino acid and glutamine metabolism, which are suitable for HCC pharmaceutical intervention. We also summarize and discuss current pharmaceutical agents and studies targeting deregulated metabolism during HCC treatment. Furthermore, opportunities and challenges in the discovery and development of HCC therapy targeting metabolism are discussed.
3.Role of lipocalin-2 in the development and progression of liver diseases
Zhengguang LIAO ; Shihui WEI ; Danyu DU ; Li SUN ; Shengtao YUAN
Journal of Clinical Hepatology 2022;38(9):2177-2181
Lipocalin-2 (LCN2) is a secreted glycoprotein originally purified from mouse kidney cells infected with simian virus 40 and plays a key role in the control of cellular homeostasis during inflammation and the response to cellular stress or injury, and it is considered a potential biomarker for rheumatic diseases, cancer, liver diseases, and inflammatory diseases. Studies have shown that LCN2 is expressed in hepatic parenchymal and nonparenchymal cells and is secreted into the bloodstream, and it is closely associated with the development and progression of acute liver injury, liver cirrhosis, viral hepatitis, alcoholic liver disease, nonalcoholic fatty liver disease, and hepatocellular carcinoma. This article summarizes the animal experiments and clinical studies on the association of LCN2 with the pathogenesis of liver diseases, in order to provide new ideas and therapeutic targets for the prevention and treatment of liver diseases.
4.Impeding the combination of astrocytic ASCT2 and NLRP3 by talniflumate alleviates neuroinflammation in experimental models of Parkinson's disease.
Yang LIU ; Ting LIU ; Yuanzhang ZHOU ; Wenjie LI ; Min WANG ; Nanshan SONG ; Wenbin ZHANG ; Jingwei JIANG ; Shengtao YUAN ; Jianhua DING ; Gang HU ; Ming LU
Acta Pharmaceutica Sinica B 2023;13(2):662-677
Alanine-serine-cysteine transporter 2 (ASCT2) is reported to participate in the progression of tumors and metabolic diseases. It is also considered to play a crucial role in the glutamate-glutamine shuttle of neuroglial network. However, it remains unclear the involvement of ASCT2 in neurological diseases such as Parkinson's disease (PD). In this study, we demonstrated that high expression of ASCT2 in the plasma samples of PD patients and the midbrain of MPTP mouse models is positively correlated with dyskinesia. We further illustrated that ASCT2 expressed in astrocytes rather than neurons significantly upregulated in response to either MPP+ or LPS/ATP challenge. Genetic ablation of astrocytic ASCT2 alleviated the neuroinflammation and rescued dopaminergic (DA) neuron damage in PD models in vitro and in vivo. Notably, the binding of ASCT2 to NLRP3 aggravates astrocytic inflammasome-triggered neuroinflammation. Then a panel of 2513 FDA-approved drugs were performed via virtual molecular screening based on the target ASCT2 and we succeed in getting the drug talniflumate. It is validated talniflumate impedes astrocytic inflammation and prevents degeneration of DA neurons in PD models. Collectively, these findings reveal the role of astrocytic ASCT2 in the pathogenesis of PD, broaden the therapeutic strategy and provide a promising candidate drug for PD treatment.
5.Preclinical efficacy against acute myeloid leukaemia of SH1573, a novel mutant IDH2 inhibitor approved for clinical trials in China.
Zhiqiang WANG ; Zhibo ZHANG ; Yong LI ; Li SUN ; Dezhen PENG ; Danyu DU ; Xian ZHANG ; Luwei HAN ; Liwen ZHAO ; Ligong LU ; Hongzhi DU ; Shengtao YUAN ; Meixiao ZHAN
Acta Pharmaceutica Sinica B 2021;11(6):1526-1540
Acute myeloid leukaemia (AML) is the most common form of acute leukaemia in adults, with increasing incidence with age and a generally poor prognosis. Almost 20% of AML patients express mutant isocitrate dehydrogenase 2 (mIDH2), which leads to the accumulation of the carcinogenic metabolite 2-hydroxyglutarate (2-HG), resulting in poor prognosis. Thus, global institutions have been working to develop mIDH2 inhibitors. SH1573 is a novel mIDH2 inhibitor that we independently designed and synthesised. We have conducted a comprehensive study on its pharmacodynamics, pharmacokinetics and safety. First, SH1573 exhibited a strong selective inhibition of mIDH2 R140Q protein, which could effectively reduce the production of 2-HG in cell lines, serum and tumors of an animal model. It could also promote the differentiation of mutant AML cell lines and granulocytes in PDX models. Then, it was confirmed that SH1573 possessed characteristics of high bioavailability, good metabolic stability and wide tissue distribution. Finally, toxicological data showed that SH1573 had no effects on the respiratory system, cardiovascular system and nervous system, and was genetically safe. This research successfully promoted the approval of SH1573 for clinical trials (CTR20200247). All experiments demonstrated that, as a potential drug against mIDH2 R140Q acute myeloid leukaemia, SH1573 was effective and safe.