With the development of proteomics and epigenetics,a large number of RNA-binding proteins(RBPs)have been discovered in recent years,and the inter-action between long non-coding RNAs(lncRNAs)and RBPs has also received ...With the development of proteomics and epigenetics,a large number of RNA-binding proteins(RBPs)have been discovered in recent years,and the inter-action between long non-coding RNAs(lncRNAs)and RBPs has also received increasing attention.It is extremely important to conduct in-depth research on the lncRNA-RBP interaction network,especially in the context of its role in the occurrence and development of cancer.Increasing evidence has demonstrated that lncRNA-RBP interactions play a vital role in cancer progression;there-fore,targeting these interactions could provide new insights for cancer drug discovery.In this review,we discussed how lncRNAs can interact with RBPs to regulate their localization,modification,stability,and activity and discussed the effects of RBPs on the stability,transport,transcription,and localization of lncRNAs.Moreover,we explored the regulation and influence of these inter-actions on lncRNAs,RBPs,and downstream pathways that are related to can-cer development,such as N6-methyladenosine(m6A)modification of lncRNAs.In addition,we discussed how the lncRNA-RBP interaction network regulates cancer cell phenotypes,such as proliferation,apoptosis,metastasis,drug resis-tance,immunity,tumor environment,and metabolism.Furthermore,we sum-marized the therapeutic strategies that target the lncRNA-RBP interaction net-work.Although these treatments are still in the experimental stage and various theories and processes are still being studied,we believe that these strategiesmay provide new ideas for cancer treatment.展开更多
As one of the hallmarks of cancer,metabolic reprogramming leads to cancer progression,and targeting glycolytic enzymes could be useful strategies for cancer therapy.By screening a small molecule library consisting of ...As one of the hallmarks of cancer,metabolic reprogramming leads to cancer progression,and targeting glycolytic enzymes could be useful strategies for cancer therapy.By screening a small molecule library consisting of 1320 FDA-approved drugs,we found that penfluridol,an antipsychotic drug used to treat schizophrenia,could inhibit glycolysis and induce apoptosis in esophageal squamous cell carcinoma(ESCC).Gene profiling and Ingenuity Pathway Analysis suggested the important role of AMPK in action mechanism of penfluridol.By using drug affinity responsive target stability(DARTS)technology and proteomics,we identified phosphofructokinase,liver type(PFKL),a key enzyme in glycolysis,as a direct target of penfluridol.Penfluridol could not exhibit its anticancer property in PFKL-deficient cancer cells,illustrating that PFKL is essential for the bioactivity of penfluridol.High PFKL expression is correlated with advanced stages and poor survival of ESCC patients,and silencing of PFKL significantly suppressed tumor growth.Mechanistically,direct binding of penfluridol and PFKL inhibits glucose consumption,lactate and ATP production,leads to nuclear translocation of FOXO3a and subsequent transcriptional activation of BIM in an AMPK-dependent manner.Taken together,PFKL is a potential prognostic biomarker and therapeutic target in ESCC,and penfluridol may be a new therapeutic option for management of this lethal disease.展开更多
基金supported by the National Key Research andDevelopment Programof China(2021YFC2501000 and 2017YFA0505100)and the National Natural Science Foun-dation of China(31961160727,81973339,and 81773085).
文摘With the development of proteomics and epigenetics,a large number of RNA-binding proteins(RBPs)have been discovered in recent years,and the inter-action between long non-coding RNAs(lncRNAs)and RBPs has also received increasing attention.It is extremely important to conduct in-depth research on the lncRNA-RBP interaction network,especially in the context of its role in the occurrence and development of cancer.Increasing evidence has demonstrated that lncRNA-RBP interactions play a vital role in cancer progression;there-fore,targeting these interactions could provide new insights for cancer drug discovery.In this review,we discussed how lncRNAs can interact with RBPs to regulate their localization,modification,stability,and activity and discussed the effects of RBPs on the stability,transport,transcription,and localization of lncRNAs.Moreover,we explored the regulation and influence of these inter-actions on lncRNAs,RBPs,and downstream pathways that are related to can-cer development,such as N6-methyladenosine(m6A)modification of lncRNAs.In addition,we discussed how the lncRNA-RBP interaction network regulates cancer cell phenotypes,such as proliferation,apoptosis,metastasis,drug resis-tance,immunity,tumor environment,and metabolism.Furthermore,we sum-marized the therapeutic strategies that target the lncRNA-RBP interaction net-work.Although these treatments are still in the experimental stage and various theories and processes are still being studied,we believe that these strategiesmay provide new ideas for cancer treatment.
基金supported by National Natural Science Foundation of China(31961160727,81773085,and 81973339)National Key Research and Development Program of China(2017YFA0505100)Guangdong Natural Science Research Grant International joint project(2021A0505030035,China)。
文摘As one of the hallmarks of cancer,metabolic reprogramming leads to cancer progression,and targeting glycolytic enzymes could be useful strategies for cancer therapy.By screening a small molecule library consisting of 1320 FDA-approved drugs,we found that penfluridol,an antipsychotic drug used to treat schizophrenia,could inhibit glycolysis and induce apoptosis in esophageal squamous cell carcinoma(ESCC).Gene profiling and Ingenuity Pathway Analysis suggested the important role of AMPK in action mechanism of penfluridol.By using drug affinity responsive target stability(DARTS)technology and proteomics,we identified phosphofructokinase,liver type(PFKL),a key enzyme in glycolysis,as a direct target of penfluridol.Penfluridol could not exhibit its anticancer property in PFKL-deficient cancer cells,illustrating that PFKL is essential for the bioactivity of penfluridol.High PFKL expression is correlated with advanced stages and poor survival of ESCC patients,and silencing of PFKL significantly suppressed tumor growth.Mechanistically,direct binding of penfluridol and PFKL inhibits glucose consumption,lactate and ATP production,leads to nuclear translocation of FOXO3a and subsequent transcriptional activation of BIM in an AMPK-dependent manner.Taken together,PFKL is a potential prognostic biomarker and therapeutic target in ESCC,and penfluridol may be a new therapeutic option for management of this lethal disease.
