Background:Colorectal cancer(CRC)represents a substantial risk to public health.Bevacizumab,thefirst US FDA-approved antiangiogenic drug(AAD)for human CRC treatment,faces resistance in patients.The role of lipid metabo...Background:Colorectal cancer(CRC)represents a substantial risk to public health.Bevacizumab,thefirst US FDA-approved antiangiogenic drug(AAD)for human CRC treatment,faces resistance in patients.The role of lipid metabolism,particularly through OPA3-regulated lipid droplet production,in overcoming this resistance is under investigation.Methods:The protein expression pattern of OPA3 in CRC primary/normal tissues was evaluated by bioinformatics analysis.OPA3-overexpressed SW-480 and HCT-116 cell lines were established,and bevacizumab resistance and OPA3 effects on cell malignancy were examined.OPA3 protein/mRNA expression and lipid droplet-related genes were measured with Western blot and qRT-PCR.OPA3 subcellular localization was detected using immunofluorescence.Proliferation and apoptosis were assessed via colony formation andflow cytometry.Tube formation assays were conducted to assess the angiogenic potential of human umbilical vein endothelial cells(HUVECs).Lipid analysis was used to measure the phosphatidylcholine(PC)and lysophosphatidylcholine(LPC)levels in CRC cells.Results:Bioinformatics analysis revealed that OPA3 was downregulated in CRC.Overexpression of OPA3 inhibited CRC cell proliferation,stimulated apoptosis,and suppressed the angiogenic ability of HUVECs.OPA3 effectively reversed the resistance of CRC cells to bevacizumab and decreased lipid droplet production in CRC cells.Additionally,OPA3 reversed the bevacizumab-induced lipid droplet production in CRC cells,thereby increasing CRC cell sensitivity to bevacizumab treatment.Conclusion:This study suggests that OPA3 modulates lipid metabolism in CRC cells and reduces resistance to bevacizumab in CRC cells.Therefore,OPA3 may be a potential therapeutic target against the AAD resistance in CRC.展开更多
Mitochondria undergo morphological changes during spermatogenesis in some animals.The mechanism and role of mitochondrial morphology regulation,however,remain somewhat unclear.In this study,we analyzed the molecular c...Mitochondria undergo morphological changes during spermatogenesis in some animals.The mechanism and role of mitochondrial morphology regulation,however,remain somewhat unclear.In this study,we analyzed the molecular characteristics,expression dynamics and subcellular localization of optic atrophy protein 1(OPA1),a mitochondrial fusion and cristae maintenance-related protein,to reveal the possible regulatory mechanisms underlying mitochondrial morphology in Phascolosoma esculenta spermiogenesis.The full-length cDNA of the P.esculenta opa1 gene(Pe-opa1)is 3743 bp in length and encodes 975 amino acids.The Pe-OPA1 protein is highly conservative and includes a transmembrane domain,a GTPase domain,two helical bundle domains,and a lipid-interacting stalk.Gene and protein expression was higher in the coelomic fluid(a site of spermatid development)of male P.esculenta and increased first and then decreased from March to December.Moreover,their expression during the breeding stage was significantly higher than during the non-breeding stage,suggesting that Pe-OPA1 is involved in P.esculenta reproduction.The Pe-OPA1 protein was more abundant in components consisting of many spermatids than in components without,indicating that Pe-OPA1 mainly plays a role in the spermatid in coelomic fluid.Moreover,Pe-OPA1 was mainly detected in the spermatid mitochondria.Immunofluorescence experiments showed that the Pe-OPA1 are constitutively expressed and co-localized with mitochondria during spermiogenesis,suggesting its involvement in P.esculenta spermiogenesis.These results provide evidence for Pe-OPA1's involvement in the regulation of mitochondrial morphology during spermiogenesis.展开更多
In recent times,the impact of typhoon disasters on integrated energy active distribution networks(IEADNs)has received increasing attention,particularly,in terms of effective cascading fault path prediction and enhance...In recent times,the impact of typhoon disasters on integrated energy active distribution networks(IEADNs)has received increasing attention,particularly,in terms of effective cascading fault path prediction and enhanced fault recovery performance.In this study,we propose a modified ORNL-PSerc-Alaska(OPA)model based on optimal power flow(OPF)calculation to forecast IEADN cascading fault paths.We first established the topology and operational model of the IEADNs,and the typical fault scenario was chosen according to the component fault probability and information entropy.The modified OPA model consisted of two layers:An upper-layer model to determine the cascading fault location and a lower-layer model to calculate the OPF by using Yalmip and CPLEX and provide the data to update the upper-layer model.The approach was validated via the modified IEEE 33-node distribution system and two real IEADNs.Simulation results showed that the fault trend forecasted by the novel OPA model corresponded well with the development and movement of the typhoon above the IEADN.The proposed model also increased the load recovery rate by>24%compared to the traditional OPA model.展开更多
文摘Background:Colorectal cancer(CRC)represents a substantial risk to public health.Bevacizumab,thefirst US FDA-approved antiangiogenic drug(AAD)for human CRC treatment,faces resistance in patients.The role of lipid metabolism,particularly through OPA3-regulated lipid droplet production,in overcoming this resistance is under investigation.Methods:The protein expression pattern of OPA3 in CRC primary/normal tissues was evaluated by bioinformatics analysis.OPA3-overexpressed SW-480 and HCT-116 cell lines were established,and bevacizumab resistance and OPA3 effects on cell malignancy were examined.OPA3 protein/mRNA expression and lipid droplet-related genes were measured with Western blot and qRT-PCR.OPA3 subcellular localization was detected using immunofluorescence.Proliferation and apoptosis were assessed via colony formation andflow cytometry.Tube formation assays were conducted to assess the angiogenic potential of human umbilical vein endothelial cells(HUVECs).Lipid analysis was used to measure the phosphatidylcholine(PC)and lysophosphatidylcholine(LPC)levels in CRC cells.Results:Bioinformatics analysis revealed that OPA3 was downregulated in CRC.Overexpression of OPA3 inhibited CRC cell proliferation,stimulated apoptosis,and suppressed the angiogenic ability of HUVECs.OPA3 effectively reversed the resistance of CRC cells to bevacizumab and decreased lipid droplet production in CRC cells.Additionally,OPA3 reversed the bevacizumab-induced lipid droplet production in CRC cells,thereby increasing CRC cell sensitivity to bevacizumab treatment.Conclusion:This study suggests that OPA3 modulates lipid metabolism in CRC cells and reduces resistance to bevacizumab in CRC cells.Therefore,OPA3 may be a potential therapeutic target against the AAD resistance in CRC.
基金the Ningbo Science and Technology Plan Projects(Nos.2019B10016,2016C10004)the Major Science and Technology Projects in Zhejiang Province(No.2011C12013)+1 种基金the Natural Science Foundation of Zhejiang Province(No.LY18C190007)the Collaborative Innovation Center for Zhejiang Marine High-efficiency and Healthy Aquaculture,the K.C.Wong Magna Fund in Ningbo University。
文摘Mitochondria undergo morphological changes during spermatogenesis in some animals.The mechanism and role of mitochondrial morphology regulation,however,remain somewhat unclear.In this study,we analyzed the molecular characteristics,expression dynamics and subcellular localization of optic atrophy protein 1(OPA1),a mitochondrial fusion and cristae maintenance-related protein,to reveal the possible regulatory mechanisms underlying mitochondrial morphology in Phascolosoma esculenta spermiogenesis.The full-length cDNA of the P.esculenta opa1 gene(Pe-opa1)is 3743 bp in length and encodes 975 amino acids.The Pe-OPA1 protein is highly conservative and includes a transmembrane domain,a GTPase domain,two helical bundle domains,and a lipid-interacting stalk.Gene and protein expression was higher in the coelomic fluid(a site of spermatid development)of male P.esculenta and increased first and then decreased from March to December.Moreover,their expression during the breeding stage was significantly higher than during the non-breeding stage,suggesting that Pe-OPA1 is involved in P.esculenta reproduction.The Pe-OPA1 protein was more abundant in components consisting of many spermatids than in components without,indicating that Pe-OPA1 mainly plays a role in the spermatid in coelomic fluid.Moreover,Pe-OPA1 was mainly detected in the spermatid mitochondria.Immunofluorescence experiments showed that the Pe-OPA1 are constitutively expressed and co-localized with mitochondria during spermiogenesis,suggesting its involvement in P.esculenta spermiogenesis.These results provide evidence for Pe-OPA1's involvement in the regulation of mitochondrial morphology during spermiogenesis.
基金supported by the Science and Technology Project of China Southern Power Grid Co.,Ltd.under Grant GDKJXM20222357.
文摘In recent times,the impact of typhoon disasters on integrated energy active distribution networks(IEADNs)has received increasing attention,particularly,in terms of effective cascading fault path prediction and enhanced fault recovery performance.In this study,we propose a modified ORNL-PSerc-Alaska(OPA)model based on optimal power flow(OPF)calculation to forecast IEADN cascading fault paths.We first established the topology and operational model of the IEADNs,and the typical fault scenario was chosen according to the component fault probability and information entropy.The modified OPA model consisted of two layers:An upper-layer model to determine the cascading fault location and a lower-layer model to calculate the OPF by using Yalmip and CPLEX and provide the data to update the upper-layer model.The approach was validated via the modified IEEE 33-node distribution system and two real IEADNs.Simulation results showed that the fault trend forecasted by the novel OPA model corresponded well with the development and movement of the typhoon above the IEADN.The proposed model also increased the load recovery rate by>24%compared to the traditional OPA model.