1.Double-sided role of vibration and shaking Removing vibration and shaking is a pivotal engineering task,which is showcased,for instance,in spacecraft attitude control systems that ensure a precise three-dimensional ...1.Double-sided role of vibration and shaking Removing vibration and shaking is a pivotal engineering task,which is showcased,for instance,in spacecraft attitude control systems that ensure a precise three-dimensional orientation.Vibration or shaking,such as precession caused by external torque,nutation stemming from off-axis angular momentum,and wobbling due to geometric misalignment,necessitate active and passive damping mechanisms.This principle extends beyond spacecraft to centrifugation techniques,pivotal not only in washing machines but also in a spectrum of biomedical apparatuses used for isolating cells and organelles and separating DNA and proteins.展开更多
Market drugs,suchas Foodand Drug Administration(FDA)or European Medicines Agency(EMA)-approved drugs for specific indications provide opportunities for repurposing for newer therapeutics.This potentially saves resourc...Market drugs,suchas Foodand Drug Administration(FDA)or European Medicines Agency(EMA)-approved drugs for specific indications provide opportunities for repurposing for newer therapeutics.This potentially saves resources invested in clinical trials that verify drug safety and tolerance in humans prior to alternative indication approval.Protein arginine methyltransferase 5(PRMT5)overexpression has been linked to promoting the tumor phenotype in several cancers,including pancreatic ductal adenocarcinoma(PDAC),colorectal cancer(CRC),and breast cancer(BC),making PRMT5 an important target for cancer therapy.Previously,we showed that PRMT5-mediated methylation of the nuclear factor(NF)-kB,partially contributes to its constitutive activation observed in cancers.In this study,we utilized an AlphaLiSA-based high-throughput screening method adapted in our lab,and identified one FDA-approved drug,Candesartan cilexetil(Can,used in hypertension treatment)and one EMA-approved drug,Cloperastine hydrochloride(Clo,used in cough treatment)that had significant PRMT5-inhibitory activity,and their anti-tumor properties were validated using cancer phenotypic assays in vitro.Furthermore,PRMT5 selective inhibition of methyltransferase activity was confirmed by reduction of both NF-kB methylation and its subsequent activation upon drug treatment.Using in silico prediction,we identified critical residues on PRMT5 targeted by these drugs that may interfere with its enzymatic activity.Finally,Clo and Can treatment have exhibited marked reduction in tumor growth in vivo.Overall,we provide basis for pursuing repurposing Clo and Can as anti-PRMT5 cancer therapies.Our study offers potential safe and fast repurposing of previously unknown PRMT5 inhibitors into clinical practice.展开更多
文摘1.Double-sided role of vibration and shaking Removing vibration and shaking is a pivotal engineering task,which is showcased,for instance,in spacecraft attitude control systems that ensure a precise three-dimensional orientation.Vibration or shaking,such as precession caused by external torque,nutation stemming from off-axis angular momentum,and wobbling due to geometric misalignment,necessitate active and passive damping mechanisms.This principle extends beyond spacecraft to centrifugation techniques,pivotal not only in washing machines but also in a spectrum of biomedical apparatuses used for isolating cells and organelles and separating DNA and proteins.
基金This work was supported by grants from Indiana Center for Technology and Science Innovation(CTSl),USA(No.2286230 to TL)and Indiana Drug Discovery Alliance(IDDA),USA(No.2286233 to TL),both are funded in part by National Institutes of Health,USA(No.UL1TR002529)National Institutes of Health,USA(No.1R01GM120156-01A1 to TL+5 种基金No.R03 CA223906-01 to TL)This work was also supported by National Institutes of Health,USA(No.P41-GM103426 and DP20D007237 to REA),National Science Foundation,USA(No.CHE060073N to REA)National Institutes of Health,USA(No.R01 CA069202 to ZYZ)MLF and MRK were supported by IUSCCC Cancer Center,USA(No.P30 CA082709),National Institutes of Health,USA(No.R01CA167291and R01CA254110).MRK was also supported by National Institutes of Health,USA(No.R01CA205166,R01CA231267,and R01HL140961)MLF was also supported by National Institutes of Health,USA(No.R01CA211098,U01HL143403,and NF180045)MLF and MRK were additionally supported by the Riley Children's Foundation,USA.
文摘Market drugs,suchas Foodand Drug Administration(FDA)or European Medicines Agency(EMA)-approved drugs for specific indications provide opportunities for repurposing for newer therapeutics.This potentially saves resources invested in clinical trials that verify drug safety and tolerance in humans prior to alternative indication approval.Protein arginine methyltransferase 5(PRMT5)overexpression has been linked to promoting the tumor phenotype in several cancers,including pancreatic ductal adenocarcinoma(PDAC),colorectal cancer(CRC),and breast cancer(BC),making PRMT5 an important target for cancer therapy.Previously,we showed that PRMT5-mediated methylation of the nuclear factor(NF)-kB,partially contributes to its constitutive activation observed in cancers.In this study,we utilized an AlphaLiSA-based high-throughput screening method adapted in our lab,and identified one FDA-approved drug,Candesartan cilexetil(Can,used in hypertension treatment)and one EMA-approved drug,Cloperastine hydrochloride(Clo,used in cough treatment)that had significant PRMT5-inhibitory activity,and their anti-tumor properties were validated using cancer phenotypic assays in vitro.Furthermore,PRMT5 selective inhibition of methyltransferase activity was confirmed by reduction of both NF-kB methylation and its subsequent activation upon drug treatment.Using in silico prediction,we identified critical residues on PRMT5 targeted by these drugs that may interfere with its enzymatic activity.Finally,Clo and Can treatment have exhibited marked reduction in tumor growth in vivo.Overall,we provide basis for pursuing repurposing Clo and Can as anti-PRMT5 cancer therapies.Our study offers potential safe and fast repurposing of previously unknown PRMT5 inhibitors into clinical practice.
