New insights into ATR inhibition in muscle invasive bladder cancer:The role of apolipoprotein B mRNA editing catalytic subunit 3B

Background:Apolipoprotein B mRNA editing catalytic polypeptide(APOBEC),an endogenous mutator,induces DNA damage and activates the ataxia telangiectasia and Rad3-related(ATR)-checkpoint kinase 1(Chk1)pathway.Although cisplatin-based therapy is the mainstay for muscle-invasive bladder cancer(MIBC),it has a poor survival rate.Therefore,this study aimed to evaluate the efficacy of an ATR inhibitor combined with cisplatin in the treatment of APOBEC catalytic subunit 3B(APOBEC3B)expressing MIBC.Methods:Immunohistochemical staining was performed to analyze an association between APOBEC3B and ATR in patients with MIBC.The APOBEC3B expression in MIBC cell lines was assessed using real-time polymerase chain reaction and western blot analysis.Western blot analysis was performed to confirm differences in phosphorylated Chk1(pChk1)expression according to the APOBEC3B expression.Cell viability and apoptosis analyses were performed to examine the anti-tumor activity of ATR inhibitors combined with cisplatin.Results:There was a significant association between APOBEC3B and ATR expression in the tumor tissues obtained from patients with MIBC.Cells with higher APOBEC3B expression showed higher pChk1 expression than cells expressing low APOBEC3B levels.Combination treatment of ATR inhibitor and cisplatin inhibited cell growth in MIBC cells with a higher APOBEC3B expression.Compared to cisplatin single treatment,combination treatment induced more apoptotic cell death in the cells with higher APOBEC3B expression.Conclusion:Our study shows that APOBEC3B’s higher expression status can enhance the sensitivity of MIBC to cisplatin upon ATR inhibition.This result provides new insight into appropriate patient selection for the effective application of ATR inhibitors in MIBC.

Mutation of DELAYED GREENING1 impairs chloroplast RNA editing at elevated ambient temperature in Arabidopsis

Chloroplasts are important for plant growth and development.RNA editing in chloroplast converts cytidines(Cs)to uridine s(Us)at specific transcript positions and provides a correction mechanism to restore conserved codons or creates start or stop codons.However,the underlined molecular mechanism is not yet fully unders tood.In the present study,we identi fied a thermo-sensi tive mutantin leaf color 1(tst1)and found that TSL1 is allelic to DELAYED GREENING 1(DG1).The mis sense mutation of DG1 in tsl1 mutant confers a high temperature sensitivity and impaired chloroplast development at an elevated ambient temperature in Arabidopsis.Subsequent analysis showed that chloroplast RNA editing at seve ral sites including accD-2568,ndhD-2,and petL-5 is impaired in tsl1 mutant plants grown at an elevated temperature.DG1 interacts with MORF2 and other proteins such as DYW1 and DYW2 involved in chloroplast RNA editing.In vitro RNA electrophoretic mobility shift assay demonstrated that DG1 binds to RNA targets such as accD,ndhD,and petL.Thus,our results revealed that DG1 is important for maintaining chloroplast mRNA editing in Arabidopsis.

Targeting Kindlin-2 in adipocytes increases bone mass through inhibiting FAS/PPARγ/FABP4 signaling in mice

Osteoporosis(OP)is a systemic skeletal disease that primarily affects the elderly population,which greatly increases the risk of fractures.Here we report that Kindlin-2 expression in adipose tissue increases during aging and high-fat diet fed and is accompanied by decreased bone mass.Kindlin-2 specific deletion(K2KO)controlled by Adipoq-Cre mice or adipose tissue-targeting AAV(AAV-Rec2-CasRx-sgK2)significantly increases bone mass.Mechanistically,Kindlin-2 promotes peroxisome proliferator-activated receptor gamma(PPARγ)activation and downstream fatty acid binding protein 4(FABP4)expression through stabilizing fatty acid synthase(FAS),and increased FABP4 inhibits insulin expression and decreases bone mass.Kindlin-2 inhibition results in accelerated FAS degradation,decreased PPARγactivation and FABP4 expression,and therefore increased insulin expression and bone mass.Interestingly,we find that FABP4 is increased while insulin is decreased in serum of OP patients.Increased FABP4 expression through PPARγactivation by rosiglitazone reverses the high bone mass phenotype of K2KO mice.Inhibition of FAS by C75 phenocopies the high bone mass phenotype of K2KO mice.Collectively,our study establishes a novel Kindlin-2/FAS/PPARγ/FABP4/insulin axis in adipose tissue modulating bone mass and strongly indicates that FAS and Kindlin-2 are new potential targets and C75 or AAV-Rec2-CasRx-sgK2 treatment are potential strategies for OP treatment.

FOLR1-induced folate deficiency reduces viral replication via modulating APOBEC3 family expression

Folate receptor alpha(FOLR1)is vital for cells ingesting folate(FA).FA plays an indispensable role in cell pro-liferation and survival.However,it is not clear whether the axis of FOLR1/FA has a similar function in viral replication.In this study,we used vesicular stomatitis virus(VSV)to investigate the relationship between FOLR1-mediated FA deficiency and viral replication,as well as the underlying mechanisms.We discovered that FOLR1 upregulation led to the deficiency of FA in HeLa cells and mice.Meanwhile,VSV replication was notably sup-pressed by FOLR1 overexpression,and this antiviral activity was related to FA deficiency.Mechanistically,FA deficiency mainly upregulated apolipoprotein B mRNA editing enzyme catalytic subunit 3B(APOBEC3B)expression,which suppressed VSV replication in vitro and in vivo.In addition,methotrexate(MTX),an FA metabolism inhibitor,effectively inhibited VSV replication by enhancing the expression of APOBEC3B in vitro and in vivo.Overall,our present study provided a new perspective for the role of FA metabolism in viral infections and highlights the potential of MTX as a broad-spectrum antiviral agent against RNA viruses.