Elevated APOBEC3B expression drives a kataegic-like mutation signature and replication stress-related therapeutic vulnerabilities in p53-defective cells

Nikkilä, Jenni; Kumar, Rahul; Campbell, James; Brandsma, Inger; Pemberton, Helen; Wållberg, Fredrik; Nagy, Krisztina; Scheer, Ildikó; Vértessy, Beáta G.; Serebrenik, Artur A.; Monni, Valentina; Harris, Reuben S.; Pettitt, Stephen J.; Ashworth, Alan; Lord, Christopher J.

doi:10.1038/bjc.2017.133

Cited by 86 publications

(115 citation statements)

References 54 publications

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“…Targeting replication stress‐directed APOBEC3B activation has broad implications for many inhibitors including afatinib and lapatinib for ERBB2 amplification, LY294002 and rapamycin for PI3K/mTOR signaling, U0126 for MAPK, CHK1 inhibitor, and ATM/ATR inhibitor . P53 defective cells with high expression of APOBEC3B are more sensitive to DNA damage response inhibitors (eg, PARP inhibitor), which have been used in clinical trials . In addition, APOBEC3 highly expressed tumors are correlated with high mutation burden, and overexpression of APOBEC3 paralogs appear to play pivotal roles in the regulation of programmed death‐ligand 1 (PD‐L1) expression, which is the predictive biomarker for subset cancer immunotherapy.…”

Section: Apobec3 As Prognostic Markers and Therapeutic Targets For Camentioning

confidence: 99%

“…54 P53 defective cells with high expression of APOBEC3B are more sensitive to DNA damage response inhibitors (eg, PARP inhibitor), which have been used in clinical trials. 64 In addition, APO-BEC3 highly expressed tumors are correlated with high mutation burden, and overexpression of APOBEC3 paralogs appear to play pivotal roles in the regulation of programmed death-ligand 1 (PD-L1) expression, 65,66 which is the predictive biomarker for subset cancer immunotherapy. It is reasoned that these subtypes of patients may respond to immune checkpoint blockage therapies such as programmed cell death protein 1 (PD-1)/PD-L1 and cytotoxic T-lympho- 53 DNA replication stress 54 and HPV E6/7 oncoproteins and mutant p53 52 are able to turn on APOBEC3B expression.…”

Section: And Therapeutic Targe Ts For Cancer Tre Atmentmentioning

confidence: 99%

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Apolipoprotein B mRNA editing enzyme catalytic polypeptide‐like family genes activation and regulation during tumorigenesis

Gao¹,

Choudhry

Cao

2018

Cancer Science

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Cancer is currently viewed as a disease of evolving genomic instability and abnormal epigenomic modifications. Most solid cancers harbor oncogenic gene mutations driven by both extrinsic and intrinsic factors. Apolipoprotein B mRNA editing catalytic polypeptide‐like family (APOBEC) enzymes have an intrinsic deamination activity to convert cytosine to uracil during RNA editing and retrovirus or retrotransposon restriction. Beyond their natural defense in innate immunity, compelling evidence showed that a subclass of APOBEC3 can cause high mutation burden in various types of cancer genomes, and high expression subtypes of APOBEC3 may contribute to drug resistance and associate with clinical outcomes. The underlying molecular mechanisms of APOBEC‐mediated hypermutation phenotype are poorly understood. In this review, we discuss the linkage of activation‐induced deaminase (AID)/APOBEC3 enzymes to tumorigenesis, highlight the dysregulatory mechanisms of APOBEC3 activities during cancer development, and propose potential approaches to targeting APOBEC3‐mediated mutagenesis for cancer interventions.

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Section: Apobec3 As Prognostic Markers and Therapeutic Targets For Camentioning

confidence: 99%

Section: And Therapeutic Targe Ts For Cancer Tre Atmentmentioning

confidence: 99%

Apolipoprotein B mRNA editing enzyme catalytic polypeptide‐like family genes activation and regulation during tumorigenesis

Gao¹,

Choudhry

Cao

2018

Cancer Science

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“…We subsequently used it in IB experiments to study SIV Vif-mediated degradation of endogenous A3B 64 , endogenous A3B upregulation by polyomavirus infection 11 , A3B lysine post-translational modification 65 , and endogenous A3B interaction with EBV BORF2 16 . The 5210-87-13 mAb has also been shared with colleagues, who have independently demonstrated utility in anti-A3B IB experiments 66,67 . In addition, another independent study used 5210-87-13 to monitor A3A and A3B induction in IB and IF experiments 68 .…”

Section: Discussionmentioning

confidence: 96%

A rabbit monoclonal antibody against the antiviral and cancer genomic DNA mutating enzyme APOBEC3B

Brown

Law

Carpenter

et al. 2019

Preprint

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The DNA cytosine deaminase APOBEC3B (A3B) is normally an antiviral factor in the innate immune response. However, A3B has been implicated in cancer mutagenesis, particularly in solid tumors of the bladder, breast, cervix, head/neck, and lung. Here, we report data on the generation and characterization of a rabbit monoclonal antibody (mAb) for human A3B through a series of immunoblot, immunofluorescence microscopy, and immunohistochemistry experiments. Positive results indicate that one mAb, 5210-87-13, will be useful for fundamental research in virology and cancer biology and that immunohistochemical quantification of A3B enzyme levels may constitute a clinical biomarker for tumor evolvability and differential treatment.

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“…However, with the development of Next Generation Sequencing technology and the availability of large sequence datasets, it has become clear that mutations in many cancers have a C/G→T/A bias, and most cancer cells or tumors also overexpress of A3B or A3H hap I mRNA, suggesting that A3s are inducing somatic mutations [16,17,[171][172][173][174][175]. The uracils created by A3 mutations also can lead to C→G or C→A mutations depending on the repair pathway initiated by the abasic site after APE-mediated removal [176,177] (Figure 1.2A). Several lines of evidence demonstrate that A3…”

Section: Role Of Apobec In Somatic Mutagenesismentioning

confidence: 99%

“…The generation of increased amounts of ssDNA promotes the activity of A3 and increases the mutational frequency Thus, it is notable that A3B is not problematic until a cellular alteration occurs that increases A3B expression and increases replication stress [177,192,203]. In contrast, the ssDNA generated on the nontranscribed strand during transcription is accessible at multiple times during the cell cycle of a normal or transformed cell, especially during RNA polymerase stalling [20,21].…”

Section: Role Of Apobec In Somatic Mutagenesismentioning

confidence: 99%

Biochemical Basis of APOBEC3 Deoxycytidine Deaminase Activity on Diverse DNA Substrates

2018

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Apolipoprotein B mRNA-editing enzyme-catalytic, polypeptide-like 3 (APOBEC3) enzymes are a family of single-stranded (ss)DNA cytosine deaminases that serve as a host restriction factors for retrotransposons and viruses that contain a ssDNA intermediate. While the APOBEC3 family was originally expanded to restrict endogenous retroelements, the majority of these targets are now inactivated and the family has been found to act on different targets, such as viral ssDNA as a mechanism of viral defense. Some of the family members also catalyze "offtarget" deaminations in human ssDNA and have been implicated in somatic mutagenesis that can lead to cancer.My PhD thesis research investigated the biochemical mechanisms underlying both the benefits and the risks of the A3 family of enzymes. The central hypothesis of this work is that A3 enzymes have evolved distinct biochemical mechanisms to deaminate ssDNA that differentiate A3 restriction of retroelements and retroviruses from A3-induced somatic mutagenesis.Therefore, we investigated the biochemical mechanisms the A3 enzymes utilize during restriction of Human Immunodeficiency Virus (HIV) in both deamination-dependent and deaminationindependent modes, as well as the unique mechanisms employed during mutation of genomic DNA. There are seven APOBEC3 members (A-H, excluding E) and of these, four members (A3D, A3F, A3G, A3H) have been identified to restrict HIV replication in CD4 T+ cells, and currently three members (A3A, A3B and A3H haplotype I) have been implicated in somatic mutagenesis.The APOBEC3 enzymes that restrict HIV replication function optimally in the absence of the HIV viral infectivity factor (Vif). Vif targets APOBEC3 for degradation via the proteasome in HIV infected cells. For APOBEC3s that are able to fortuitously escape Vif mediated degradation and become encapsidated, the enzymes can deaminate cytosines to form uracils in viral (-)DNA. Replication of (-)DNA to (+)DNA causes HIV-1 reverse transcriptase to incorporate adenines opposite uracils which creates C/G→T/A transition mutations. While restriction of HIV most commonly occurs through this deamination-dependent mechanism, APOBEC3s have also been identified to interfere with HIV reverse transcriptase processes in a deamination-independent manner, although this mechanism is secondary to the deaminationdependent mode. In order to restrict retroelements and viruses such as HIV, the A3 enzymes iii require an efficient processive ssDNA scanning mechanism that allows them to search for, and locate cytosines on ssDNA in the finite amount of time the substrate is available during formation of the double-stranded DNA provirus. To understand if this requirement was lost in A3 enzymes unable to restrict HIV, we studied A3C. Human A3C is not able to restrict HIV, in comparison to the more active gorilla and chimpanzee A3C orthologs that can restrict HIV, however an explanation for this difference was lacking. A polymorphism, S188I, in human A3C, which is found in less than 3% of the global population lead...

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Elevated APOBEC3B expression drives a kataegic-like mutation signature and replication stress-related therapeutic vulnerabilities in p53-defective cells

Cited by 86 publications

References 54 publications

Apolipoprotein B mRNA editing enzyme catalytic polypeptide‐like family genes activation and regulation during tumorigenesis

Apolipoprotein B mRNA editing enzyme catalytic polypeptide‐like family genes activation and regulation during tumorigenesis

A rabbit monoclonal antibody against the antiviral and cancer genomic DNA mutating enzyme APOBEC3B

Biochemical Basis of APOBEC3 Deoxycytidine Deaminase Activity on Diverse DNA Substrates

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