Abstract
Preventive therapy can target hormone-responsive breast cancer (BC) by treatment with selective estrogen receptor modulators (SERMs) and reduce the incidence of BC. Genome-wide association studies have identified single nucleotide polymorphisms (SNPs) with relevant predictive values, SNPs in the ZNF423 gene were associated with decreased risk of BC during SERM therapy, and SNPs in the Cathepsin O gene with an increased risk. ZNF423, which was not previously associated with BC is a multifunctional transcription factor known to have a role in development, neurogenesis, and adipogenesis and is implicated in other types of cancer. ZNF423 is transcriptionally controlled by the homolog ZNF521, early B cell factor transcription factor, epigenetic silencing of the promoter by CpG island hyper-methylation, and also by ZNF423 itself in an auto-regulatory loop. In BC cells, ZNF423 expression is found to be induced by estrogen, dependent on the binding of the estrogen receptor and calmodulin-like 3 to SNPs in ZNP423 intronic sites in proximity to consensus estrogen response elements. ZNF423 has also been shown to play a mechanistic role by trans-activating the tumor suppressor BRCA1 and thus modulating the DNA damage response. Even though recent extensive trial studies did not classify these SNPs with the highest predictive values, for inclusion in polygenic SNP analysis, the mechanism unveiled in these studies has introduced ZNF423 as a factor important in the control of the estrogen response. Here, we aim at providing an overview of ZNF423 expression and functional role in human malignancies, with a specific focus on its implication in hormone-responsive BC.
Highlights
Breast cancer (BC) is the malignancy with the highest incidence among women and even though there have been improvements in diagnosis and treatment, it is still the leading cause of cancer deaths in women, it accounts for 7% of all cancer deaths
Paired BC cell lines obtained by CRISPR engineering and with an isogenic background having only the single nucleotide polymorphism (SNP) variant genotype, as well as the lymphoblastoid cell line (LCL) lines were used to show [14] that knocking down of Calmodulin-like protein 3 (CALML3) abolished the SNP-dependent gene regulation of ZNF423 and breast cancer 1 (BRCA1) expression in cells treated with E2 alone or with the addition of the selective estrogen receptor modulator (SERM)
To have available a medicine, which would prevent or reduce the probability of BC, is an extremely important goal; such a therapy, which is given to healthy women, needs to be practically without side effects, such that there is a distinct favorable benefit to risk ratio
Summary
Citation: Bond HM, Scicchitano S, Chiarella E, Amodio N, Lucchino V, Aloisio A, Montalcini Y, Mesuraca M and Morrone G (2018) ZNF423: A New Player in Estrogen Receptor-Positive Preventive therapy can target hormone-responsive breast cancer (BC) by treatment with selective estrogen receptor modulators (SERMs) and reduce the incidence of BC. Genome-wide association studies have identified single nucleotide polymorphisms (SNPs) with relevant predictive values, SNPs in the ZNF423 gene were associated with decreased risk of BC during SERM therapy, and SNPs in the Cathepsin O gene with an increased risk. ZNF423, which was not previously associated with BC is a multifunctional transcription factor known to have a role in development, neurogenesis, and adipogenesis and is implicated in other types of cancer. ZNF423 is transcriptionally controlled by the homolog ZNF521, early B cell factor transcription factor, epigenetic silencing of the promoter by CpG island hyper-methylation, and also by ZNF423 itself in an auto-regulatory loop. In BC cells, ZNF423 expression is found to be induced by estrogen, dependent on the binding of the estrogen receptor and calmodulin-like 3 to SNPs in ZNP423 intronic sites in proximity to consensus estrogen response elements. ZNF423 has also been shown to play a mechanistic role by trans-activating the tumor suppressor BRCA1 and thus modulating the DNA damage response. Even though recent extensive trial studies did not classify these SNPs with the highest predictive values, for inclusion in polygenic SNP analysis, the mechanism unveiled in these studies has introduced ZNF423 as a factor important in the control of the estrogen response. Here, we aim at providing an overview of ZNF423 expression and functional role in human malignancies, with a specific focus on its implication in hormone-responsive BC. Keywords: breast cancer, cathepsin O, calmodulin like 3, estrogen receptors, single nucleotide polymorphisms, selective estrogen receptor modulators, ZNF423, ZNF521 Abbreviations: ALL, acute lymphoblastic leukemia; BC, breast cancer; BCL11/Evi9, B-cell CLL/lymphoma 11 A; BCR/ ABL, breakpoint cluster region/abelson proto-oncogene; BRCA1, breast cancer 1; BMP, bone morphogenic protein; BRE, BMP responsive element; CALML3, calmodulin like 3; CBLN1, cerebellin-1; CEP164, centrosomal protein 164; COX7RP, cytochrome c oxidase subunit 7A-related protein; CTSO, cathepsin O; EBAG9, estrogen receptor binding site associated, antigen 9; EBF, early B cell factor; EEF1A1, eukaryotic translation elongation factor 1 alpha 1; EFP, estrogen-responsive finger protein; ER, estrogen receptor; ERE, estrogen response element; ES, embryonic stem cells; ETV6-Runx1, Ets variant gene 6 (TEL oncogene)/runt related transcription factor 1; FOG1, friend of GATA1; GADD45A, growth arrest and DNA damage inducible 45 Alpha; GWAS, genoma-wide association study; INHBA, inhibin β A; ING1, inhibitor of growth protein 1; LCL, lymphoblastoid cell line; LMNA, lamin A/C; MRE11, meiotic recombination 11; MTDH, metadherin; NF1, neurofibromin 1; NB, neuroblastoma; NICD, notch intracellular cytoplasmic domain; NuRD, nucleosome remodeling domain; NSABP, national surgical adjuvant breast and bowel project; OAZ/ROAZ, rat Olf/EBF-associated zinc finger protein; PABPC4L, Poly(A) binding protein cytoplasmic 4 Like; PARP1, Poly(ADP-ribose) polymerase 1; PPAR γ, Peroxisome proliferator activated receptor-γ; RAR/RXR, retinoic acid receptor/retinoid X receptor; RB, retinoblastoma; RBBP7/4, RB-binding protein 7/4; Sall1, spalt like transcription factor 1; SERM, selective estrogen receptor modulator; SMAD, small mother against decapentaplegic; SNP, single nucleotide polymorphism; UBR5, ubiquitin protein ligase E3 component N-recognin 5; WISP2, WNT1 inducible signaling pathway protein 2; WNT1, wingless-type MMTV integration site family, member 1; Zfp, zinc finger protein.; ZNF, zinc finger.
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