Cloning and characterization of a novel Krüppel-like zinc finger gene, ZNF268, expressed in early human embryo

The Transcriptome of Pig Spermatozoa, and Its Role in Fertility

In the study presented here we identified transcriptomic markers for fertility in the cargo of pig ejaculated spermatozoa using porcine-specific micro-arrays (GeneChip^® miRNA 4.0 and GeneChip^® Porcine Gene 1.0 ST). We report (i) the relative abundance of the ssc-miR-1285, miR-16, miR-4332, miR-92a, miR-671-5p, miR-4334-5p, miR-425-5p, miR-191, miR-92b-5p and miR-15b miRNAs, and (ii) the presence of 347 up-regulated and 174 down-regulated RNA transcripts in high-fertility breeding boars, based on differences of farrowing rate (FS) and litter size (LS), relative to low-fertility boars in the (Artificial Insemination) AI program. An overrepresentation analysis of the protein class (PANTHER) identified significant fold-increases for C-C chemokine binding (GO:0019957): CCR7, which activates B- and T-lymphocytes, 8-fold increase), XCR1 and CXCR4 (with ubiquitin as a natural ligand, 1.24-fold increase), cytokine receptor activity (GO:0005126): IL23R receptor of the IL23 protein, associated to JAK2 and STAT3, 3.4-fold increase), the TGF-receptor (PC00035) genes ACVR1C and ACVR2B (12-fold increase). Moreover, two micro-RNAs (miR-221 and mir-621) were down- and up-regulated, respectively, in high-fertility males. In conclusion, boars with different fertility performance possess a wide variety of differentially expressed RNA present in spermatozoa that would be attractive targets as non-invasive molecular markers for predicting fertility.

KRAB-Zinc Finger Protein ZNF268a Deficiency Attenuates the Virus-Induced Pro-Inflammatory Response by Preventing IKK Complex Assembly

Despite progress in understanding how virus-induced, NF-κB-dependent pro-inflammatory cytokines are regulated, there are still factors and mechanisms that remain to be explored. We aimed to uncover the relationship between KRAB-zinc finger protein ZNF268a and NF-κB-mediated cytokine production in response to viral infection. To this end, we established a ZNF268a-knockout cell line using a pair of sgRNAs that simultaneously target exon 3 in the coding sequence of the ZNF268 gene in HEK293T. HEK293T cells lacking ZNF268a showed less cytokine expression at the transcription and protein levels in response to Sendai virus/vesicular stomatitis virus (SeV/VSV) infection than wild-type cells. Consistent with HEK293T, knock-down of ZNF268a by siRNAs in THP-1 cells significantly dampened the inflammatory response. Mechanistically, ZNF268a facilitated NF-κB activation by targeting IKKα, helping to maintain the IKK signaling complex and thus enabling proper p65 phosphorylation and nuclear translocation. Taken together, our data suggest that ZNF268a plays a positive role in the regulation of virus-induced pro-inflammatory cytokine production. By interacting with IKKα, ZNF268a promotes NF-κB signal transduction upon viral infection by helping to maintain the association between IKK complex subunits.

Zinc fingers function cooperatively with KRAB domain for nuclear localization of KRAB-containing zinc finger proteins

Multiple nuclear localization domains have been identified in nuclear proteins, and they finely control nuclear import and functions of those proteins. ZNF268 is a typical KRAB-containing zinc finger protein (KRAB-ZFP), and previous studies have shown that the KRAB domain reinforces nuclear localization of KRAB-ZFPs by interacting with KAP1. In this study, we find that some of 24 zinc fingers of ZNF268 also possess nuclear localization activity. Results of mutagenesis studies suggest that KRAB and zinc fingers are both necessary, and they function both independently and cooperatively for the nuclear localization of ZNF268. However, the subnuclear targeting activities of KRAB and zinc fingers are different. KRAB targets proteins in nucleoplasm, but not in the nucleolus, which is mediated by interaction with KAP1, while zinc fingers target proteins in the whole nucleus uniformly. The cooperative activities of KAP1-KRAB-zinc fingers result in the precise nucleoplasmic, but not nucleolar localization of KRAB-ZFPs. Our studies reveal a novel mechanism for the subcellular localization of KRAB-ZFPs and may help us to further explore their biological functions.

Aberrant expression of ZNF268 alters the growth and migration of ovarian cancer cells

Ovarian cancer is one of the most lethal gynaecological cancers worldwide. However, the mechanisms underlying ovarian carcinogenesis are not well understood. The present study used immunostaining, western blotting and quantitative real-time PCR to demonstrate that ZNF268 is overexpressed in human ovarian carcinomas. ZNF268-knockdown increased the viability, colony formation and growth of in vivo xenografts of ovarian carcinoma SKOV-3 cells, whereas SKOV-3 cell migration was inhibited. Furthermore, it was demonstrated that the knockdown of ZNF268 may increase SKOV-3 cell growth by promoting cell cycle progression. The findings suggest that ZNF268 is a novel protein involved in ovarian carcinogenesis and that it may aid in the understanding of the mechanisms of ovarian carcinogenesis.

The zinc finger protein ZNF268 is overexpressed in human cervical cancer and contributes to tumorigenesis via enhancing NF-κB signaling

Cervical cancer is one of the most common tumors affecting women's health worldwide. Although human papillomavirus can be detected in nearly all cases, the mechanism of cervical carcinogenesis remains to be further addressed. Here, we demonstrated that ZNF268, a Krüppel-associated box-containing zinc finger protein, might contribute to the development of cervical cancer. We found that ZNF268b2, an isoform of ZNF268, was overexpressed in human squamous cervical cancer specimens. Knockdown of ZNF268 in cervical cancer cells caused cell cycle arrest at the G(0)/G(1) phase, reduced colony formation, and increased sensitivity to TNFα-induced apoptosis. In addition, HeLa cell growth in xenograft nude mice was suppressed by ZNF268 knockdown, with increased apoptosis. Furthermore, ZNF268b2 was shown to increase NF-κB signaling in vitro and in vivo. Reconstitution of NF-κB activity restored proliferation in ZNF268 knockdown HeLa cells. Of note, we observed a high frequency of NF-κB activation in ZNF268-overexpressing cervical cancer tissues, suggesting a pathological coincidence of ZNF268b2 overexpression and NF-κB activation. Taken together, our results reveal a novel role of ZNF268b2 that contributes to cervical carcinogenesis in part through enhancing NF-κB signaling.

Knockdown of ZNF268, which is transcriptionally downregulated by GATA-1, promotes proliferation of K562 cells

The human ZNF268 gene encodes a typical KRAB-C2H2 zinc finger protein that may participate in hematopoiesis and leukemogenesis. A recent microarray study revealed that ZNF268 expression continuously decreases during erythropoiesis. However, the molecular mechanisms underlying regulation of ZNF268 during hematopoiesis are not well understood. Here we found that GATA-1, a master regulator of erythropoiesis, repressed the promoter activity and transcription of ZNF268. Electrophoretic mobility shift assays and chromatin immunoprecipitation assays showed that GATA-1 directly bound to a GATA binding site in the ZNF268 promoter in vitro and in vivo. Knockdown of ZNF268 in K562 erythroleukemia cells with specific siRNA accelerated cellular proliferation, suppressed apoptosis, and reduced expression of erythroid-specific developmental markers. It also promoted growth of subcutaneous K562-derived tumors in nude mice. These results suggest that ZNF268 is a crucial downstream target and effector of GATA-1. They also suggest the downregulation of ZNF268 by GATA-1 is important in promoting the growth and suppressing the differentiation of K562 erythroleukemia cells.

Gene expression atlas for human embryogenesis

Human embryogenesis is believed to involve an integrated set of complex yet coordinated development of different organs and tissues mediated by the changes in the spatiotemporal expression of many genes. Here, we report a genome-wide expression analysis during wk 4-9 of human embryogenesis, a critical period when most organs develop. About half of all human genes are expressed, and 18.6% of the expressed genes were significantly regulated during this important period. We further identified >5000 regulated genes, most of which previously were not known to be associated with animal development. Our study fills an important gap in mammalian developmental studies by identifying functional pathways involved in this critical but previously not studied period. Our study also revealed that the genes involved here are distinct from those during early embryogenesis, which include three groups of maternal genes. Furthermore, we discovered that genes in a given developmental process are regulated coordinately. This led us to develop an easily searchable database of this entire collection of gene expression profiles, allowing for the identification new genes important for a particular developmental process/pathway and deducing the potential function of a novel gene. The validity of the predictions from the database was demonstrated with two examples through spatiotemporal analyses of the two novel genes. Such a database should serve as a highly valuable resource for the molecular analysis of human development and pathogenesis.

Genome-wide association studies in Alzheimer's disease

Genome-wide association studies (GWAS) have gained considerable momentum over the last couple of years for the identification of novel complex disease genes. In the field of Alzheimer's disease (AD), there are currently eight published and two provisionally reported GWAS, highlighting over two dozen novel potential susceptibility loci beyond the well-established APOE association. On the basis of the data available at the time of this writing, the most compelling novel GWAS signal has been observed in GAB2 (GRB2-associated binding protein 2), followed by less consistently replicated signals in galanin-like peptide (GALP), piggyBac transposable element derived 1 (PGBD1), tyrosine kinase, non-receptor 1 (TNK1). Furthermore, consistent replication has been recently announced for CLU (clusterin, also known as apolipoprotein J). Finally, there are at least three replicated loci in hitherto uncharacterized genomic intervals on chromosomes 14q32.13, 14q31.2 and 6q24.1 likely implicating the existence of novel AD genes in these regions. In this review, we will discuss the characteristics and potential relevance to pathogenesis of the outcomes of all currently available GWAS in AD. A particular emphasis will be laid on findings with independent data in favor of the original association.

Genome-wide association analysis reveals putative Alzheimer's disease susceptibility loci in addition to APOE

Alzheimer's disease (AD) is a genetically complex and heterogeneous disorder. To date four genes have been established to either cause early-onset autosomal-dominant AD (APP, PSEN1, and PSEN2(1-4)) or to increase susceptibility for late-onset AD (APOE5). However, the heritability of late-onset AD is as high as 80%, (6) and much of the phenotypic variance remains unexplained to date. We performed a genome-wide association (GWA) analysis using 484,522 single-nucleotide polymorphisms (SNPs) on a large (1,376 samples from 410 families) sample of AD families of self-reported European descent. We identified five SNPs showing either significant or marginally significant genome-wide association with a multivariate phenotype combining affection status and onset age. One of these signals (p = 5.7 x 10(-14)) was elicited by SNP rs4420638 and probably reflects APOE-epsilon4, which maps 11 kb proximal (r2 = 0.78). The other four signals were tested in three additional independent AD family samples composed of nearly 2700 individuals from almost 900 families. Two of these SNPs showed significant association in the replication samples (combined p values 0.007 and 0.00002). The SNP (rs11159647, on chromosome 14q31) with the strongest association signal also showed evidence of association with the same allele in GWA data generated in an independent sample of approximately 1,400 AD cases and controls (p = 0.04). Although the precise identity of the underlying locus(i) remains elusive, our study provides compelling evidence for the existence of at least one previously undescribed AD gene that, like APOE-epsilon4, primarily acts as a modifier of onset age.

The mammalian gene ZNF268 is regulated by hUpf1

Nonsense-mediated mRNA decay (NMD), also called RNA surveillance, is a process that degrades mRNAs with premature translation termination codons. In Saccharomyces cerevisiae, it has also been shown that NMD can regulate gene expression at the transcriptional level. To date, there has been no example where promoters are regulated by the NMD pathway in higher eukaryotes. Taking advantage of our previous research on ZNF268 transcription control, we studied the relationship between the ZNF268 promoter and the NMD pathway. We showed by transient transfection that the ZNF268 promoter activity was influenced by hUpf1, not hSmg6, in HeLa cells. This result was confirmed by the analysis of the steady state mRNA of ZNF268 after depletion of endogenous hUpf1 or hSmg6 in HeLa cells. Direct mutational analysis revealed that the C/EBP site in the promoter region is important for hUpf1 function on ZNF268 promoter. Together our results demonstrated that the mammalian gene ZNF268 is regulated by hUpf1 via its promoter.

Human T-cell leukemia virus type 1 oncoprotein tax represses ZNF268 expression through the cAMP-responsive element-binding protein/activating transcription factor pathway

Expression of the human T-cell leukemia virus type 1 (HTLV-1) oncoprotein Tax is correlated with cellular transformation, contributing to the development of adult T-cell leukemia. In this study, we investigated the role of Tax in the regulation of the ZNF268 gene, which plays a role in the differentiation of blood cells and the pathogenesis of leukemia. We demonstrated that ZNF268 mRNA was repressed in HTLV-1-infected cells. We also showed that stable and transient expression of HTLV-1 Tax led to repression of ZNF268. In addition, by using reporter constructs that bear the human ZNF268 promoter and its mutants, we showed that Tax repressed ZNF268 promoter in a process dependent on a functional cAMP-responsive element. By using Tax, cAMP-responsive element-binding protein (CREB)-1, CREB-2, and their mutants, we further showed that Tax repressed ZNF268 through the CREB/activating transcription factor pathway. Electrophoretic mobility shift assays and chromatin immunoprecipitation demonstrated the formation of the complex of Tax.CREB-1 directly at the cAMP-responsive element both in vitro and in vivo. These findings suggest a role for ZNF268 in aberrant T-cell proliferation observed in HTLV-1-associated diseases.

Identification and characterization of the human SCAN domain zinc-finger gene ZNF449

Zinc-finger proteins play important roles in various cellular functions, including cell proliferation, differentiation, and apoptosis. In this study, we identified a gene encoding a zinc finger protein named ZNF449, which was isolated from human testis cDNA library and mapped to Xq26.3 by searching the UCSC genomic database. The ZNF449 cDNA consists of 4035 nucleotides and has a 518-amino acids open reading frame. The predicted protein contains a leucine-rich region (LER or SCAN domain) at the N-terminus. At the C-terminus of the protein, there are 7 C(2)H(2) (Cys2-His2) zinc-finger motifs. The expression pattern of ZNF449 showed that it was ubiquitously expressed in 18 human adult tissues. ZNF449 protein was located in the nucleus when overexpressed in cultured cells. These results indicate that ZNF449 is a member of the zinc-finger family and it may function as a transcription factor.

ZNF569, a novel KRAB-containing zinc finger protein, suppresses MAPK signaling pathway

Transcription factors play an essential role in altering gene expression. A great progress about transcription factors has been made towards the understanding of normal physiological processes, embryonic development, and human diseases. Here we report the identification and characterization of a novel KRAB-containing zinc-finger protein, ZNF569, which is isolated from a human embryonic heart cDNA library. ZNF569 encodes a putative protein of 686 amino acids. The protein is conserved across different species during evolution. Expression of ZNF569 was found in most of the examined human adult and embryonic tissues with a higher level in heart and skeletal muscles. The KRAB and ZNF motifs of ZNF569 represent potent repression domains. When ZNF569 is fused to Gal-4 DNA-binding domain and co-transfected with VP-16, ZNF569 protein suppresses transcriptional activity. Overexpression of ZNF569 in COS-7 cells inhibited the transcriptional activities of SRE and AP-1, which may be silenced by siRNA. The results suggest that ZNF569 protein may act as a transcriptional repressor that suppresses MAPK signaling pathway to mediate cellular functions.

Transcription of human zinc finger ZNF268 gene requires an intragenic promoter element

Human ZNF268 gene is a typical Krüppel-associated box/C2H2 zinc finger gene whose homolog has been found only in higher mammals and not in lower mammals such as mouse. Its expression profiles have suggested that it plays a role in the differentiation of blood cells during early human embryonic development and the pathogenesis of leukemia. To gain additional insight into the molecular mechanisms controlling the expression of the ZNF268 gene and to provide the necessary tools for further genetic studies of leukemia, we have mapped the 5'-end of the human ZNF268 mRNA by reverse transcription-PCR and primer extension assays. We then cloned the 5'-flanking genomic DNA containing the putative ZNF268 gene promoter and analyzed its function in several different human and mouse tissue culture cell lines. Interestingly, our studies show that the ZNF268 gene lacks a typical eukaryotic promoter that is present upstream of the transcription start site and directs a basal level of transcription. Instead, the functional promoter requires an essential element that is located within the first exon of the gene. Deletion and mutational analysis reveals the requirement for a cAMP response-element-binding protein (CREB)-binding site within this element for promoter function. Gel mobility shift and chromatin immunoprecipitation assays confirm that CREB-2 binds to the site in vitro and in vivo. Furthermore, overexpression of CREB-2 enhances the promoter activity. These results demonstrate that the human ZNF268 gene promoter is atypical and requires an intragenic element located within the first exon that mediates the effect of CREB for its activity.

Cloning and Characterization of a Novel KRAB-domain-containing Zinc Finger Gene (ZNF284L)†

The zinc finger gene (ZNF) family plays an important role in the regulation of transcription. This study reports the cloning and characterization of a novel human zinc finger protein cDNA (ZNF284L) from fetal brain cDNA library. The ZNF284L cDNA is 2223 bp in length encoding a 593-aa polypeptide. The protein contains a KRAB A+b box and eleven C2H2 type zinc finger motifs. ZNF284L gene is mapped to 19q13.2-19q13.3 with 5 exons, and the expression pattern of ZNF284L gene was also examined by reverse transcription polymerase chain reaction (RT-PCR). The transcripts were detected in the human lung, liver, pancreas, thymus, heart, placenta, spleen, prostate, ovary, small intestine and colon, but in human brain, skeletal muscle, kidney, testis and peripheral blood leukocyte, no expression was detected.

Rapid identification of Quox-1 homeodomain DNA-binding sequence using SAAB

Quox-1 is the only gene in the hox family whose expression occurs throughout the development of the central nervous system. Using the Quox-1 homeodomain produced in a bacterial expression system, we were able to identify DNA-binding targets of the Quox-1 protein from a library of randomly generated oligonucleotides by the selection and amplification binding (SAAB) technique. The results indicated that the Quox-1 protein recognizes a new consensus sequence, 5'-CAATC-3', which has not been reported for any other Hox family homeoprotein. In addition, electromobility shift assay further confirmed that the Quox-1 homeoprotein preferentially binds to the 5'-CAATC-3' sequence, but not to the binding sites for other Hox class homeoprotein (TAAT) or NKX class homeoprotein (CAAG). Based on mutation analyses of the DNA sequences, we found that the 5'-CAATC-3' core sequences are required for high affinity binding by the Quox-1 protein. Furthermore, mutation analyses of the Quox-1 homeodomain showed that one of the major determinants participating in recognition of a minor groove is the Gln6 and Thr7 in the N-terminal arm of the homeodomain.

Identification and functional analysis of a novel human KRAB/C2H2 zinc finger gene ZNF300

A novel human zinc finger gene, ZNF300, was isolated from human embryos on the base of the enrichment of C2H2-specific mRNAs. The ZNF300 cDNA is 3104 bp long and encodes a 604-amino acid protein with an amino-terminal KRAB domain, and 12 carboxyl-terminal C2H2 zinc finger motifs. According to the genome database, ZNF300 is assigned to chromosome 5q33.1. Northern blot analysis revealed that the ZNF300 transcripts are expressed mostly in heart, skeletal muscle and brain. ZNF300 is localized to the nucleus and the KRAB domain of ZNF300 protein exhibits transcription repressor activity. These results suggest that ZNF300 is a ubiquitous transcription repressor in the nucleus.

Identification of tumor-associated antigens in chronic lymphocytic leukemia by SEREX

Chronic lymphocytic leukemia (CLL) is associated with a variety of immunologic disturbances. Hypogammaglobulinemia and autoimmune phenomena are both often present in this disease. In contrast, humoral or cellular antitumor responses are rarely observed. It has been previously shown that antigens detected in patients with malignant diseases can provide information regarding intracellular molecules engaged in the transformation process and can identify tumor antigens that may be useful for development of immunotherapeutic strategies. Serologic identification by recombinant expression cloning (SEREX) has been demonstrated to be a useful method to detect tumor and tumor-associated antigens in a variety of malignancies. Although this approach is complicated in CLL, we used a modified SEREX approach and identified 14 antigens (KW-1 to KW-14) using this methodology. Several clones showed a restricted expression pattern in normal tissues. Moreover, distinctive expression of splice variants and aberrant gene expression in malignant tissue were detected. In this study, 6 antigens were detected exclusively in patients with CLL. Eight antigens were detected also in lymphoma patients. Healthy donors showed antibody responses against only 3 of the identified antigens. T cells with specific cytotoxicity against peptides derived from the 2 antigens tested could be generated from healthy donors. These findings demonstrate that humoral and cellular immune responses against CLL-associated antigens can be detected. Ongoing experiments investigate their potential for the development of immunotherapeutic strategies.

Identification and characterization of two novel zinc finger genes, ZNF359 and ZFP28, in human development

Transcription factors play an essential role in controlling gene expression during cardiac and vascular pathogeneses. Identification of regulatory genes in the cardiovascular system is a necessary step toward an understanding of the pathogenesis of congenital heart disease and acquired cardiovascular diseases. The Cys2/His2 type zinc finger genes are the single largest class of transcription factors in the human genome and many numbers of these krüpple-like zinc finger genes have been found to be involved in cardiac development or cardiovascular diseases. In this study, we have identified two novel human krüpple-like zinc finger genes named ZNF359 and ZFP28 from the human heart cDNA library. The complete human ZNF359 cDNA sequence is 3270bp and contains a 1932-bp open reading frame (ORF) that encodes a 643 amino acid protein with an N-terminal KRAB domain and 16 C-terminus zinc finger C2H2 motifs. The ZFP28 cDNA sequence is 4104bp and contains a 2076-bp ORF that encodes an 868 amino acid protein with an N-terminal signal peptide, two KRAB domains, and 14 C-terminal C2H2 zinc finger motifs. Northern blot analyses showed a strong expression of ZNF359 and ZFP28 in various tissues of adult human. A further analysis using human embryonic tissues (18-23 weeks) showed a development-specific expression pattern in heart, skeletal muscle, liver, lung, kidney, and brain, suggesting a role for these genes in embryonic development.

Construction and characterization of a cDNA library from 4-week-old human embryo

Development and differentiation studies of early human embryos have been severely impeded by general difficulties in obtaining suitable samples. In order to isolate and identify new genes expressed during early human development, we constructed and characterized a PCR-based cDNA library using a 4-week-old chorion-free human embryo. The constructed cDNA library contained 6.3 x 10(6) directional recombinants, and its insert size ranged from 0.4 to 1.8 kb. The cDNA library proportionally represents the mRNA population, containing beta-actin, tPA and LINE1 repetitive sequences at the expected frequencies as in other conventionally constructed and PCR-based cDNA libraries. PCR analyses of the library for specific genes have also revealed the presence of cDNAs for developmentally important genes such as CD59, MCP, Quox-1 and ZNF268. Among the 70 randomly selected cDNA clones, 53% encoded previously known genes, 26% matched with anonymous sequences, and 17% showed no sequence similarity and were designated as human early embryo-specific ESTs. These results demonstrate the sequence complexity and relatively low redundancy of our cDNA library. Furthermore, approximately 40% of those randomly analyzed clones contained full-length encoding regions. To our knowledge, this is the first description of the PCR-based cDNA library from a 4-week-old chorion-free human embryo, and the presence of novel sequences within this library makes it a valuable and unique resource for studying gene expression and regulatory mechanisms that underlie the early process of human embryogenesis.