Bioinformatics and Systems Medicine Laboratory
General information | Expression | Regulation | Mutation | Interaction

Basic Information

Gene ID

51147

Name

ING4

Synonymous

my036|p29ING4;inhibitor of growth family, member 4;ING4;inhibitor of growth family, member 4

Definition

brain my036 protein|candidate tumor suppressor p33 ING1 homolog|inhibitor of growth protein 4

Position

12p13.31

Gene type

protein-coding

Source

Count: 3; Pubmed_search,Generif,UniProt

Sentence

Abstract

These results sustain the view that ING4 is a tumor suppressor in breast cancer and suggest that ING4 deletion may contribute to the pathogenesis of HER2-positive breast cancer.

Inhibitor of growth 4 (ING4) is a candidate tumor suppressor gene that was shown to be deleted in 10% to 20% of breast cancers by array comparative genome hybridization analysis. We developed fluorescent in situ hybridization to detect the ING4 gene directly in the tissue samples on tumor tissue microarrays. We evaluated the ING4 gene status in 1033 breast cancer tissue samples and observed that ING4 was deleted in 16.5% (170/1033) of all breast cancers. ING4 deletion was significantly associated with Her2 overexpression: of the tumors with ING4 deletion, 23.8% (39/164) were human epidermal growth factor 2 (HER2) positive, as compared with 14.1% (115/814) of the tumors without ING4 deletion (P = .002). In addition, the tumors with ING4 deletion were more likely to belong to the HER2 molecular subtype (estrogen receptor negative/progesterone receptor negative/human epidermal growth factor positive) of breast cancer, compared with the other subtypes (28.4% HER2 versus 15.7% all, P = .002). ING4 deletion did not affect survival outcome of all patients with breast cancer (P = .797) or of the patients with HER2-positive tumors (P = .792). We conclude that ING4 deletion in breast cancer is relatively common, as 1 in 6 breast cancer harbors ING4 deletion. Furthermore, ING4 deletion is more prevalent in HER2-positive tumors, suggesting a functional antagonistic relationship between the ING4 tumor suppressor and the HER2 oncogene. These results sustain the view that ING4 is a tumor suppressor in breast cancer and suggest that ING4 deletion may contribute to the pathogenesis of HER2-positive breast cancer.CI - Copyright (c) 2011 Elsevier Inc. All rights reserved.

Functional impact of cancer-associated mutations in the tumor suppressor protein ING4.

Inhibitor of growth 4 (ING4) is a member of the ING family of tumor suppressor proteins. In this study, we have analyzed the impact of two mutations in ING4 associated with human tumors (Y121N and N214D), testing their behavior in a series of functional, biochemical and structural analyses. We report that the N214D mutation dramatically dampened the ability of ING4 to inhibit proliferation, anchorage-independent growth or cell migration or to sensitize to cell death. In turn, the Y121N mutant did not differ significantly from wild-type ING4 in our assays. Neither of the mutations altered the normal subcellular localization of ING4, showing predominantly nuclear accumulation. We investigated the molecular basis of the defect in the activity of the N214D mutant. The folding and ability to bind histone marks of ING4 was not significantly altered by this mutation. Instead, we found that the functional impairment of the N214D mutant correlates with reduced protein stability due to increased proteasome-mediated degradation. In summary, our data demonstrates that a point mutation of ING4 associated to human tumors leads to the loss of several essential functions of ING4 pertinent to tumor protection and highlight the importance of ING4 function to prevent tumorigenesis.

A dominant mutant allele of the ING4 tumor suppressor found in human cancer cells exacerbates MYC-initiated mouse mammary tumorigenesis.

ING4 is a candidate tumor suppressor gene that is deleted in 10% to 20% of human breast cancers and is mutated in various human cancer cell lines. To evaluate whether ING4 has a tumor-suppressive role in breast tissue, we overexpressed it in mouse mammary glands using a transplant system. Ectopic expression of ING4 suppressed MYC-induced mammary hyperplasia, but not tumorigenesis. In the same model system, we show that a COOH-terminal truncation mutant of ING4 found in human cancer cells could act alone to induce abnormal gland structures resembling mammary hyperplasia, which did not progress to tumors. However, coexpression of the ING4 mutant with MYC increased the penetrance and metastasis of MYC-initiated mammary tumors, giving rise to tumors with more organized acinar structures. Similarly, in vitro expression of the ING4 mutant in MCF10A mammary epithelial cells reinforced tight junctional structures. Our results provide direct functional evidence that ING4 could suppress the early stages of breast cancer and that dominant mutant alleles of ING4 might contribute to malignant development.

The dimeric structure and the bivalent recognition of H3K4me3 by the tumor suppressor ING4 suggests a mechanism for enhanced targeting of the HBO1 complex to chromatin.

The INhibitor of Growth (ING) family of tumor suppressors regulates the transcriptional state of chromatin by recruiting remodeling complexes to sites with histone H3 trimethylated at position K4 (H3K4me3). This modification is recognized by the plant homeodomain (PHD) present at the C-terminus in the five members of the ING family. ING4 facilitates histone H3 acetylation by the HBO1 complex. Here, we show that ING4 forms homodimers through its N-terminal domain, which folds independently into an elongated coiled-coil structure. The central region of ING4, which contains the nuclear localization sequence, is disordered and flexible and does not directly interact with p53, or does it with very low affinity, in contrast to previous findings. The NMR analysis of the full-length protein reveals that the two PHD fingers of the dimer are chemically equivalent and independent of the rest of the molecule. The detailed NMR analysis of the full-length dimeric protein binding to histone H3K4me3 shows essentially the same binding site and affinity as the isolated PHD finger. Therefore, the ING4 dimer has two identical and independent binding sites for H3K4me3 tails, which, in the context of the chromatin, could belong to the same or to different nucleosomes. These results show that ING4 is a bivalent reader of the chromatin H3K4me3 modification and suggest a mechanism for enhanced targeting of the HBO1 complex to specific chromatin sites. This mechanism could be common to other ING-containing remodeling complexes.CI - (c) 2009 Elsevier Ltd. All rights reserved.

The ING4 tumor suppressor attenuates NF-kappaB activity at the promoters of target genes.

The NF-kappaB family mediates immune and inflammatory responses. In many cancers, NF-kappaB is constitutively activated and induces the expression of genes that facilitate tumorigenesis. ING4 is a tumor suppressor that is absent or mutated in several cancers. Herein, we demonstrate that in human gliomas, NF-kappaB is constitutively activated, ING4 expression is negligible, and NF-kappaB-regulated gene expression is elevated. We demonstrate that an ING4 and NF-kappaB interaction exists but does not prevent NF-kappaB activation, nuclear translocation, or DNA binding. Instead, ING4 and NF-kappaB bind simultaneously at NF-kappaB-regulated promoters, and this binding correlates with reductions in p65 phosphorylation, p300, and the levels of acetylated histones and H3-Me3K4, while enhancing the levels of HDAC-1 at these promoters. Using a knockdown approach, we correlate reductions in ING4 protein levels with increased basal and inducible NF-kappaB target gene expression. Collectively, these data suggest that ING4 may specifically regulate the activity of NF-kappaB molecules that are bound to target gene promoters.

The new tumor-suppressor gene inhibitor of growth family member 4 (ING4) regulates the production of proangiogenic molecules by myeloma cells and suppresses hypoxia-inducible factor-1 alpha (HIF-1alpha) activity: involvement in myeloma-induced angiogenesis.

Angiogenesis has a critical role in the pathophysiology of multiple myeloma (MM); however, the molecular mechanisms underlying this process are not completely elucidated. The new tumor-suppressor gene inhibitor of growth family member 4 (ING4) has been recently implicated in solid tumors as a repressor of angiogenesis. In this study, we found that ING4 expression in MM cells was correlated with the expression of the proangiogenic molecules interleukin-8 (IL-8) and osteopontin (OPN). Moreover, we demonstrate that ING4 suppression in MM cells up-regulated IL-8 and OPN, increasing the hypoxia inducible factor-1alpha (HIF-1alpha) activity and its target gene NIP-3 expression in hypoxic condition. In turn, we show that the inhibition of HIF-1alpha by siRNA suppressed IL-8 and OPN production by MM cells under hypoxia. A direct interaction between ING4 and the HIF prolyl hydroxylase 2 (HPH-2) was also demonstrated. Finally, we show that ING4 suppression in MM cells significantly increased vessel formation in vitro, blunted by blocking IL-8 or OPN. These in vitro observations were confirmed in vivo by finding that MM patients with high IL-8 production and microvascular density (MVD) have significantly lower ING4 levels compared with those with low IL-8 and MVD. Our data indicate that ING4 exerts an inhibitory effect on the production of proangiogenic molecules and consequently on MM-induced angiogenesis.

data suggest that alternative splicing could modulate the activity of ING4 tumor suppressor protein

Inhibitor of growth (ING)4, member of a gene family encoding potential tumor suppressors, is implicated as a repressor of angiogenesis and tumor growth and suppresses loss of contact inhibition in vitro. Here, we report that ING4 undergoes alternative splicing. expression analysis identified novel ING4 spliced variant mRNAs encoding proteins devoid of different portions. The ING4 variants were detected in both normal and tumor tissues. The existence of ING4 variants was confirmed by several approaches, including reverse transcriptase-polymerase chain reaction, real-time PCR and in silico experiments. To investigate the functional consequences of alternative splicing the ING4 variant cDNAs were expressed in mammalian cells. Our studies indicated that (i) the ING4 variants do not differ from wild-type in their nuclear localization, interaction with p53 and association to HBO1 complex; and (ii) the ING4-DeltaEx6A variant, devoid of the C-terminal portion, loses the capability to inhibit NF-kappaB. On the whole our data suggest that alternative splicing could modulate the activity of ING4 tumor suppressor protein.

ING tumor suppressor proteins are critical regulators of chromatin acetylation required for genome expression and perpetuation.

Members of the ING family of tumor suppressors regulate cell cycle progression, apoptosis, and DNA repair as important cofactors of p53. ING1 and ING3 are stable components of the mSin3A HDAC and Tip60/NuA4 HAT complexes, respectively. We now report the purification of the three remaining human ING proteins. While ING2 is in an HDAC complex similar to ING1, ING4 associates with the HBO1 HAT required for normal progression through S phase and the majority of histone H4 acetylation in vivo. ING5 fractionates with two distinct complexes containing HBO1 or nucleosomal H3-specific MOZ/MORF HATs. These ING5 HAT complexes interact with the MCM helicase and are essential for DNA replication to occur during S phase. Our data also indicate that ING subunits are crucial for acetylation of chromatin substrates. Since INGs, HBO1, and MOZ/MORF contribute to oncogenic transformation, the multisubunit assemblies characterized here underscore the critical role of epigenetic regulation in cancer development.

Regulation of HIF by prolyl hydroxylases: recruitment of the candidate tumor suppressor protein ING4.

Many cellular responses to changes in O2 availability are mediated through the hypoxia inducible transcription factor, HIF. HIF regulation is largely dependent on the activity of O2-dependent prolyl hydroxylases. Under normoxic conditions, these enzymes modify HIF to promote its proteasomal degradation. Recently we proposed a second function for the HIF prolyl hydroxylases--recruitment of the candidate tumor suppressor protein ING4 to HIF under hypoxic conditions. Rather than affecting hydroxylase activity or HIF stability, ING4 mediates the ability of HIF to activate transcription of its downstream target genes. This additional mechanism of HIF regulation may serve to fine-tune the magnitude of the cellular hypoxic response under physiological conditions. Furthermore, the identification of a link between ING4 and HIF may shed light on a mechanism by which misregulation of ING4 in tumors promotes angiogenesis, loss of contact inhibition, and changes in cellular proliferation and survival.

Frequent deletion and decreased mRNA expression of ING4 suggested it as a class two tumor suppressor gene and may play an important role in head and neck cancer.

We previously showed two members of the ING family, ING1 and ING3 as a tumor suppressor gene in head and neck cancer. Progress in human genome sequencing provided additional information of the new members of the ING family genes. ING4 is localized to chromosome 12p13.31 region and harbors the PHD domain highly homologous among ING family proteins. We analyzed loss of heterozygosity at 12p12-13 region in 50 head and neck squamous cell carcinomas by using six highly polymorphic microsatellite markers and found allelic loss in 66% (33/50) of the informative cases. To clarify the role of ING4 in head and neck carcinogenesis, we first checked mutation status in tumor samples. As mutation of the ING4 gene was not found in head and neck cancers, we examined the mRNA expression level. Quantitative real-time RT-PCR analysis demonstrated decreased expression of ING4 mRNA in 76% of primary tumors as compared with that of matched normal samples. Since p53 dependent pathways of other ING family members have been shown, we examined p53 mutation status and compared with ING4 mRNA expression in tumor samples. However, no such direct relationship has been detected. In conclusion, frequent deletion and decreased mRNA expression of ING4 suggested it as a class two tumor suppressor gene and may play an important role in head and neck cancer.

The candidate tumor suppressor ING4 represses activation of the hypoxia inducible factor (HIF).

The hypoxia inducible factor (HIF) plays an important role in the progression of a number of pathophysiological processes including tumorigenesis. In addition to several well characterized oxygen-dependent modes of regulation, the function of the HIF transcription factor can also be influenced through the action of other regulatory pathways. Misregulation of these factors resulting in inappropriate HIF expression or activity can contribute to the progression of human cancers through the induction of genes promoting angiogenesis, glycolysis, cell survival, and metastasis, among other processes. The candidate tumor suppressor protein inhibitor of growth family member 4 (ING4) has recently been implicated as a repressor of angiogenesis and tumor growth through association with NF-kappaB. Here we demonstrate that suppression of ING4 further induces HIF transcriptional activity as well. ING4 directly associates with the HIF prolyl hydroxylase, an Fe(II)-dependent oxygenase previously shown to mediate HIF stability as a function of oxygen availability. However, rather than affecting HIF's stability, ING4 mediates HIF's activity. These data support a model in which, in addition to regulating HIF stability, HIF prolyl hydroxylases can modulate HIF function through the recruitment of ING4, a likely component of a chromatin-remodeling complex.

"detected deletion of the ING4 locus in 10-20% of human breast cancer cell lines and primary breast tumors, supporting the possibility that ING4 might be a tumor suppressor gene"

We have devised a screen for genes that suppress the loss of contact inhibition elicited by overexpression of the protooncogene MYCN. The initial application of this screen detected nine distinctive suppressors within a representative human cDNA library. One of these genes was ING4, a potential tumor suppressor gene that maps to human chromosome 12p13. Ectopic expression of ING4 suppressed the loss of contact inhibition elicited by either MYCN or MYC but had no direct effect on cellular proliferation. Pursuing the possibility that ING4 might be a tumor suppressor gene, we found inactivating mutations in ING4 transcripts from various human cancer cell lines. In addition, we used comparative genomic hybridization to detect deletion of the ING4 locus in 10-20% of human breast cancer cell lines and primary breast tumors. Ectopic expression of ING4 attenuated the growth of T47D human breast cancer cells in soft agar. We conclude that ING4 is a strong candidate as a tumor suppressor gene.

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