DLX5 (distal-less homeobox 5)

2014-03-01   Yorick Gitton  , Giovanni Levi  

Identity

HGNC
LOCATION
7q21.3
IMAGE
Atlas Image
LEGEND
Local order of DLX5 and flanking genes DLX6 and ACN9 is shown, with centromere at left and telomere (qter) at right. Arrows indicate transcriptional orientation of individual genes. DLX6 gene range: 96635290 - 96640352; DLX5 gene range: 96649702 - 96654143; ACN9 gene range: 96745905 - 96811075 (Hillier et al., 2003).
LOCUSID
ALIAS
SHFM1,SHFM1D

Abstract

DLX5 belongs to the six-member family of DLX genes characterized by a homeobox related to that found in the insect Distal-less (Dll) gene. The six DLX genes are organized as three bigenic pairs with a tail-to-tail orientation (Zerucha et al., 2000) and located on chromosomes where HOX clusters are also found (DLX5\/DLX6; 7q21.3, syntenic to the HOXA cluster), (DLX1\/DLX2; 2q32, syntenic to the HOXD cluster; Simeone et al., 1994) and (DLX3\/DLX4; 17q21.33, syntenic to the HOXB cluster). During embryonic development DLX genes are involved in the control of appendage and craniofacial morphogenesis and in the differentiation of reproductive organs; in the adult they play a role in bone homeostasis and in the maintenance of tissue integrity.

DNA/RNA

Atlas Image
Exon 1: 1 - 563; exon 2: 2463 - 2647; exon 3: 3767 - 4442.

Description

The DLX5 gene is composed of 3 exons spanning a genomic region of 4442 bp.

Genomic features
Mutations: Breakpoint analyses of genomic deletions and chromosomal rearrangements in the congenital split-hand/split-foot malformation (SHFM type 1D, OMIM #220600), have shown that positional effect and disrupted regulatory elements controlling DLX5/DLX6 activity are involved in the pathogenesis of this developmental disorder (see further "dysmorphologies"). In-depth sequencing of the candidate regions has shown that the expression of DLX6 depends upon the activity of conserved regulatory elements shared with DLX5, and located both within the DLX5/DLX6 intergenic territory and outside of the locus (Lango Allen et al., 2014). Furthermore these enhancers have been identified in all examined species - including in mouse where transgenic analyses have allowed the functional characterization of their tissue-specificity.
Moreover, recent analyses of genomic integrity in SHFM1D probands have unravelled two new intragenic, non-synonymous mutations within the open reading frame of DLX5.
Imprinting: The status of parental imprinting of the DLX5/DLX6 locus has recently gained strong interest as these genes have been considered to be putative methylation targets of the methyl-CpG binding protein-2 (MECP2), and thus might be indirectly involved in the aetiology of the Rett syndrome, a severe X-linked neurodevelopmental disorder afflicting girls with MECP2 mutation (see further "Rett syndrome").

Transcription

The DLX5 coding sequence consists of 870 bp from the start of the first codon to the stop codon (Simeone et al., 1994).

Pseudogene

None known.

Proteins

Atlas Image
DLL_N: homeobox protein distal-less-like N terminal; Homeodomain: homeobox DNA binding domain.

Description

The DLX5 protein consists of 289 amino acids with a calculated molecular weight of 31,5 kDa. The protein contains two motifs, one dubbed homeobox protein distal-less-like N terminal and a second known as a homeodomain.

Localisation

Nucleus.

Function

Transcription factor important in the control of bone formation in embryonic development (Hassan et al., 2004).
Transcription from DLX5 yields three splice variants, which range from 1062 b to 1688 b (major isoform) due to alternative splicing sites throughout the precursor transcript. The shortest (Dlx5-002) is not processed. The other two share exon 1 which encodes an N-terminal DLL domain, and exon 2 which encodes a part of the homeodomain.
The shorter transcript (DLX5-003) encodes a predicted 191 AA-long, 20.9 kDa isoform with both N-terminal DLL domain and a homeodomain. It should be observed that in vitro 35S-primed expression from full-length murine Dlx5 yields only one isoform at 32 kDa (Zhang et al., 1997). The latter study provided evidence for an incompatibility between Dlx5 DNA binding to its target homeodomain-responsive element (TAATTA) and heterodimerization with its partner Msx factor. It further showed that both events were mutually antagonistic, suggesting a regulatory role during Dlx/Msx-controlled morphogenetic processes such as branchial arch and limb formation.
During bone formation, Dlx5 (pI 9.3) transactivation activity is enhanced through serine phosphorylation in the nucleus by p38 MAP-kinase upon BMP2 signaling (Ulsamer et al., 2008). Dlx5 has further been shown to be subjected to threonine phosphorylation by PKA during BMP2-induced osteoblast differentiation, which increases Dlx5 nuclear levels by improving its stability (Han et al., 2011).
Atlas Image
NCBI/COBALT alignment of DLX homeoproteins. Note the disposition according to the DLX 1/4/6 versus DLX 2/3/5 clades. Indicated by a yellow box is the ultraconserved glutamine featured by most homeoproteins at position 50 of the homeodomain.

Homology

None reported to date.

Mutations

Germinal

A novel DLX5 mutation (c.A533C: p.Q178P) was identified in a family with autosomal recessive split hand and foot malformation (Shamseldin et al., 2012).
Recently, a second rare familial case of SHFM1 has been demonstrated to result, with highest probability, from intragenic missense mutations of a critical glutamine residue in the third helix of the DLX5 homeodomain - Q186H (Wang et al., 2014). The encoded mutant DLX5 has been demonstrated to fail at transactivating a bona fide MYC target. Such an observation is not unexpected as this mutation affects Q50, the most conserved residue of all homeoproteins (see diagram above), which numerous biochemical studies have demonstrated to be responsible for the specificity of the DNA recognition at the TAATT homeo-element (for review, Galliot et al., 1999).

Somatic

A DLX5 mutation (c.C119G: p.S40C) was observed in an ovarian carcinoma (Cancer Genome Atlas Research Network, 2011).
Overexpression of DLX5 has been reported in several types of human malignancy including lung cancer (Kato et al., 2008; Xu and Testa, 2009), T-cell lymphoma (Tan et al., 2008), and ovarian cancer (Tan et al., 2010), etc.

Implicated in

Entity name
Lung cancer
Note
The DLX5 gene was reported to be overexpressed in the great majority of human non-small cell lung cancers examined by Kato et al., 2008. Furthermore, immunohistochemical studies revealed that positive immunostaining for DLX5 correlated with tumor size and poorer prognosis.
A DLX5 transcript isoform has been shown to be strongly overexpressed in a large panel of primary lung cancer samples, providing a reliable prognosis marker (Kato et al., 2008). In this study, the detected isoform (1.8 kb on Northern blot using a probe spanning exon 3 and 3UTR) was claimed to be found only in the placenta, among 23 normal adult tissues. It should be observed that other studies have reported numerous expression sites in adult human, including bone (osteoblasts and marrow), ear, tooth, fat and brain. With regards to function, down-regulation of DLX5 through RNA interference compromised the growth or survival of two lung cancer cell lines, suggesting that controling DLX5 expression levels might be clinically relevant (Kato et al., 2008).
Entity name
Lymphoma
Note
DLX5 was found to be highly expressed in 3 of 7 (42%) patient-derived T-cell lymphomas compared with that observed in nonmalignant lymph node samples (Tan et al., 2008). In addition, these investigators found repeated upregulation of Dlx5 in T-cell lymphomas from transgenic mice in which the Lck promoter was used to drive expression of a constitutively active form of Akt2 in the thymus. Dlx5 was overexpressed due to a novel chromosome inversion that placed the T-cell receptor beta (Tcrb) enhancer region near the Dlx5 locus.
Entity name
Breast cancer
Note
Both DLX5 and DLX6 were found to be upregulated during metastasis formation after intravenous injection of MDA-MB-231 breast cancer cells. The in vitro treatment of MDA-MB-231 cells with endothelin 1, a peptide associated with breast cancer invasive phenotype, resulted in a switch from DLX2 to DLX5 expression. Mutually exclusive expression of DLX2 and DLX5 was found in both MDA-MB-231 cells and human breast cancer specimens. This evidence suggested that DLX genes are involved in human breast cancer progression, and that expression of DLX2 and DLX5 genes might serve as prognostic markers (Morini et al., 2010).
Entity name
Astrocytoma
Note
Transcriptional profiling in search for prognosis markers has identified DLX5 as an upregulated candidate for high-grade astrocytomas (Phillips et al., 2006).
Entity name
Various cancers
Note
DLX5 mRNA is abundantly expressed in many cancer cell lines derived from malignant tissues of breast, brain, lung, skin, and ovarian cancer patients, whereas expression of DLX5 was low or undetectable in tumor cells from patients with leukemia or with colorectal, prostate, and kidney cancers (Tan et al., 2010).
Entity name
Dysmorphologies
Note
Split hand-foot malformation (SHFM) type 1 with sensory-neural hearing loss (SHFM1D; MIM:220600). This malformative syndrome affects hands and feet alike, resulting in moderate to severe median ray deficiency with syndactily. Among the described six non-syndromic SHFM loci, one spans the DLX5/DLX6 bigenic cluster (Scherer et al., 1994; Crackower et al., 1996). However, numerous reported mutations spare DLX5 or DLX6 open reading frames, suggesting it may rather be their common regulatory elements which is impacted (Robledo et al., 2002; Lo Iacono et al., 2008). However recently, one rare familial case of SHFM1 has been demonstrated to result, with highest probability, from an intragenic missense mutation of the DLX5 homeodomain (Q178P; Shamseldin et al., 2012). In the latter case, a causal link between defective DLX5/DLX6 expression and the pathogenic mechanism impairing limb development remains to be elucidated (Lango Allen et al., 2014).
On a further note, SHFM cases have often been reported to include hearing loss, a trait consistent with a developmental role demonstrated for Dlx5/Dlx6 during ear formation in mouse embryogenesis (Acampora et al., 1999; Merlo et al., 2002; Robledo and Lufkin, 2006; Chatterjee et al., 2010; Frenz et al., 2010). Moreover, both genes are major targets of two regulator genes whose deficiencies are responsible for a related pathogenic condition, the auriculo-condylar syndrome (ACS, Rieder et al., 2012; Brown et al., 2010).
Anorectal malformation associated with SHFM has been reported in a family with a missense mutation in the P63 gene, a known direct upstream regulator of DLX5/DLX6 during morphogenesis (Su et al., 2013). Whether DLX5/DLX6 expression is dysregulated in this condition, and whether this trait can be functionaly associated with the phenotype, remains to be elucidated.
Entity name
Rett syndrome
Note
DLX5 and DLX6 (OMIM 600028) have been controversial candidates for neurodevelopmental defects progressively afflicting young girls suffering of Rett syndrome (OMIM 312750). This late onset disorder features fatal motor abnormalities, seizures, autism and mental retardation. While the genomic sequence of the DLX5/DXL6 locus remains unaffected in all reported cases, it is a direct target of the transcriptional regulator methyl-CpG-binding protein 2 (MeCP2), which has been strongly associated to this syndrome by linkage analysis (Horike et al., 2005). While still debated (Horike et al., 2005; Schüle et al., 2007; LaSalle, 2007; Miyano et al., 2008), initial MeCP2 deficiency is considered as causing defective neurogenesis through dysregulated expression of DLX5/DLX6, due to altered chromatin state at this target locus (Horike et al., 2005; Lilja et al., 2013). Mouse mutagenesis has substantiated this hypothesis by pinpointing GABA (γ-aminobutyric acid)-releasing neurons as a major cellular target expressing Dlx5 and Dlx6, whose deficiency impairs neurogenesis in MeCP2 null mutant (Chao et al., 2010).
Entity name
Osteoporosis
Note
Mouse mutational studies have demonstrated a role for Dlx5 and Dlx6 as a major determinant of chondrogenesis and chondrocyte hypertrophy in the endochondral skeleton, throughout embryogenesis and adulthood (Samee et al., 2007; Samee et al., 2008; Samee et al., 2009). These observations pave the way for a better understanding of human osteoporosis, in particular in patients with dysfunctional regulation of bone-remodeling hormonal levels (Prall et al., 2013).
Entity name
Reproductive tract
Note
Dlx5 and Dlx6 are involved in the development and function of the reproductive tract. The dual mouse mutant for Dlx5 and Dlx6 displays abnormal urethra formation (Suzuki et al., 2007), reduced testicular steroidogenesis with feminization (Nishida et al., 2008), and early ovarian follicular depletion (Bouhali et al., 2011). A human mutation in a genomic region including DLX5 and DLX6 has been associated to a case of familial premature ovarian failure (Caburet et al., 2012).
Entity name
Teratology
Note
With regards to pharmacologically-induced teratogenesis, dysregulation of DLX5/DLX6 gene expression has been demonstrated to be a major step during craniofacial embryopathy induced by two compounds:
i) retinoic acid, a vitamin A derivative found in the RoAccutane ® drug, which indirectly prevents the induction of DLX5/DLX6 in human (Lammer et al., 1985; Coberly et al., 1996) and in all animal models investigated (Vieux-Rochas et al., 2007), which share a wide range of jaw and ear malformations;
ii) the food contaminant ochratoxin A, a fungal toxin demonstrated to prevent Dlx5 activation in exposed mouse embryos, which later develop craniofacial malformations (Wei and Sulik, 1993; Napoletano et al., 2010). Although a causal link between Dlx5, Dlx6 and the toxin remains to be functionally demonstrated, this observation may account for teratogenesis observed in human embryos maternally exposed to the toxin (Hope and Hope, 2012; Thrasher et al., 2012).

Article Bibliography

Pubmed IDLast YearTitleAuthors

Other Information

Locus ID:

NCBI: 1749
MIM: 600028
HGNC: 2918
Ensembl: ENSG00000105880

Variants:

dbSNP: 1749
ClinVar: 1749
TCGA: ENSG00000105880
COSMIC: DLX5

RNA/Proteins

Gene IDTranscript IDUniprot
ENSG00000105880ENST00000486603P56178
ENSG00000105880ENST00000648378P56178
ENSG00000105880ENST00000648378Q53Y73

Expression (GTEx)

0
5
10
15
20
25
30
35

Pathways

PathwaySourceExternal ID
Signaling pathways regulating pluripotency of stem cellsKEGGhsa04550
Signaling pathways regulating pluripotency of stem cellsKEGGko04550

Protein levels (Protein atlas)

Not detected
Low
Medium
High

References

Pubmed IDYearTitleCitations
377761842024Sequence variants in DLX5, HOXD13 and 445 kb-microduplication surrounding BTRC cause split-hand/foot malformation in three different families.0
377761842024Sequence variants in DLX5, HOXD13 and 445 kb-microduplication surrounding BTRC cause split-hand/foot malformation in three different families.0
342836522021Dlx5 promotes cancer progression through regulation of CCND1 in oral squamous cell carcinoma (OSCC).4
343700132021Activation of bivalent factor DLX5 cooperates with master regulator TP63 to promote squamous cell carcinoma.9
347053452021Identification and functional analysis of changes to the ox-LDL-induced microRNA-124-3p/DLX5 axis in vascular smooth muscle cells.1
342836522021Dlx5 promotes cancer progression through regulation of CCND1 in oral squamous cell carcinoma (OSCC).4
343700132021Activation of bivalent factor DLX5 cooperates with master regulator TP63 to promote squamous cell carcinoma.9
347053452021Identification and functional analysis of changes to the ox-LDL-induced microRNA-124-3p/DLX5 axis in vascular smooth muscle cells.1
326504302020Distal-Less Homeobox 5 Is a Therapeutic Target for Attenuating Hypertrophy and Apoptosis of Mesenchymal Progenitor Cells.6
328563772020Inhibition of microRNA-27b-3p relieves osteoarthritis pain via regulation of KDM4B-dependent DLX5.4
326504302020Distal-Less Homeobox 5 Is a Therapeutic Target for Attenuating Hypertrophy and Apoptosis of Mesenchymal Progenitor Cells.6
328563772020Inhibition of microRNA-27b-3p relieves osteoarthritis pain via regulation of KDM4B-dependent DLX5.4
301761052019Children's biobehavioral reactivity to challenge predicts DNA methylation in adolescence and emerging adulthood.2
305038662019Distal-less homeobox 5 promotes the osteo-/dentinogenic differentiation potential of stem cells from apical papilla by activating histone demethylase KDM4B through a positive feedback mechanism.13
301761052019Children's biobehavioral reactivity to challenge predicts DNA methylation in adolescence and emerging adulthood.2

Citation

Yorick Gitton ; Giovanni Levi

DLX5 (distal-less homeobox 5)

Atlas Genet Cytogenet Oncol Haematol. 2014-03-01

Online version: http://atlasgeneticsoncology.org/gene/44295/gene-fusions-explorer/case-report-explorer/favicon/favicon-16x16.png

Historical Card

2012-03-01 DLX5 (distal-less homeobox 5) by  Jinfei Xu,Joseph R Testa 

Cancer Biology Program, Fox Chase Cancer Center, Philadelphia, Pennsylvania, USA