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Orofacial clefting is genetically complex, no single gene being responsible for all forms. It can, however, result from a single gene defect either as part of a syndrome (e.g. van der Woude syndrome, Treacher-Collins syndrome, velo-cardio-facial syndrome) or as an isolated phenotypic effect (e.g. X-linked cleft palate; non-syndromic, autosomal dominant orofacial clefting). Several studies have suggested that chromosome 6p is a candidate region for a locus involved in orofacial clefting. We have used YAC clones from contigs in 6p25-p23 to investigate three unrelated cases of cleft lip and palate coincident with chromosome 6p abnormalities. Case 1 has bilateral cleft lip and palate and a balanced translocation reported as 46,XY,t(6,7)(p23;q36.1). Case 2 has multiple abnormalities including cleft lip and palate and was reported as 46,XX,del(6)(p23;pter). Case 3 has bilateral cleft lip and palate and carries a balanced translocation reported as 46,XX,t(6;9)(p23;q22.3). We have identified two YAC clones, both of which cross the breakpoint in cases 1 and 3 and are deleted in case 2. These clones map to 6p24.3 and therefore suggest the presence of a locus for orofacial clefting in this region. The HGP22 and AP2 genes, potentially involved in face formation, have been found to flank this region, while F13A maps further telomeric in 6p24.3/25.
Hum Mol Genet 1995 Jan
PMID:Evidence of a locus for orofacial clefting on human chromosome 6p24 and STS content map of the region. 771 23

Van der Woude syndrome (VWS) is an autosomal dominant craniofacial disorder representing the most frequent form of syndromic cleft lip and palate. Other characteristic features are pits of the lower lip and hypodontia. The gene shows high penetrance and seems to play an important role in orofacial development determined by the tissues involved and their formation during different periods of craniofacial development. Although most individuals affected with VWS show Mendelian inheritance, one patient with a macroscopic deletion and multiple malformations including two primary features of VWS has been described in the literature, indicating hemizygosity is compatible with the VWS phenotype. We report here the allelic loss of a stable and highly polymorphic microsatellite (D1S205) from region 1q32-41 in one family with VWS. Classical manifestations of the syndrome superimposed on developmental delay in all affected members of the family, the absence of cytogenetic abnormalities, the reproducibility of the null allele with a new set of primers and close linkage of this marker in a total of 15 VWS families provide strong evidence that the first microdeletion involving the gene for VWS has been identified. Assuming 1 Mb of DNA per cM of genetic distance, the upper bound of the deletion size would amount to 4 Mb.
Hum Mol Genet 1994 Apr
PMID:Evidence for a microdeletion in 1q32-41 involving the gene responsible for Van der Woude syndrome. 806 1

The gene encoding dihydrofolate reductase-thymidylate synthase of the human malaria parasite, Plasmodium vivax, was isolated by polymerase chain reaction from genomic DNA and cloned. The sequences of the dihydrofolate reductase domain of 30 clinical isolates originating from various geographic areas were compared. Interstrain analysis revealed several genotypic variations, including short tandem repeat arrays which produced length polymorphism between different parasite isolates and point mutations in the putative dihydrofolate reductase active site cavity corresponding to those associated with pyrimethamine resistance in P. falciparum and rodent malaria parasites. Amino acid substitutions Ser-->Asn-117 and Ser-->Arg-58 were associated with decreased level of in vitro pyrimethamine sensitivity. These findings suggest that the P. vivax dihydrofolate reductase domain is characterized by polymorphism that has not been observed in P. falciparum and may explain the resistance of some P. vivax isolates to pyrimethamine. Nucleotide sequence data reported in this paper are available in the EMBL, GenBank and DDJB databases under the accession numbers X98123 (isolate ARI/Pakistan), AJ003050 (isolate CNC/Thailand), AJ003051 (isolate COU/unknown geographic origin), AJ003052 (isolate DUF/French Guiana), AJ003053 (isolate GRO/Madagascar), AJ003054 (isolate HRT/Comoros Islands), AJ003071 (isolate LFT/Cambodia), AJ003072 (isolate LGF/'India), AJ003073 (isolate MAN/Comoros Islands), AJ003074 (isolate MAT/Surinam), AJ003075 (isolate PHI/Djibouti), AJ003076 (isolate PIT/Madagascar), AJ003077 (isolate YTZ/Indonesia), AJ222630 (isolate Burma-1), AJ222631 (isolate Burma-151), AJ222632 (isolate Burma-5), AJ222633 (isolate Burma-6), AJ222634 (isolate Burma-98).
Mol Biochem Parasitol 1998 May 01
PMID:Sequence variations in the Plasmodium vivax dihydrofolate reductase-thymidylate synthase gene and their relationship with pyrimethamine resistance. 965 31

Van der Woude syndrome (VWS) is an autosomal dominant disorder comprising cleft lip and/or cleft palate and lip pits. We reported previously a family whose underlying mutation is a 500-800 kb deletion localized to chromosome bands 1q32-q41 [Sander et al., 1994: Hum Mol Genet 3:576-578]. Along with cleft lip/palate and lip pits, affected relatives exhibit developmental delays, suggesting that the function of a gene nearby may also be disrupted. To further localize the VWS gene we searched for other deletions that cause VWS. An allele loss assay was performed using a novel highly polymorphic marker, D1S3753. From a panel of 37 unrelated individuals, we detected an allele loss in one family, indicating the presence of a deletion. In this family, the phenotype in three generations of affected individuals was confined to the cardinal signs of VWS. Surprisingly, mapping of the new deletion showed that it extended 0.2-1 Mb beyond the proximal breakpoint for the deletion described previously. No deletions were detected in seven cases of popliteal pterygia syndrome, 76 cases of mixed syndromic forms of cleft lip and palate, and 178 cases of nonsyndromic cleft lip and palate. These observations suggest that genetic searches for microdeletions should be routine in screening patients for causes of VWS and may facilitate the positional cloning efforts of the VWS gene and of a nearby gene or genes that may be involved in brain development.
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PMID:Microdeletions at chromosome bands 1q32-q41 as a cause of Van der Woude syndrome. 1032 40

Van der Woude syndrome (VWS) is an autosomal dominant disorder and the most common cleft syndrome characterized by cleft lip and palate with lip pits. Very recently, mutations in the interferon regulatory factor 6 gene (IRF6) were identified to cause VWS in patients of northern European descent. We describe a Thai family with VWS. The proband, an 8-month-old boy, had bilateral complete cleft lip and palate, and two conical elevations with lip pits on his lower lip. Four other family members had various manifestations of the clefts and lower lip pits. Mutation analysis of the proband and his mother for the entire coding region of IRF6 identified a novel mutation, 1234del(C), in its exon 9. The deletion is expected to result in some amino acid changes followed by truncation at amino acid 435. This observation supports that IRF6 is the gene responsible for VWS across different populations and that haploinsufficiency of the gene disturbs development of the lip and palate.
Int J Mol Med 2003 Apr
PMID:A novel mutation, 1234del(C), of the IRF6 in a Thai family with Van der Woude syndrome. 1263 5

Van der Woude syndrome (VWS) is the most common autosomal dominant disorder with characteristic lip pits and clefts of the lip and/or palate (CL/P). The interferon regulatory factor 6 gene (IRF6) has been recently identified as the gene mutated in patients with VWS. Here, we report two novel mutations of IRF6 in two unrelated Korean families with VWS. A frame-shift mutation, 399delC, was identified from a family showing complete cleft lip and palate with a lower lip pit in an affected daughter. Her father, carrying the same mutation, showed bifid uvula with a pit on his lower lip. This mutation causes a frame-shift at pro133 and a premature termination at codon 165. The second mutation, G74C, was detected from an affected son and his mother, both suffered from bilateral cleft lip and palate with pits on the lower lip. This G74C mutation substitutes an alanine for a glycine at codon 25 in the DNA-binding domain. Both mutations are presumably expected to disturb the transcription regulatory function of IRF6. Our findings further confirm that the mutated IRF6 gene is associated with impaired morphogenesis of the lip and palate in a dominant-negative manner.
Int J Mol Med 2003 Oct
PMID:Identification of two novel mutations of IRF6 in Korean families affected with Van der Woude syndrome. 1296 20

Van der Woude syndrome (VWS) is an autosomal dominant disorder characterized by clefts of the lip and/or palate (CL+/-P), lip pits, bifid uvula and hypodontia. Mutations of the interferon regulatory factor 6 gene (IRF6) have been recently described in patients with VWS. The entire 9 exons of the IRF6 gene in two brothers of Turkish origin clinically diagnosed with Van der Woude syndrome and four healthy family members were screened for mutations using a newly established denaturing gradient gel electrophoresis (DGGE) method. A novel heterozygous mutation in exon 2 (DNA binding region) of the IRF6 gene, p.Arg84Gly, was found in both brothers with VWS and in their clinically asymptomatic mother. Our results suggest a dominant negative effect of the p.Arg84Gly mutation in the VWS of both patients. Non-penetrance of this mutation is suggested in the mother of the patients.
Int J Mol Med 2005 Feb
PMID:Van Der Woude syndrome: variable penetrance of a novel mutation (p.Arg 84Gly) of the IRF6 gene in a Turkish family. 1564 39

Van der Woude syndrome (VWS) is an autosomal dominant disorder of syndromic clefts clinically characterized by lower lip pits, cleft lip and/or palate, hypodontia. Mutations in the IRF6 gene have recently been found to cause VWS and more than 70 mutations have been reported. However, genotype distribution and prevalence of IRF6 mutations underlying Chinese are largely unknown. In the present study, we report on four Chinese families with VWS. Considerably variable clinical phenotypes were observed between and within each family. By direct sequencing, three novel mutations (Y111H, S407fsX436, F165fsX166) as well as a recurrent mutation (R400W) were identified. In contrast to the IRF6 mutations reported in Caucasians, the majority of these mutations occurred at a run of 1- or 2-base repetitive sequence unit, and localized neither in the conserved DNA-binding domain nor in the Smad-interferon regulatory factor-binding domain (SMIR). Therefore, our results indicate the existence of other putative IRF6 regions that are predisposed to mutations. Repeated nucleotides in the IRF6 coding regions may increase the instability and chance of DNA replication errors, and are prone to be potential mutation hot-spots.
Int J Mol Med 2005 Nov
PMID:Identification of novel mutations of IRF6 gene in Chinese families with Van der Woude syndrome. 1621 Dec 54

Van der Woude syndrome (VWS) is the most common type of syndromic orofacial cleft, which accounts for approximately 2% of all cleft lip and palate cases. It is characterised by variable association of lower lip pits, cleft lip and cleft palate, and hypodontia. VWS arises as the result of mutations in the gene encoding interferon regulatory factor 6 (IRF6). The disorder is transmitted in an autosomal dominant manner, with high penetrance and variable expressivity. Very recently, mutations of the IRF6 gene in exons 2-9 have been found in VWS patients, suggesting that this gene plays an important role in orofacial development. We report a novel mutation of the IRF6 gene in a German family. Five out of the 12 persons affected were able to be investigated. The mutation produced a stop codon within exon 4 of the IRF6 gene. All 5 patients were heterozygous for a base substitution c.201C>A changing the tyrosine codon at amino acid position 67 into a stop codon (p.Y67X) in exon 4. The premature stop codon was responsible for a truncated protein lacking parts of the DNA- binding domain and the complete Smad-interferon regulatory factor-binding domain probably essential for interactions with the Smad transcription factors.
Int J Mol Med 2007 Jul
PMID:A novel IRF6 nonsense mutation (Y67X) in a German family with Van der Woude syndrome. 1754 93

Van der Woude syndrome is the most common cause of syndromic orofacial clefting. It is characterised by the presence of lip pits, cleft lip and/or cleft palate. It is transmitted in an autosomal dominant manner, with high penetrance and variable expressivity. Several mutations in the interferon regulatory factor 6 (IRF6) gene have been found in VWS families, suggesting that this gene is the primary locus. We screened for mutations in this gene in three families in our population. There was a recurrent nonsense mutation within exon 9 of the gene for a Malay family consisting of five affected members with different presentations. We also found a co-segregating rare polymorphism which would result in a non-synonymous change 23 bases downstream of the nonsense mutation. This polymorphism was present in <1% of the Malay subjects screened, but was not found among the Chinese and Indians in our population. For another family, a 396C-->T mutation (R45W in the DNA-binding domain) was found in the proband, although the possibility of a genetic defect elsewhere could not be excluded because his mother and twin sister (both unaffected) also had this variant. In the third case with complete absence of family history, a de novo deletion spanning the whole IRF6 gene was detected in the child with VWS. This case of haploinsufficiency caused disruption of orofacial development but not other organ systems as the child has no other medical or developmental abnormalities despite the deletion of at least five other genes.
Int J Mol Med 2008 Jun
PMID:Identification of IRF6 gene variants in three families with Van der Woude syndrome. 1850 68

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