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. 2003 Mar;72(3):590-7.
doi: 10.1086/367925. Epub 2003 Jan 30.

Mapping the Wolf-Hirschhorn syndrome phenotype outside the currently accepted WHS critical region and defining a new critical region, WHSCR-2

Marcella Zollino  1 Rosetta LecceRita FischettoMarina MurdoloFrancesca FaravelliAngelo SelicorniCinzia ButtèLuigi MemoGiuseppe CapovillaGiovanni Neri
Affiliations

Mapping the Wolf-Hirschhorn syndrome phenotype outside the currently accepted WHS critical region and defining a new critical region, WHSCR-2

Marcella Zollino et al. Am J Hum Genet. 2003 Mar.

Abstract

In an attempt to define the distinctive Wolf-Hirschhorn syndrome (WHS) phenotype, and to map its specific clinical manifestations, a total of eight patients carrying a 4p16.3 microdeletion were analyzed for their clinical phenotype and their respective genotypes. The extent of each individual deletion was established by fluorescence in situ hybridization, with a cosmid contig spanning the genomic region from MSX1 (distal half of 4p16.1) to the subtelomeric locus D4S3359. The deletions were 1.9-3.5 Mb, and all were terminal. All the patients presented with a mild phenotype, in which major malformations were usually absent. It is worth noting that head circumference was normal for height in two patients (those with the smallest deletions [1.9 and 2.2 Mb]). The currently accepted WHS critical region (WHSCR) was fully preserved in the patient with the 1.9-Mb deletion, in spite of a typical WHS phenotype. The deletion in this patient spanned the chromosome region from D4S3327 (190 b4 cosmid clone included) to the telomere. From a clinical point of view, the distinctive WHS phenotype is defined by the presence of typical facial appearance, mental retardation, growth delay, congenital hypotonia, and seizures. These signs represent the minimal diagnostic criteria for WHS. This basic phenotype maps distal to the currently accepted WHSCR. Here, we propose a new critical region for WHS, and we refer to this region as "WHSCR-2." It falls within a 300-600-kb interval in 4p16.3, between the loci D4S3327 and D4S98-D4S168. Among the candidate genes already described for WHS, LETM1 (leucine zipper/EF-hand-containing transmembrane) is likely to be pathogenetically involved in seizures. On the basis of genotype-phenotype correlation analysis, dividing the WHS phenotype into two distinct clinical entities, a "classical" and a "mild" form, is recommended for the purpose of proper genetic counseling.

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Figures

Figure 1
Figure 1
Frontal (a) and lateral (b) view of patient MG. Note the typical WHS facial appearance, with high forehead, frontal bossing, large eyes, high nasal bridge, down-turned mouth, and dysmorphic ears.
Figure 2
Figure 2
Genomic organization of the WHS region in chromosome 4p16.3. With the exception of the PAC clone 184O23, all the reported probes are cosmids, most of which were used in our analysis for FISH. A contig including all the WHS candidate genes (WHSC2, WHSC1, and LETM1) is indicated. Note that WHSC2 is identified by cosmid 96a2; WHSC1 by cosmids 19h1, 190b4, and, in part, 184d6; and LETM1 by cosmid 75b9 and by PAC clone 184O23. Relevant 4p deletions are indicated (top).
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References

Electronic-Database Information

    1. Ensembl Human Map, http://www.ensembl.org (for map of chromosome 4p)
    1. Online Mendelian Inheritance in Man (OMIM), http://www.ncbi.nlm.nih.gov/Omim/ (for WHS [MIM 194190], WHSC1 [MIM 602952], WHSC2 [MIM 606026], and LETM1 [MIM 604407])

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