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ABSTRACT: Disorders of sexual development represent a pathologic and clinical challenge. Many different clinical syndromes exist, and several classifications have been proposed in relation to different risks for malignant degeneration. The morphology, cytogenetics, and immunophenotype of a monolateral ovotestis in a 3-month-old individual with ambiguous genitalia and right inguinal mass are reported. The inguinal mass consisted of a tiny female genital tract with a hermaphroditic gonad with focal placental-like alkaline phosphatase-stained gonocytes; chromosome analysis disclosed a mosaic constitution: 46,XderY/45,X with a rearranged Y chromosome. A sharp morphologic distinction between true hermaphroditism and mixed gonadal dysgenesis probably does not exist, and cytogenetic characterization is mandatory. The presence of placental-like alkaline phosphatase-stained gonocytes indicates a high risk of malignant transformation, and justifies the surgical removal of the dysgenetic gonad. Fertility is unlikely.
International Journal of Gynecological Pathology 12/2009; 29(1):33-38. · 1.45 Impact Factor
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ABSTRACT: We report on two brothers with moderate-to-severe mental retardation, severe macrocephaly, obesity, characteristic face, big hands and feet, advanced bone age and brain abnormalities, including frontal cortical atrophy. These two boys resembled the two brothers described by , two maternal cousins subsequently reported by and a Brazilian boy described by . Upon further investigation, we detected a cryptic subtelomeric deletion of chromosome region 22q13, not present in either parent and probably due to a maternal germinal mosaicism. Thus, we describe the first familial case of 22q13 deletion and recommend that patients with a phenotype suggestive of the so-called Clark-Baraitser syndrome be tested for submicroscopic 22qter deletion.
Clinical Dysmorphology 08/2005; 14(3):127-32. · 0.54 Impact Factor
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ABSTRACT: Migraine is the most common type of chronic episodic headache. Several population-based family studies have suggested a strong genetic predisposition to migraine, especially migraine with aura (MA). Although several susceptibility loci have been identified, none of the numerous studies performed to date have led to the identification of a gene responsible for the more common forms of migraine. GABA-A receptors and their modulator sites seem to be involved in the pathophysiological events that underlie migraine. We report on clinical and molecular data from a total of 10 families with MA, in which MA segregates as an autosomal dominant trait and presents with homogeneous clinical features. After excluding linkage with the known candidate loci, we used a functional candidate approach and genotyped these families with markers from the 15q11-q13 genomic region, which contains the genes encoding GABA-A receptor subunits. Evidence of linkage was obtained with a parametric two-point linkage analysis (maximum LOD score of 5.56 at a recombination fraction of 0.001 for marker GABRB3) and was supported by multipoint analysis (maximum LOD score of 6.54 between markers D15S113 and D15S1019). The critical region spanned 3.6 Mb. These results provide the basis for further investigation of the hypothesized relationship between a GABA-A receptor dysfunction and migraine.
The American Journal of Human Genetics 03/2005; 76(2):327-33. · 10.60 Impact Factor
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Xavier J de Mollerat,
Fiorella Gurrieri,
Chad T Morgan, Eugenio Sangiorgi,
David B Everman,
Paola Gaspari,
Jeanne Amiel,
Michael J Bamshad,
Robert Lyle,
Jean-Louis Blouin, [......],
Nancy E Braverman,
Uppala Radhakrishna,
Celia Delozier-Blanchet,
Albert Abbott,
Vincent Elghouzzi,
Stylianos Antonarakis,
Roger E Stevenson,
Arnold Munnich,
Giovanni Neri,
Charles E Schwartz
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ABSTRACT: Split hand-split foot malformation (SHFM) is characterized by hypoplasia/aplasia of the central digits with fusion of the remaining digits. SHFM is usually an autosomal dominant condition and at least five loci have been identified in humans. Mutation analysis of the DACTYLIN gene, suspected to be responsible for SHFM3 in chromosome 10q24, was conducted in seven SHFM patients. We screened the coding region of DACTYLIN by single-strand conformation polymorphism and sequencing, and found no point mutations. However, Southern, pulsed field gel electrophoresis and dosage analyses demonstrated a complex rearrangement associated with a approximately 0.5 Mb tandem duplication in all the patients. The distal and proximal breakpoints were within an 80 and 130 kb region, respectively. This duplicated region contained a disrupted extra copy of the DACTYLIN gene and the entire LBX1 and beta-TRCP genes, known to be involved in limb development. The possible role of these genes in the SHFM3 phenotype is discussed.
Human Molecular Genetics 09/2003; 12(16):1959-71. · 7.64 Impact Factor
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ABSTRACT: In this review we describe the developmental mechanisms involved in the making of a limb, by focusing on the nature and types of interactions of the molecules that play a part in the regulation of limb patterning and characterizing clinical conditions that are known to result from the abnormal function of these molecules. The latter subject is divided into sections dealing with syndromal and nonsyndromal deficiencies, polydactylies, and brachydactylies. Conditions caused by mutations in homeobox genes and fibroblast growth factors and their receptor genes are listed separately. Since the process of limb development has been conserved for more than 300 millions years, with all the necessary adaptive modifications occurring throughout evolution, we also take into consideration the evolutionary aspects of limb development in terms of genetic repertoire, molecular pathways, and morphogenetic events.
American Journal of Medical Genetics 01/2003; 115(4):231-44.
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Hans van Bokhoven,
Ben C J Hamel,
Mike Bamshad, Eugenio Sangiorgi,
Fiorella Gurrieri,
Pascal H G Duijf,
Kaate R. J. Vanmolkot,
Ellen van Beusekom,
Sylvia E C van Beersum,
Jacopo Celli, [......],
Annick Raas-Rotschild,
Frank Majewski,
Frits A Beemer,
Andreas Janecke,
David Chitayat,
Giangiorgio Crisponi,
Hülya Kayserili,
John R. W. Yates,
Giovanni Neri,
Han G Brunner
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ABSTRACT: p63 mutations have been associated with EEC syndrome (ectrodactyly, ectodermal dysplasia, and cleft lip/palate), as well as with nonsyndromic split hand–split foot malformation (SHFM). We performed p63 mutation analysis in a sample of 43 individuals and families affected with EEC syndrome, in 35 individuals affected with SHFM, and in three families with the EEC-like condition limb-mammary syndrome (LMS), which is characterized by ectrodactyly, cleft palate, and mammary-gland abnormalities. The results differed for these three conditions. p63 gene mutations were detected in almost all (40/43) individuals affected with EEC syndrome. Apart from a frameshift mutation in exon 13, all other EEC mutations were missense, predominantly involving codons 204, 227, 279, 280, and 304. In contrast, p63 mutations were detected in only a small proportion (4/35) of patients with isolated SHFM. p63 mutations in SHFM included three novel mutations: a missense mutation (K193E), a nonsense mutation (Q634X), and a mutation in the 3′ splice site for exon 5. The fourth SHFM mutation (R280H) in this series was also found in a patient with classical EEC syndrome, suggesting partial overlap between the EEC and SHFM mutational spectra. The original family with LMS (van Bokhoven et al. 1999) had no detectable p63 mutation, although it clearly localizes to the p63 locus in 3q27. In two other small kindreds affected with LMS, frameshift mutations were detected in exons 13 and 14, respectively. The combined data show that p63 is the major gene for EEC syndrome, and that it makes a modest contribution to SHFM. There appears to be a genotype-phenotype correlation, in that there is a specific pattern of missense mutations in EEC syndrome that are not generally found in SHFM or LMS.
