Pallister-Killian syndrome: tetrasomy of 12pter-->12p11.22 in a boy with an analphoid, inverted duplicated marker chromosome.

Supernumerary marker chromosomes (SMCs) without detectable alphoid DNA are predicted to have a neocentromere and have been referred to as mitotically stable neocentromere marker chromosomes (NMCs). Here we report the molecular cytogenetic characterization of a new case of Pallister-Killian syndrome (PKS) in a boy with an analphoid, inverted duplicated NMC derived from 12pter-->12p11.22 in his fibroblasts by using high-resolution comparative genetic hybridization (HR-CGH), multiplex fluorescent in situ hybridization (FISH) and bacterial artificial chromosome (BAC)-FISH mapping analyses with various alpha-satellite DNA probes, subtelomere probes and BAC-DNA probes. Precise identification of SMCs and NMCs is of essential importance in genetic counseling. HR-CGH is a more informative and often a faster way of precisely identifying the origin of SMCs. This case is the third report of PKS with an NMC containing an inverted duplication of partial 12p with available clinical data. These observations may help to determine the critical region for PKS and the mechanisms leading to the origin of the NMC derived from 12pter-->12p11.22 - a region that appears to be susceptible to the formation of neocentromeres. The use of subtelomeric probe PCP12p in buccal cells appears superior to the use of the centromere probe D12Z3 for the diagnosis of the PKS.

The value of MLPA in Waardenburg syndrome.

Waardenburg syndrome (WS) is an autosomal-dominant neurocristopathy characterized by sensorineural hearing loss, pigmentary abnormalities of the iris, hair, and skin, and is responsible for about 3% of congenital hearing loss. Point mutations in PAX3 have been identified in more than 90% of affected individuals with WS Type 1/WS Type 3. MITF point mutations have been identified in 10-15% of individuals affected with WS Type 2 (lacking dystopia canthorum). Multiplex ligation-dependent probe amplification (MLPA) is now a standard technology in the molecular genetics laboratory to detect copy number changes in targeted genes. We employed MLPA for PAX3 and MITF in a cohort of patients submitted with a diagnosis of WS1, 2 or 3 who were sequence negative for PAX3 and/or MITF. All coding exons of PAX3 and exons 1, 2, 3, and 10 of MITF were included in the MLPA assay. MLPA on 48 patients with WS 1 or 3 revealed 3 PAX3 whole gene deletions (2 WS1; 1 WS3), 2 PAX3 partial gene deletions [WS1, exon 1 and promoter (1st report); WS1, exons 5-9], and 1 partial MITF deletion ("WS1", exons 3-10) (6/48 approximately 12.5%). MLPA on 41 patients with WS2 and 20 patients submitted with a diagnosis of either WS1 or WS2 revealed no copy number changes. The detection of both partial and whole gene deletions of PAX3/MITF in this clinical cohort increases the mutation detection yield by at least 6% and supports integrating MLPA into clinical molecular testing primarily for patients with WS1 and 3.

LADD syndrome is caused by FGF10 mutations.

Lacrimo-auriculo-dento-digital syndrome [LADD (MIM 149730)] is an autosomal-dominant multiple congenital anomaly disorder characterized by aplasia, atresia or hypoplasia of the lacrimal and salivary systems, cup-shaped ears, hearing loss, and dental and digital anomalies. Loss of function mutations in FGF10 were recently described in aplasia of the lacrimal and salivary glands [ALSG (MIM 180920; MIM 103420)] (Entesarian et al., Nat Genet 2005: 37: 125-127, Milunsky et al., American College of Medical Genetics Annual Meeting, Dallas, TX, 2005: A100). Due to the significant phenotypic overlap between LADD syndrome and ALSG and the variable expressivity of both the disorders, we hypothesized that FGF10 mutations could also result in LADD syndrome. A de novo missense mutation was found in exon 3 of FGF10 in a 3-year-old female (Family 1) with LADD syndrome. This missense mutation, resulting in a non-conservative amino acid change, was confirmed by restriction enzyme digestion and was not found in 500 control chromosomes. A nonsense mutation was also found in exon 2 of FGF10 (Family 2) in a 19-year-old mother with ALSG and her 2-year-old daughter with LADD syndrome. Previous studies of FGF10 mutant mice have demonstrated abnormalities consistent with ALSG and LADD syndrome. We conclude that ALSG and LADD syndrome may represent variable presentations of the same clinical spectrum caused by FGF10 mutations.

The prenatal diagnosis of cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) by mutation analysis.

Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is an important cause of hereditary stroke. Mutations in the Notch3 gene are clearly causally linked to this progressive vascular disorder. Cerebral ischemic attacks, cognitive decline, strokes, and vascular dementia constitute the major manifestations of this disorder. This report details the prenatal detection of a Notch3 mutation in the fetus of a couple where the father had a known mutation in this gene. This is the first report of a prenatal diagnosis of CADASIL, and another example of a serious, highly penetrant, and relentlessly progressive degenerative genetic disorder presenting decades after birth and for which prenatal diagnosis is an option.

XL PCR for the detection of large trinucleotide expansions in juvenile Huntington's disease.

Juvenile Huntington's disease (HD) becomes clinically manifest before 20 years of age. The diagnosis of HD is based on family history, characteristic clinical findings, and the detection of an expansion of a CAG polyglutamine tract in the Huntingtin gene. Juvenile HD is characterized by paternal anticipation and large CAG expansions that may be missed using routine molecular analysis. We have developed an easy, rapid, and reliable modified PCR method using XL (Extra Long) PCR that allowed us to diagnose one of the youngest children reported with juvenile HD. Without this innovation we would not have been able to demonstrate the large CAG expansion. This assay could become part of a standard protocol for HD testing in molecular diagnostic laboratories.

Novel mutations and the emergence of a common mutation in the SDHD gene causing familial paraganglioma.

Familial paragangliomas (PGL) are slow-growing, highly vascular, generally benign neoplasms, usually of the head and neck, that arise from neural crest cells. This rare autosomal dominant disorder is highly penetrant and influenced by genomic imprinting through paternal transmission. Timely detection of these tumors may afford the affected individual the opportunity to avoid the potential serious morbidity associated with surgical removal and the mortality that may accompany local and distant metastases. Linkage to two distinct chromosomal loci, 11q13.1 and 11q23, has been previously reported. Recently, germline mutations in SDHD, a mitochondrial complex II gene on chromosome 11q23, have been demonstrated. We evaluated members of seven families with PGL, five previously studied and shown to have linkage to chromosome 11q23. The entire coding region of the SDHD gene was sequenced and yielded four novel mutations and one mutation shared in three of our unrelated families. Novel mutations found included a truncating mutation in exon 2, as well as a missense mutation, a deletion, and an insertion in exon 4. Three of our families had a common mutation in exon 3 (P81L) that has been reported and thought to be a founder mutation. A restriction enzyme assay was developed for initial screening of this mutation. Molecular analysis is now available and recommended for presymptomatic diagnosis in those at-risk individuals and for confirmatory diagnosis in those having PGL.

Mutation analysis in Rett syndrome.

Rett syndrome is an X-linked dominant neurodevelopmental disorder caused by mutations in the MECP2 gene. Mutations have been demonstrated in more than 80% of females with typical features of Rett syndrome. We identified mutations in the MECP2 gene and documented the clinical manifestations in 65 Rett syndrome patients to characterize the genotype-phenotype spectrum. Bidirectional sequencing of the entire MECP2 coding region was performed. We diagnosed 65 patients with MECP2 mutations. Of these, 15 mutations had been reported previously and 13 are novel. Two patients have multiple deletions within the MECP2 gene. Eight common mutations were found in 43 of 65 patients (66.15%). The majority of patients with identified mutations have the classic Rett phenotype, and several had atypical phenotypes. MECP2 analysis identified mutations in almost all cases of typical Rett syndrome, as well as in some with atypical phenotypes. Eleven (20.4%) of the 54 patients with defined mutations and in whom phenotypic data were obtained did not develop acquired microcephaly. Hence, microcephaly at birth or absence of acquired microcephaly does not obviate the need for MECP2 analysis. We have initiated cascade testing starting with PCR analysis for common mutations followed by sequencing, when necessary. Analysis of common mutations before sequencing the entire gene is anticipated to be the most efficacious strategy to identify Rett syndrome gene mutations.

Fertility in men with cystic fibrosis: an update on current surgical practices and outcomes.

BACKGROUND: Men with cystic fibrosis (CF) have bilateral absence of the vas deferens causing an obstructive azoospermia that is not amenable to surgical correction. Advances in the field of reproductive medicine allow for the procurement of viable sperm and facilitate fertilization and pregnancy in couples where the man has CF. OBJECTIVES: To describe patient anatomy and semen characteristics and to determine the pregnancy rates of couples in whom the male partner has CF and who have undergone microsurgical epididymal sperm aspiration coupled with in vitro technology, specifically intracytoplasmic sperm injection (ICSI). DESIGN: Retrospective analysis. SETTING: Clinical department of urology and two reproductive medicine units. PATIENTS: Thirteen married men with CF who were referred for infertility. INTERVENTIONS: History, physical examination, semen analysis, transrectal and renal ultrasonography, CF mutation analysis, and microsurgical sperm aspiration coupled with ICSI. RESULTS: All 13 men had low-volume azoospermia, absent vasa, and aplasia/hypoplasia of the seminal vesicles. CF mutation analysis was carried out in 11 of 13 men, and 9 of 11 were DeltaF508 homozygous. Eight men underwent microsurgical sperm aspiration, and their partners underwent one or more cycles of ICSI. Five couples (62.5%) achieved a pregnancy, with four couples delivering (three sets of twins and one singleton). CONCLUSIONS: CF in men is accompanied by bilateral vasal aplasia. The resultant obstructive azoospermia can be treated quite successfully with a combination of sperm aspiration and ICSI. It is important for physicians involved in the care of men with CF to convey the message that prospects for fatherhood are excellent with current technology.

Connexin-26 gene analysis in hearing-impaired newborns.

The efficacy and utility of the Connexin-26 (Cx-26) gene (also called GJB2) analysis from DNA isolated from Guthrie newborn screening cards is demonstrated. This analysis precisely defined a major cause of prelingual nonsyndromic deafness in those children requiring amplification in our study. Guthrie cards were obtained from 49 deaf children requiring amplification identified over the last 5 years by the Rhode Island Newborn Screening Program. Children with syndromes or other recognizable causes of hearing loss were excluded. DNA was extracted from the Guthrie cards and analyzed sequentially for the Cx-26 35delG mutation and then for the 167delT mutation followed by gene sequencing on remaining heterozygotes. Three of 42 children were 35delG homozygotes; 2/42 children were 35delG/167delT compound heterozygotes. One child was identified as being a 35delG heterozygote with no other mutation found by sequencing. Nine Guthrie cards yielded no amplification or uninterpretable results. Cx-26 mutations were identified as causing 11.9% of the deafness in the children studied. In conclusion, Cx-26 analysis is an important test that identifies a major cause of prelingual nonsyndromic deafness. Molecular analysis of hearing-impaired newborns will be important for genetic counseling in these families. Failures with Guthrie cards may make use of other collection methods preferable.

Congenital bilateral absence of the vas deferens. A primarily genital form of cystic fibrosis.

OBJECTIVE: Almost all males with cystic fibrosis (CF) have absent vasa deferentia. It has been suggested that otherwise healthy males with congenital bilateral absence of the vas deferens (CBAVD), previously considered a distinct genetic entity, have an increased frequency of CF gene mutations. This study examined the genetic commonality of these two disorders. DESIGN: We typed six common CF gene mutations in 25 patients with CBAVD. Additional rare mutations were sought using single-stranded conformation polymorphisms and direct DNA sequencing. When rare mutations were found, they were sought in a large sample of both CF patients and obligate CF carriers to exclude them as polymorphisms. SETTING: All the patients presented to a male infertility clinic of a teaching hospital. SUBJECTS: Twenty-five unselected, unrelated azoospermic men with CBAVD, most of them of Northern European ancestry. RESULTS: Sixteen (64%) of the 25 men with CBAVD had at least one detectable CF mutation, 16 times the expected frequency (P less than .001). Moreover, we have thus far determined that three of these 16 men are compound heterozygotes, one of whom has a mutation not previously described. Analyses continue on patients who have yet to yield a detectable mutation. CONCLUSIONS: Some, if not all, otherwise healthy men with CBAVD reflect a newly recognized, primarily genital, phenotype of CF. Prior to sperm aspiration to remedy infertility, CF mutation analysis should be recommended for them and their partners, as well as for their relatives.

Prenatal diagnosis of myotonic muscular dystrophy with linked deoxyribonucleic acid probes.

Since the localization of the myotonic muscular dystrophy gene, closer deoxyribonucleic acid markers have been discovered. These now facilitate both presymptomatic and prenatal diagnosis of myotonic muscular dystrophy. We report our prenatal diagnosis experience with six cases in five families. Obstetricians are advised to inform their patients with a family history of myotonic muscular dystrophy of these testing opportunities. The fetus of the mother with myotonic muscular dystrophy who remains in utero until term is at considerable risk, as is the mother herself, of serious obstetric complications.