Reuven Sharony

Mutation of TBCE causes hypoparathyroidism- retardation-dysmorphism and autosomal recessive Kenny-Caffey syndrome

The syndrome of congenital hypoparathyroidism, mental retardation, facial dysmorphism and extreme growth failure (HRD or Sanjad–Sakati syndrome; OMIM 241410) is an autosomal recessive disorder reported almost exclusively in Middle Eastern populations1,2,3. A similar syndrome with the additional features of osteosclerosis and recurrent bacterial infections has been classified as autosomal recessive Kenny–Caffey syndrome4 (AR-KCS; OMIM 244460). Both traits have previously been mapped to chromosome 1q43–44 (refs 5,6) and, despite the observed clinical variability, share an ancestral haplotype, suggesting a common founder mutation7. We describe refinement of the critical region to an interval of roughly 230 kb and identification of deletion and truncation mutations of TBCE in affected individuals. The gene TBCE encodes one of several chaperone proteins required for the proper folding of α-tubulin subunits and the formation of α–β-tubulin heterodimers. Analysis of diseased fibroblasts and lymphoblastoid cells showed lower microtubule density at the microtubule-organizing center (MTOC) and perturbed microtubule polarity in diseased cells. Immunofluorescence and ultrastructural studies showed disturbances in subcellular organelles that require microtubules for membrane trafficking, such as the Golgi and late endosomal compartments. These findings demonstrate that HRD and AR-KCS are chaperone diseases caused by a genetic defect in the tubulin assembly pathway, and establish a potential connection between tubulin physiology and the development of the parathyroid.The syndrome of congenital hypoparathyroidism, mental retardation, facial dysmorphism and extreme growth failure (HRD or Sanjad–Sakati syndrome; OMIM 241410) is an autosomal recessive disorder reported almost exclusively in Middle Eastern populations. A similar syndrome with the additional features of osteosclerosis and recurrent bacterial infections has been classified as autosomal recessive Kenny–Caffey syndrome (AR-KCS; OMIM 244460). Both traits have previously been mapped to chromosome 1q43–44 (refs 5,6) and, despite the observed clinical variability, share an ancestral haplotype, suggesting a common founder mutation. We describe refinement of the critical region to an interval of roughly 230 kb and identification of deletion and truncation mutations of TBCE in affected individuals. The gene TBCE encodes one of several chaperone proteins required for the proper folding of α-tubulin subunits and the formation of α–β-tubulin heterodimers. Analysis of diseased fibroblasts and lymphoblastoid cells showed lower microtubule density at the microtubule-organizing center (MTOC) and perturbed microtubule polarity in diseased cells. Immunofluorescence and ultrastructural studies showed disturbances in subcellular organelles that require microtubules for membrane trafficking, such as the Golgi and late endosomal compartments. These findings demonstrate that HRD and AR-KCS are chaperone diseases caused by a genetic defect in the tubulin assembly pathway, and establish a potential connection between tubulin physiology and the development of the parathyroid.

Interchromosomal effect leading to an increase in aneuploidy in sperm nuclei in a man heterozygous for pericentric inversion (inv 9) and C-heterochromatin

AbstractWe describe a man with pericentric inversion 9 and constitutive heterochromatin, and a high disomy rate in his sperm cells (with all probes analyzed). The disomy rate was estimated with the following probes: 8, 9, 18, X, and Y, and was significantly higher than that in control sperm cells, while chromosome 9 showed the highest disomy frequency. The probes of X and Y together showed the same disomy frequency as X and Y alone, which indicates the same nondisjunction rate in the first meiotic division. We suggest that the interchromosomal effect found in this man differed from other findings in sperm cells of men carrying an inversion in terms of the difference in the length of the heterochromatin between the two chromosomes 9. Also, it is well known that the effect of inversion 9 with increased heterochromatin is highly variable and may even vary in members of the same family.

Prenatal diagnosis of fetal cerebellar lesions: a case report and review of the literature.

The fetal cerebellar structure, size and consistency are looked at in every system survey. Among the acquired cerebellar events that might change the cerebellar consistency are haemorrhage, infections in utero and neoplasia. Additional fetal malformations, if present, assist in making the final diagnosis. We present a case of an isolated echogenic mass in one of the cerebellar hemispheres along with the differential diagnosis. Copyright

TERC telomerase subunit gene copy number in placentas from pregnancies complicated with intrauterine growth restriction

INTRODUCTION intrauterine growth restriction (IUGR) is a significant cause of both short- and long-term morbidity and mortality. IUGR secondary to placental dysfunction is correlated with telomere shortening. Telomerase is an enzyme complex that elongates telomeres. One of its components is encoded by the telomerase RNA component gene (TERC), which serves as the RNA template for the addition of telomeric repeats. We hypothesized decreased TERC gene copy number in IUGR placentas as part of the mechanism of telomere shortening in placental dysfunction. METHODS we estimated the gene copy number of the TERC gene at 3q26 by applying FISH to trophoblasts of placental biopsies from five pregnancies with IUGR caused by placental insufficiency and compared them to placentas from five gestational-age matched, uncomplicated pregnancies. RESULTS significantly lower TERC gene copy number was observed in IUGR trophoblasts on the same chromosome and on other chromosomes, compared to the control samples (p<0.05). CONCLUSIONS the TERC gene copy number is decreased in IUGR trophoblasts. These results support the observations of telomere shortening and decreased telomerase activity in IUGR placentas. We suggest that these findings might play a role in the pathophysiology of IUGR, perhaps by promoting senescence in trophoblasts of IUGR placentas.

Telomere aggregate formation in placenta specimens of pregnancies complicated with pre-eclampsia

Telomeres are specific repetitive DNA sequences that cap and stabilize the ends of chromosomes. Functional telomeres are essential for the normal segregation and maintenance of chromosomes during mitotic and meiotic division. Pre-eclampsia, a pregnancy-specific syndrome of increased blood pressure accompanied by proteinuria, is often associated with growth deficiency in the fetus. Oxidative stress is a major component in the pathophysiology of pre-eclampsia. In contrast to the nonoverlapping nature of telomeres in normal nuclei, telomeres of tumor nuclei tend to form aggregates (TAs) in various numbers and sizes. The formation of TAs represents a stress-related process and is independent of telomere length and telomerase activity. The aim of this study was to evaluate TA formation in paraffin-embedded placentas from pregnancies complicated with pre-eclampsia (study group), compared with placentas from normal pregnancies (control group). There were significantly more TAs in the study group (mean, 8.00 TAs per case) than in the control group (mean, 2.36 TAs per case) (P < 0.01). Pre-eclampsia-related stress may accelerate apoptosis and cell death and lead to placental dysfunction. TAs formation, which has been linked to stress and tumorgenesis is increased in placentas of pre-eclamptic patients.

Four USH2A Founder Mutations Underlie the Majority of Usher Syndrome Type 2 Cases among Non-Ashkenazi Jews

Type 2 Usher syndrome (USH2) is a recessively inherited disorder, characterized by the combination of early onset, moderate-to-severe, sensorineural hearing loss, and vision impairment due to retinitis pigmentosa. From 74% to 90% of USH2 cases are caused by mutations of the USH2A gene. USH2A is composed of 72 exons, encoding for usherin, an extracellular matrix protein, which plays an important role in the development and maintenance of neurosensory cells in both retina and cochlea. To date, over 70 pathogenic mutations of USH2A have been reported in individuals of various ethnicities. Many of these mutations are rare private mutations segregating in single families. The aim of the current work was to investigate the genetic basis for USH2 among Jews of various origins. We found that four USH2A mutations (c.239-240insGTAC, c.1000C>T, c.2209C>T, and c.12067-2A>G) account for 64% of mutant alleles underlying USH2 in Jewish families of non-Ashkenazi descent. Considering the very large size of the USH2A gene and the high number of mutations detected in USH2 patients worldwide, our findings have significant implications for genetic counseling and carrier screening in various Jewish populations.

Fetal choroid plexus cysts : Is a genetic evaluation indicated?

A study of the association between aneuploidy and fetal choroid plexus cysts (CPCs) is presented. By reviewing the world prospective and retrospective studies, one cannot reach an agreed conclusion since different study designs were used and meta analysis is not feasible. Our experience is that as a solitary ultrasonographic finding, genetic evaluation is not indicated in cases of CPC. However, all the ‘risk factors’ of fetal aneuploidy such as maternal age, biochemical markers, and ultrasonographic signs may create a score by which the indication for genetic evaluation will be more sound.

Telomere aggregates in trisomy 21 amniocytes

Trisomy 21 is the most common chromosomal abnormality among persons with intellectual disability, with a live birth rate of 1 in 800-1,000. As such, this abnormality may serve as a model for human disorders that result from supernumerary copies of a genomic region. Down syndrome carries an increased risk of developing acute leukemia and other malignancies. Telomeres of tumor cells nuclei tend to form aggregates (TA). This study evaluated TA formation in amniocytes from trisomy 21 pregnancies, compared with amniocytes from normal euploid pregnancies. A commercially available peptide nucleic acid telomere kit was used to evaluate TA formation, using two-dimensional fluorescence microscopy. Significantly higher frequencies of TA were found in trisomy 21 amniocytes than in amniocytes from normal pregnancies. The TAs found in trisomy 21 amniocytes apparently represent an additional parameter that reflects the high genetic instability of this syndrome and its recognized predisposition to develop leukemia and other malignancies.

Congenital deficiency of alpha feto-protein

Alpha-fetoprotein (AFP) is the main fetus serum glycoprotein with a very low concentration in the adult. AFP deficiency is a rare phenomenon. We studied two families with congenital AFP deficiency and searched for mutations in the AFP gene. We identified one mutation of 2 base deletion in exon 8, in both families, that leads to the congenital deficiency of AFP. The mutation nt930-931delCT (T294fs25X) creates a frameshift after codon 294 that leads to a stop codon after 24 amino acids, thus truncating the normal length of AFP of 609 amino acids. All the affected children were found to be homozygous for the mutation as was one of the fathers. The affected individuals were asymptomatic and presented normal development. This first identification of a mutation in the AFP gene demonstrates for the first time that deficiency of AFP is compatible with human normal fetal development and further reproduction in males.

Familial lethal skeletal dysplasia with cloverleaf skull and multiple anomalies of brain, eye, face and heart: a new autosomal recessive multiple congenital anomalies syndrome

We report on a ‘new’ lethal familial short‐limb bone dysplasia associated with multiple anomalies in three sibs born to Arabic‐Muslim consanguineous healthy parents. Clinical abnormalities included short limbs and short hands, cloverleaf skull, frontal bossing, wide anterior fontanel, hypertelorism, bilateral microphthalmia, cataract, low‐set ears, narrow chest, ambiguous genitalia, cardiac ventricular septal defect (VSD) and agenesis of the corpus callosum. Radiological abnormalities included cloverleaf skull, hypoplastic clavicles and scapulae, thin, wavy cupped ribs, flat vertebral bodies with coronal clefting and several unossified vertebral pedicles and hypo‐ossification of the pubic bone. The main changes noted in the long bones consisted of short‐bowed long bones with abnormal metaphyses and unossified epiphyses. Chondro‐osseous morphology documented degenerating chondrocytes with disorganization of the hypertrophied cartilage and short disorganized columns of hypertrophied areas.