Your search keyword '"Hordijk, R."' showing total 4 results

1. Genotype-phenotype correlation in 21 patients with Wolf-Hirschhron syndrome using high resolution array comparative genome hybridisation (CGH)

Author

Maas, N.M.C., Van Buggenhout, G., Hannes, F., Theinpont, B., Sanlaville, D., Kok, K., Midro, A., Andrieux, J., Anderlid, B.-M., Schoumans, J., Hordijk, R., Devriendt, K., Fryns, J.-P., and Vermeesch, J.R.

Subjects

Chromosome deletion -- Analysis, DNA microarrays -- Methods, DNA microarrays -- Research, Genotype -- Analysis, Phenotype -- Analysis, Health

Published

2008

2. A specific mutation in TBL1XR1 causes Pierpont syndrome.

Author

Heinen CA, Jongejan A, Watson PJ, Redeker B, Boelen A, Boudzovitch-Surovtseva O, Forzano F, Hordijk R, Kelley R, Olney AH, Pierpont ME, Schaefer GB, Stewart F, van Trotsenburg AS, Fliers E, Schwabe JW, and Hennekam RC

Subjects

Adult, Child, DNA Mutational Analysis, Developmental Disabilities genetics, Developmental Disabilities metabolism, Developmental Disabilities pathology, Facies, Female, Humans, Lipomatosis genetics, Lipomatosis pathology, Male, Models, Molecular, Nuclear Proteins chemistry, Nuclear Proteins metabolism, Nuclear Receptor Co-Repressor 1 metabolism, Organ Specificity, Protein Structure, Tertiary, Receptors, Cytoplasmic and Nuclear chemistry, Receptors, Cytoplasmic and Nuclear metabolism, Repressor Proteins chemistry, Repressor Proteins metabolism, Young Adult, Gene Expression, Lipomatosis metabolism, Mutation, Missense, Nuclear Proteins genetics, Receptors, Cytoplasmic and Nuclear genetics, Repressor Proteins genetics

Abstract

Background: The combination of developmental delay, facial characteristics, hearing loss and abnormal fat distribution in the distal limbs is known as Pierpont syndrome. The aim of the present study was to detect and study the cause of Pierpont syndrome., Methods: We used whole-exome sequencing to analyse four unrelated individuals with Pierpont syndrome, and Sanger sequencing in two other unrelated affected individuals. Expression of mRNA of the wild-type candidate gene was analysed in human postmortem brain specimens, adipose tissue, muscle and liver. Expression of RNA in lymphocytes in patients and controls was additionally analysed. The variant protein was expressed in, and purified from, HEK293 cells to assess its effect on protein folding and function., Results: We identified a single heterozygous missense variant, c.1337A>G (p.Tyr446Cys), in transducin β-like 1 X-linked receptor 1 (TBL1XR1) as disease-causing in all patients. TBL1XR1 mRNA expression was demonstrated in pituitary, hypothalamus, white and brown adipose tissue, muscle and liver. mRNA expression is lower in lymphocytes of two patients compared with the four controls. The mutant TBL1XR1 protein assembled correctly into the nuclear receptor corepressor (NCoR)/ silencing mediator for retinoid and thyroid receptors (SMRT) complex, suggesting a dominant-negative mechanism. This contrasts with loss-of-function germline TBL1XR1 deletions and other TBL1XR1 mutations that have been implicated in autism. However, autism is not present in individuals with Pierpont syndrome., Conclusions: This study identifies a specific TBL1XR1 mutation as the cause of Pierpont syndrome. Deletions and other mutations in TBL1XR1 can cause autism. The marked differences between Pierpont patients with the p.Tyr446Cys mutation and individuals with other mutations and whole gene deletions indicate a specific, but as yet unknown, disease mechanism of the TBL1XR1 p.Tyr446Cys mutation., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/)

Published

2016

3. Maternal uniparental disomy for chromosome 14 in a boy with a normal karyotype.

Author

Hordijk R, Wierenga H, Scheffer H, Leegte B, Hofstra RM, and Stolte-Dijkstra I

Subjects

Child, Genetic Markers, Humans, Karyotyping, Male, Microsatellite Repeats, Mothers, Nondisjunction, Genetic, Obesity genetics, Pedigree, Prader-Willi Syndrome diagnosis, Chromosome Aberrations, Chromosomes, Human, Pair 14

Abstract

We report on a boy with a maternal uniparental disomy for chromosome 14 (UPD(14)). At 7 years of age he was referred to us by the paediatrician because of symptoms of Prader-Willi syndrome (PWS). He showed short stature, obesity, mild developmental delay, cryptorchidism, and some mild dysmorphic features. The history further indicated intrauterine growth retardation at the end of the pregnancy. His mother was 44 years of age at the time of his birth. After birth he showed hypotonia with poor sucking, for which gavage feeding was needed. Motor development was delayed. After 1 year he became obese despite a normal appetite. Recurrent middle ear infections, a high pain threshold, and a great skill with jigsaw puzzles were reported. There were no behavioural problems or sleep disturbance. Chromosomal analysis was normal (46,XY). DNA analysis for Prader-Willi syndrome showed no abnormalities. Two years later he was re-examined because we thought his features fitted the PWS-like phenotype associated with maternal UPD(14). At that time precocious puberty was evident. DNA analysis showed maternal heterodisomy for chromosome 14. In all the previously described 11 cases with maternal UPD(14), a Robertsonian translocation involving chromosome 14 was detected cytogenetically before DNA analysis. This is the first report of diagnosis of maternal UPD(14) based on clinical features. This finding underlines the importance of DNA analysis for maternal UPD(14) in patients with a similar PWS-like phenotype even without previous identification of a Robertsonian translocation involving chromosome 14.

Published

1999

4. Another patient with an interstitial deletion of chromosome 9: case report and a review of six cases with del(9)(q22q32).

Author

Kroes HY, Tuerlings JH, Hordijk R, Folkers NR, and ten Kate LP

Subjects

Adult, Female, Head abnormalities, Humans, Infant, Karyotyping, Male, Microcephaly genetics, Abnormalities, Multiple, Chromosome Deletion, Chromosomes, Human, Pair 9, Growth Disorders genetics, Intellectual Disability genetics

Abstract

We report a case of del(9)(q22q32) in a severely mentally retarded boy. The most prominent clinical features are short stature, microcephaly, dysmorphic facies, and delayed bone age. Although six cases of this deletion have now been reported, confirmation of a definite syndrome is not yet possible.

Published

1994