Genome-wide DNA methylation analysis of patients with imprinting disorders identifies differentially methylated regions associated with novel candidate imprinted genes

BackgroundGenomic imprinting is allelic restriction of gene expression potential depending on parent of origin, maintained by epigenetic mechanisms including parent of origin-specific DNA methylation. Among approximately 70 known imprinted genes are some causing disorders affecting growth, metabolism and cancer predisposition. Some imprinting disorder patients have hypomethylation of several imprinted loci (HIL) throughout the genome and may have atypically severe clinical features. Here we used array analysis in HIL patients to define patterns of aberrant methylation throughout the genome.DesignWe developed a novel informatic pipeline capable of small sample number analysis, and profiled 10 HIL patients with two clinical presentations (Beckwith–Wiedemann syndrome and neonatal diabetes) using the Illumina Infinium Human Methylation450 BeadChip array to identify candidate imprinted regions. We used robust statistical criteria to quantify DNA methylation.ResultsWe detected hypomethylation at known imprinted loci, and 25 further candidate imprinted regions (nine shared between patient groups) including one in the Down syndrome critical region (WRB) and another previously associated with bipolar disorder (PPIEL). Targeted analysis of three candidate regions (NHP2L1, WRB and PPIEL) showed allelic expression, methylation patterns consistent with allelic maternal methylation and frequent hypomethylation among an additional cohort of HIL patients, including six with Silver–Russell syndrome presentations and one with pseudohypoparathyroidism 1B.ConclusionsThis study identified novel candidate imprinted genes, revealed remarkable epigenetic convergence among clinically divergent patients, and highlights the potential of epigenomic profiling to expand our understanding of the normal methylome and its disruption in human disease

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Document(en) uit de collectie Chemische Procestechnologie.DelftChemTechApplied Science

Temple syndrome: improving the recognition of an underdiagnosed chromosome 14 imprinting disorder: an analysis of 51 published cases

Chromosome 14 harbours an imprinted locus at 14q32. Maternal uniparental disomy of chromosome 14, paternal deletions and loss of methylation at the intergenic differentially methylated region (IG-DMR) result in a human phenotype of low birth weight, hypotonia, early puberty and markedly short adult stature. The analysis of the world literature of 51 cases identifies the key features that will enhance diagnosis and potentially improve treatment. We found a median birth weight SD score (SDS) of ?1.88 and median adult final height of ?2.04 SDS. Hypotonia and motor delay were reported in 93% and 83% of cases, respectively. Early puberty was reported in 86% of cases with the mean age of menarche at 10?years and 2?months of age. Small hands and feet were reported frequently (87% and 96%, respectively). Premature birth was common (30%) and feeding difficulties frequently reported (n?=?22). There was evidence of mildly reduced intellectual ability (measured IQ 75–95). Obesity was reported in 49% of cases, and three patients developed type 2 diabetes mellitus. Two patients were reported to have recurrent hypoglycaemia, and one of these patients was subsequently demonstrated to be growth hormone deficient and started replacement therapy. We propose the use of the name ‘Temple syndrome’ for this condition and suggest that improved diagnosis and long-term monitoring, especially of growth and cardiovascular risk factors, is required

Relaxation of imprinted expression of ZAC and HYMAI in a patient with transient neonatal diabetes mellitus

Transient neonatal diabetes mellitus (TNDM) is a rare disease believed to result from overexpression of a paternally expressed gene controlled by a differentially methylated CpG island on chromosome 6q24. Two genes partially overlap the island: the cell-cycle-control gene ZAC and the untranslated gene HYMAI, the function of which is currently unknown. Proof that either gene is involved in TNDM would require demonstration that imprinted expression is relaxed in TNDM patients; this has hitherto been lacking because of the rarity of the disease and the lack of imprinted expression in the lymphoblastoid cells that are generally the only resource available for study. Here, we show, for the first time, the aberrant expression of imprinted genes in a TNDM patient. In TNDM fibroblasts, the monoallelic expression of both ZAC and HYMAI is relaxed, providing strong supportive evidence that the presence of two unmethylated alleles of this locus is indeed associated with the inappropriate gene expression of neighbouring genes

Report and review of described associations of Mayer-Rokitansky-Küster-Hauser syndrome and Silver-Russell syndrome

Silver–Russell syndrome (SRS) and Mayer-Rokitansky-Küster-Hauser (MRKH) syndrome are described in isolation. However, their co-occurrence has only been rarely reported. Here, we present a case report of an adolescent with SRS who was diagnosed with MRKH during the evaluation of primary amenorrhoea. Multiplex ligation-dependent probe amplification analysis showed a normal methylation pattern and normal dosage at 11p15.5. A PubMed search for all peer-reviewed publications (original articles and reviews) using the key words Silver–Russell syndrome, Mayer-Rokitansky-Küster-Hauser syndrome, genetics, hypomethylation and reproductive anomalies identified three cases of SRS with MRKH, two of which were associated with significant hypomethylation of the H19 imprinting control region of the 11p15.5 locus. This report highlights the association between SRS and MRKH. The absence of hypomethylation and normal dosage at 11p15.5 suggests these two rare entities share alternative aetiopathogenic mechanisms

Central precocious puberty in a girl with triple X syndrome and neonatal diabetes mellitus associated with paternal isodisomy of chromosome 6

We describe a girl with triple X syndrome and paternal isodisomy of chromosome 6 (UPD6), who developed neonatal diabetes mellitus (NDM) and precocious puberty. At birth she presented growth retardation and congenital anomalies (ventricular septal defect, macroglossia, umbilical hernia). Diabetes mellitus (DM) was diagnosed at 31 days of life and treated with insulin for 13 months. DM recurred at 4 years of age and since that time it required insulin, in spite of preserved beta-cell function. Tall stature was present from early childhood. At 7 years of age the girl presented central precocious puberty, height velocity further increased, but her near-final height was normal. This patient is unique in that precocious puberty has never been described in triple X females. Moreover it is a further example of paternal UPD6 causing NDM with a predisposition to type 2 DM in later life