Genome sequencing in families with congenital limb malformations.

The extensive clinical and genetic heterogeneity of congenital limb malformation calls for comprehensive genome-wide analysis of genetic variation. Genome sequencing (GS) has the potential to identify all genetic variants. Here we aim to determine the diagnostic potential of GS as a comprehensive one-test-for-all strategy in a cohort of undiagnosed patients with congenital limb malformations. We collected 69 cases (64 trios, 1 duo, 5 singletons) with congenital limb malformations with no molecular diagnosis after standard clinical genetic testing and performed genome sequencing. We also developed a framework to identify potential noncoding pathogenic variants. We identified likely pathogenic/disease-associated variants in 12 cases (17.4%) including four in known disease genes, and one repeat expansion in HOXD13. In three unrelated cases with ectrodactyly, we identified likely pathogenic variants in UBA2, establishing it as a novel disease gene. In addition, we found two complex structural variants (3%). We also identified likely causative variants in three novel high confidence candidate genes. We were not able to identify any noncoding variants. GS is a powerful strategy to identify all types of genomic variants associated with congenital limb malformation, including repeat expansions and complex structural variants missed by standard diagnostic approaches. In this cohort, no causative noncoding SNVs could be identified.

Biallelic variants in DNA2 cause microcephalic primordial dwarfism.

Microcephalic primordial dwarfism (MPD) is a group of rare single-gene disorders characterized by the extreme reduction in brain and body size from early development onwards. Proteins encoded by MPD-associated genes play important roles in fundamental cellular processes, notably genome replication and repair. Here we report the identification of four MPD individuals with biallelic variants in DNA2, which encodes an adenosine triphosphate (ATP)-dependent helicase/nuclease involved in DNA replication and repair. We demonstrate that the two intronic variants (c.1764-38_1764-37ins(53) and c.74+4A>C) found in these individuals substantially impair DNA2 transcript splicing. Additionally, we identify a missense variant (c.1963A>G), affecting a residue of the ATP-dependent helicase domain that is highly conserved between humans and yeast, with the resulting substitution (p.Thr655Ala) predicted to directly impact ATP/ADP (adenosine diphosphate) binding by DNA2. Our findings support the pathogenicity of these variants as biallelic hypomorphic mutations, establishing DNA2 as an MPD disease gene.

FGFR1 mutations cause Hartsfield syndrome, the unique association of holoprosencephaly and ectrodactyly.

BACKGROUND: Harstfield syndrome is the rare and unique association of holoprosencephaly (HPE) and ectrodactyly, with or without cleft lip and palate, and variable additional features. All the reported cases occurred sporadically. Although several causal genes of HPE and ectrodactyly have been identified, the genetic cause of Hartsfield syndrome remains unknown. We hypothesised that a single key developmental gene may underlie the co-occurrence of HPE and ectrodactyly. METHODS: We used whole exome sequencing in four isolated cases including one case-parents trio, and direct Sanger sequencing of three additional cases, to investigate the causative variants in Hartsfield syndrome. RESULTS: We identified a novel FGFR1 mutation in six out of seven patients. Affected residues are highly conserved and are located in the extracellular binding domain of the receptor (two homozygous mutations) or the intracellular tyrosine kinase domain (four heterozygous de novo variants). Strikingly, among the six novel mutations, three are located in close proximity to the ATP's phosphates or the coordinating magnesium, with one position required for kinase activity, and three are adjacent to known mutations involved in Kallmann syndrome plus other developmental anomalies. CONCLUSIONS: Dominant or recessive FGFR1 mutations are responsible for Hartsfield syndrome, consistent with the known roles of FGFR1 in vertebrate ontogeny and conditional Fgfr1-deficient mice. Our study shows that, in humans, lack of accurate FGFR1 activation can disrupt both brain and hand/foot midline development, and that FGFR1 loss-of-function mutations are responsible for a wider spectrum of clinical anomalies than previously thought, ranging in severity from seemingly isolated hypogonadotropic hypogonadism, through Kallmann syndrome with or without additional features, to Hartsfield syndrome at its most severe end.

Evaluation of 22q11.2 deletion in Cleft Palate patients.

BACKGROUND: Cleft palate is the commonest multifactorial epigenetic disorder with a prevalence of 0.43-2.45 per 1000. The objectives of this study were to evaluate the clinical features and identify the 22q11.2 deletion in patients with cleft palate in Sri Lanka. MATERIALS AND METHODS: Cleft patients attending a Teaching Hospital in Sri Lanka were recruited for this study. The relevant data were obtained from review of case notes, interviews, and examination of patients according to a standard evaluation sheet. Quantitative multiplex polymerase chain reaction (PCR) was performed to identify the 22q11.2 deletion. A gel documentation system (Bio-Doc) was used to quantify the PCR product following electrophoresis on 0.8% agarose gel. RESULTS AND CONCLUSION: There were 162 cleft palate patients of whom 59% were females. A total of 92 cleft palate subjects (56.2%) had other associated clinical features. Dysmorphic features (25.27%) and developmental delays (25.27%) were the commonest medical problems encountered. The cleft was limited to the soft palate in 125 patients, while in 25 patients it involved both the hard and the soft palate. There were seven subjects with bifid uvula and five subjects with submucous cleft palate. None of the patients had 22q11.2 deletion in this study population. A multicentered large population-based study is needed to confirm the results of this study and to develop guidelines on the appropriate use of 22q11.2 deletion testing, which are valid for cleft palate patients in Sri Lanka.

Attitudes toward prenatal diagnosis and termination of pregnancy for genetic disorders among healthcare workers in a selected setting in Sri Lanka.

OBJECTIVES: Assess attitudes toward prenatal diagnosis (PND) and termination of pregnancy (TOP) for Down syndrome (DS), hemophilia, lethal autosomal recessive disorder (LRD) and a hypothetical late-onset neurodegenerative disorder (NDD) among healthcare workers in one Sri Lankan district. METHODS: Self-administered questionnaire (tested for content validity) completed by medical (n = 218) and nursing (n = 368) students, nurses (n = 178) and doctors (n = 127). RESULTS: Acceptability of PND was 94%, 91%, 86% and 71% respectively for LRD, DS, hemophilia and NDD. Favorable attitudes toward TOP for DS (84%), and LRD (82%) were higher compared with hemophilia (65%) and NDD (53%). There was willingness to consider TOP for self/spouse for DS (79%), LRD (78%), hemophilia (60%) and NDD (54%). The proportions willing to participate in a pregnancy termination (DS 54%, LRD 51%, hemophilia 38%, NDD 38%) were lower. Religious affiliation influenced attitudes regarding TOP with Christians being more opposed than Buddhists. CONCLUSIONS: There is acceptance of and willingness to participate in TOP for fetal anomalies among Sri Lankan healthcare workers. These findings have relevance for developing prenatal diagnostic services in Sri Lanka. Religious affiliation among Asian doctors, nurses (and patients) in developed countries is likely to determine permissiveness toward PND and TOP.

The adrenal glands and their functions.

The adrenal glands secrete hormones essential for metabolism, regulation of blood pressure, and sodium and glucose homeostasis. Hypo- or hypersecretion of these hormones is life threatening. Understanding the physiological functions of adrenal hormones is a prerequisite to the management of adrenal gland disease.

Adrenal insufficiency.

Adrenal insufficiency can be due to disease of the adrenal gland itself (primary adrenal deficiency) or of the hypothalamic or pituitary regulation of the adrenal gland (secondary adrenal insufficiency). This article discusses its causes, clinical features, diagnosis and treatment.

Adrenal hypersecretion.

Hypersecretion from the adrenal glands is associated with hypertension. Causes include Conn syndrome, Cushing syndrome and phaechromocytoma. This article discusses their clinical features, diagnosis and treatment as well as the management of incidentally identified adrenal tumours (incidentaloma).