Forty-eight novel mutations causing biotinidase deficiency.

Biotinidase deficiency is an autosomal recessively inherited disorder that results in the inability to recycle the vitamin biotin and is characterized by neurological and cutaneous symptoms. The symptoms can be ameliorated or prevented by administering pharmacological doses of biotin. Since 2008, approximately 300 samples have been submitted to ARUP's Molecular Sequencing Laboratory for biotinidase mutation analysis. Of these, 48 novel alterations in the biotinidase gene have been identified. Correlating the individual's serum enzymatic activity with the genotype, we have been able to determine the effect of the novel alteration on enzyme activity and, thereby, determine its likelihood of being pathogenic in 44 of these individuals. The novel mutations and uncertain alterations have been added to the database established by ARUP (http://arup.utah.edu/database/BTD/BTD_welcome.phps) to help clinicians make decisions about management and to better counsel their patients based on their genotypes.

Atypical presentation of Angelman syndrome with intact expressive language due to low-level mosaicism.

BACKGROUND: Angelman syndrome (AS) occurs due to a lack of expression or function of the maternally inherited UBE3A gene. Individuals with AS typically have significant developmental delay, severe speech impairment with absent to minimal verbal language, gait abnormalities including ataxia, and an incongruous happy demeanor. The majority of individuals with AS also have seizures and microcephaly. Some individuals with mosaic AS have been reported to have expressive language and milder levels of developmental delay. CASE REPORT: We report a male patient presenting with mild to moderate intellectual disability, hyperphagia, obesity, and the ability to communicate verbally. His phenotype was suggestive of Prader-Willi syndrome. However, methylation testing was positive for Angelman syndrome and additional methylation specific multiplex ligation-dependent amplification (MS-MLPA) study revealed low-level mosaicism for AS. CONCLUSION: A broader phenotypic spectrum should be considered for AS as patients with atypical presentations may otherwise elude diagnosis.

Severe Distal Motor Involvement in a Non-compliant Adult With Biotinidase Deficiency: The Necessity of Life-Long Biotin Therapy.

Biotinidase deficiency is an autosomal recessive disorder in which affected individuals are unable to recycle biotin. Untreated, children usually exhibit hypotonia, seizures, ataxia, developmental delay, and/or hearing loss. Individuals diagnosed by newborn screening have an excellent prognosis with life-long biotin supplementation. We report a young adult diagnosed with profound biotinidase deficiency by newborn screening who was asymptomatic while on therapy. At 18 years of age, 6 months after voluntarily discontinuation of biotin, he developed a progressive distal muscle weakness. Molecular analysis of the BTD gene showed a pathogenic homozygous duplication c.1372_1373dupT p.(Cys458LeufsTer26) (1). Despite 16 months since reintroduction of biotin, muscle strength only partially recovered. Transition to adulthood in chronic metabolic diseases is known to be associated with an increased risk for non-compliance. Neurological findings in this adult are similar to those described in others with adult-onset biotinidase deficiency. Long-term prognosis in non-compliant symptomatic adult with biotinidase deficiency likely depends on the delay and/or severity of intervening symptoms until reintroduction of biotin.

Homozygous deletions of a copy number change detected by array CGH: a new cause for mental retardation?

We describe two unrelated patients with mental retardation and normal karyotypes found to have relatively large homozygous deletions (>150 kb) of different regions detected by array comparative genomic hybridization (aCGH). Patient 1 showed a 157-214 kb deletion at 8q24.2, containing BAC clone RP11-17M8. This patient was born to phenotypically normal parents and has microcephaly, distinctive craniofacial features, brachymetacarpia, brachymetatarsia and severe mental retardation. This BAC clone is listed as a copy number variant on the Database of Genomic Variants (http://projects.tcag.ca/variation/). Heterozygosity for the deletion was found in the mother (father is deceased) and uniparental disomy of chromosome 8 was excluded. Patient 2 showed a 812-902 kb deletion at 12q21.1, containing BAC clone RP11-89P15. This region was not listed in any public database as a known variant. This patient has mild craniofacial dysmorphic features, bifid uvula, peripheral pulmonic stenosis and developmental delay. Heterozygosity for this deletion was confirmed in the phenotypically normal parents and two normal siblings, but surprisingly, homozygosity for the deletion in an apparently normal younger sibling brings into question whether this large homozygous copy number change (CNC) is causal. Homozygous deletions of CNCs have not previously been reported in association with a phenotype or mental retardation. These cases represent homozygosity for presumably benign CNCs, and while causality for the phenotypes cannot be confirmed, similar deletions are bound to be identified more frequently as aCGH is used with increasing regularity. Such homozygous deletions should be viewed as potentially clinically relevant.

Evaluation of an integrative diagnostic algorithm for the identification of people at risk for alpha1-antitrypsin deficiency.

An integrative diagnostic algorithm for alpha1-antitrypsin (AAT) deficiency testing in the clinical laboratory was developed and evaluated. A novel rapid LightCycler (Roche, Indianapolis, IN) molecular assay was used to detect the common S and Z deficiency allelic variants. However, use of such molecular assays for these variants also can result in the misclassification of significant numbers of "at-risk" patient samples containing other rare AAT deficiency alleles. In the diagnostic algorithm presented herein, patient samples with selected genotypes that exhibit abnormally low AAT concentrations by immunoassay are phenotyped by isoelectric focusing. To test the efficacy of this algorithm, we retrospectively evaluated a data set of 50,020 serum samples for which protein phenotype and AAT concentration had been determined. This algorithm can successfully detect the majority of at-risk samples containing rare deficiency alleles.

Genotypes and serum concentrations of human alpha-1-antitrypsin "P" protein variants in a clinical population.

BACKGROUND: Alpha-1-antitrypsin (AAT) deficiency is a relatively common genetic disorder that can lead to the development of pulmonary disorders. Diagnosis of AAT deficiency is typically performed by isoelectric focusing (IEF) protein phenotyping in concert with determination of AAT serum concentration levels. The "P" phenotypic variant is associated with several known genetic variants that are found at unknown relative frequencies. AIMS: To investigate the genetic variation of "P" alleles in patient samples. METHODS: A DNA sequencing protocol for the full AAT coding region from serum was developed. Additionally, a retrospective evaluation of AAT concentrations in serum samples containing "P" allele IEF phenotype variants was undertaken. RESULTS: "P" phenotypic variants are observed in approximately 1 of every 900 samples received in the reference laboratory. Heterozygous "MP" allele samples exhibited a wide range of serum protein concentrations. Genotyping revealed the presence of the deleterious P lowell variant in six heterozygous MP samples, two heterozygous PZ samples, and one homozygous PP sample. A non-deleterious P st albans variant was observed in a single MP sample. A novel heterozygous AAT M"P" variant, P salt lake was identified, that did not exhibit a reduced AAT serum concentration. CONCLUSIONS: Genetic heterogeneity is present in clinical "P" phenotype variants identified by IEF, and the deleterious P lowell variant appears to be relatively common. Sequencing of "P" phenotype variants can provide useful clinical information, especially when the "P" phenotype variant is paired with a deficiency phenotype allele.

Impaired PIEZO1 function in patients with a novel autosomal recessive congenital lymphatic dysplasia.

Piezo1 ion channels are mediators of mechanotransduction in several cell types including the vascular endothelium, renal tubular cells and erythrocytes. Gain-of-function mutations in PIEZO1 cause an autosomal dominant haemolytic anaemia in humans called dehydrated hereditary stomatocytosis. However, the phenotypic consequence of PIEZO1 loss of function in humans has not previously been documented. Here we discover a novel role of this channel in the lymphatic system. Through whole-exome sequencing, we identify biallelic mutations in PIEZO1 (a splicing variant leading to early truncation and a non-synonymous missense variant) in a pair of siblings affected with persistent lymphoedema caused by congenital lymphatic dysplasia. Analysis of patients' erythrocytes as well as studies in a heterologous system reveal greatly attenuated PIEZO1 function in affected alleles. Our results delineate a novel clinical category of PIEZO1-associated hereditary lymphoedema.

Evaluation of the ELVIS plate method for the detection and typing of herpes simplex virus in clinical specimens.

This study was conducted to assess the reliability of a commercial enzyme-linked viral inducible system (ELVIS) (Diagnostic Hybrids, Inc., Athens, OH) for rapid detection and typing of herpes simplex virus (HSV). Results using ELVIS were compared to those of shell vial culture (SVC) and HSV detection with monoclonal antibodies and an immunoperoxidase stain plus typing with MicroTrak direct fluorescent antibodies (Trinity Biotech PLC, Wicklow, Ireland). Specimens yielding discrepant HSV results were tested by polymerase chain reaction (PCR); those with discrepant typing results were stained with Simulfluor (Chemicon, Temecula, CA). Of the 206 samples tested, 144 were negative and 54 were HSV-positive by both methods (agreement, 96.1%). Five specimens were positive by ELVIS but negative by SVC; 3 of these were positive and 2 were negative by HSV PCR. Both of the latter were the result of mechanical problems early in the study. Three specimens were positive by SVC but negative by ELVIS; all 3 were positive by HSV PCR. After resolution of discrepancies, the sensitivity and specificity for detection of HSV were 95.0% and 100% for SVC, respectively, and 95.0% and 98.6% for ELVIS. Of the 46 HSV-positive samples that were typed, 26 were called type 2 and 18 were type 1 by both methods (agreement, 95.7%). The 2 specimens with discrepant results were called HSV-2 by SVC, staining with MicroTrak, and HSV-1 with ELVIS; both of these were type 2 when stained with the Simulfluor reagent. ELVIS is a reliable alternative to SVC for rapid detection and typing of HSV.

Challenging identification of a novel PiISF and the rare PiMmaltonZ α1-antitrypsin deficiency variants in two patients.

OBJECTIVES: α1-Antitrypsin (AAT) deficiency is associated with an increased risk for lung and liver disease. Identification of AAT deficiency as the underlying cause of these diseases is important in correct patient management. METHODS: AAT deficiency is commonly diagnosed by demonstrating low concentrations of AAT followed by genotype and/or phenotype testing. However, this algorithm may miss novel AAT phenotypes. RESULTS: We report two cases of AAT deficiency in two patients: a case of the novel phenotype PiISF, misclassified as PiII by phenotyping, and a case of the rare phenotype PiMmaltonZ misclassified as PiM2Z. CONCLUSIONS: These cases highlight the importance of understanding the limitations of a commonly used diagnostic algorithm, use of further gene sequencing in applicable cases, and the potential for underdiagnosis of AAT deficiency in patients with chronic obstructive pulmonary disease.

Noncontinuously binding loop-out primers for avoiding problematic DNA sequences in PCR and sanger sequencing.

We present a method in which noncontinuously binding (loop-out) primers are used to exclude regions of DNA that typically interfere with PCR amplification and/or analysis by Sanger sequencing. Several scenarios were tested using this design principle, including M13-tagged PCR primers, non-M13-tagged PCR primers, and sequencing primers. With this technique, a single oligonucleotide is designed in two segments that flank, but do not include, a short region of problematic DNA sequence. During PCR amplification or sequencing, the problematic region is looped-out from the primer binding site, where it does not interfere with the reaction. Using this method, we successfully excluded regions of up to 46 nucleotides. Loop-out primers were longer than traditional primers (27 to 40 nucleotides) and had higher melting temperatures. This method allows the use of a standardized PCR protocol throughout an assay, keeps the number of PCRs to a minimum, reduces the chance for laboratory error, and, above all, does not interrupt the clinical laboratory workflow.

The Biotinidase Gene Variants Registry: A Paradigm Public Database.

The BTD gene codes for production of biotinidase, the enzyme responsible for helping the body reuse and recycle the biotin found in foods. Biotinidase deficiency is an autosomal recessively inherited disorder resulting in the inability to recycle the vitamin biotin and affects approximately 1 in 60,000 newborns. If untreated, the depletion of intracellular biotin leads to impaired activities of the biotin-dependent carboxylases and can result in cutaneous and neurological abnormalities in individuals with the disorder. Mutations in the biotinidase gene (BTD) alter enzymatic function. To date, more than 165 mutations in BTD have been reported. Our group has developed a database that characterizes the known mutations and sequence variants in BTD (http://arup.utah.edu/database/BTD/BTD_welcome.php). All sequence variants have been verified for their positions within the BTD gene and designated according to standard nomenclature suggested by Human Genome Variation Society (HGVS). In addition, we describe the change in the protein, indicate whether the variant is a known or likely mutation vs. a benign polymorphism, and include the reference that first described the alteration. We also indicate whether the alteration is known to be clinically pathological based on an observation of a known symptomatic individual or predicted to be pathological based on enzymatic activity or putative disruption of the protein structure. We incorporated the published phenotype to help establish genotype-phenotype correlations and facilitate this process for those performing mutation analysis and/or interpreting results. Other features of this database include disease information, relevant links about biotinidase deficiency, reference sequences, ability to query by various criteria, and the process for submitting novel variations. This database is free to the public and will be updated quarterly. This database is a paradigm for formulating databases for other inherited metabolic disorders.

α1-antitrypsin deficiency in fraternal twins born with familial spontaneous pneumothorax.

We report a case of spontaneous familial pneumothorax in fraternal twin boys. The twins' family history is remarkable for reactive airway disease and a female sibling also born with spontaneous pneumothorax. The family had no history of connective tissue disorders, renal cancer, or dermatologic diseases. Analysis of the twins' α(1)-antitrypsin (AAT) genotype, phenotype, and serum concentration revealed that both were compound heterozygous for rare SERPINA1 alleles. These findings suggest a role for AAT deficiency in spontaneous pneumothorax of the newborn. To our knowledge, these are the first genetic data to support etiology of neonatal spontaneous familial pneumothorax.

Concordance of butyrylcholinesterase phenotype with genotype: implications for biochemical reporting.

Butyrylcholinesterase (BChE) metabolizes the paralytic succinylcholine. Extended paralysis occurs in people with inherited BChE variants that may be identified by measuring BChE activity with and without the inhibitor dibucaine to calculate a dibucaine number (DN). Accurate phenotyping requires phenotype-specific BChE and DN reference intervals. We investigated the concordance between the biochemical BChE phenotype and the BCHE genotype to establish interpretive criteria for biochemical results. DNA was extracted from 45 serum specimens for which BChE activity and DN had been determined. The BCHE gene coding region was amplified and sequenced. Phenotype-genotype concordance and discordance occurred in 16 (36%) and 15 (33%) of specimens, respectively. A phenotype could not be assigned for 14 specimens (31%). An incorrectly assigned phenotype did not change the risk of prolonged paralysis or implied a slightly increased risk when there was none. Accurate BChE phenotyping is difficult using only enzyme activity and DN. The combination of biochemistry and BCHE genotype could improve the assessment of patient risk.

Misclassification of an apparent alpha 1-antitrypsin "Z" deficiency variant by melting analysis.

BACKGROUND: Alpha-1 antitrypsin (AAT) is a protease inhibitor that protects the lungs from degradation by neutrophil elastase. AAT deficiency is associated with both lung and liver diseases. AAT deficiency is diagnosed using a combination of genetic and biochemical tests. Here we demonstrate how polymorphisms in the AAT gene can lead to genotype/phenotype discrepancies in common AAT assays. METHODS: Total AAT was measured using an immunoturbidimetric assay. AAT phenotype was determined using isoelectric focusing. Genotypic identification of Z and S AAT alleles was performed by melt curve analysis using a LightCycler. Genotype/phenotype discrepancy was amended using gene sequencing. RESULTS: Genotype and phenotype analysis produced conflicting results as a consequence of a polymorphism located in the probe designed to detect the Z allele. Sequencing revealed that the polymorphism had previously been reported as a rare P allele. The probe that caused the discrepancy was designed to match the WT sequence. A new probe was designed to specifically detect the Z allele, eliminating the possibility of future discordance. CONCLUSIONS: Laboratories utilizing melt-curve analysis to diagnose patients should be aware of the potential for false positive results caused by polymorphisms located in the binding region of the genotyping probes. Alternatively, the probes should be designed to be specific to the mutation, rather than to the WT sequence.

Verification of multiplex ligation-dependent probe amplification probes in the absence of positive samples.

Deletions and duplications of single or multiple exons in specific genes are associated with human diseases. Multiplex ligation-dependant probe amplification (MLPA), a technique recently introduced to clinical laboratories, can detect deletions or duplications at the exon level. MLPA kits have a high multiplexing capability containing mixtures of exon-specific probes that target the gene of interest and control probes that hybridize to other genomic areas before PCR amplification. To verify each probe set, known positive samples with a single-exon deletion or duplication and normal samples are ideally used. Often, positive samples do not exist for each exon and normal samples are not suited to verify the identity of each probe set. We designed a straightforward approach using mixes of exon-specific PCR products as template to unequivocally verify each probe set in MLPA kits. This method can be used to verify the identity of MLPA probes for exons when positive samples are unavailable. Exon-specific probes from 15 MLPA kits were shown to hybridize to the targeted exons of interest. In one kit, this method identified probes that also bind a pseudogene, making them unreliable for clinical analysis. Incorporating this methodology in the analytical validation process will help ensure that MLPA results are interpreted correctly.

Molecular diagnosis of Prader-Willi and Angelman syndromes by methylation-specific melting analysis and methylation-specific multiplex ligation-dependent probe amplification.

BACKGROUND: Approximately 99% of Prader-Willi syndrome (PWS) and 80% of Angelman syndrome (AS) cases have deletions at a common region in chromosome 15q11.2-q13, uniparental disomy for chromosome 15 (UPD15), or imprinting center defects affecting gene expression in this region. The resulting clinical phenotype (PWS or AS) in each class of genomic abnormalities depends on the parent of origin. Both disorders are characterized at the molecular level by abnormal methylation of imprinted regions at 15q11.2-q13. Other rare chromosome 15 rearrangements and a few smaller atypical deletions associated with abnormal methylation patterns also have symptoms overlapping with either PWS or AS. METHODS: We designed a methylation-specific melting analysis (MS-MA) method for a rapid screening of PWS/AS and evaluated methylation-specific multiplex ligation-dependent probe amplification (MS-MLPA) for diagnosis of PWS/AS associated with deletions, UPD15, or rare duplications. Forty-nine previously genotyped samples were tested by MS-MA. We also tested 26 MS-MA genotyped samples and 1 additional sample with rare duplication of chromosome region 15q11-q12. RESULTS: PWS/AS genotyping results obtained by MS-MA and by MS-MLPA were fully concordant. In addition, MS-MLPA was superior in detecting deletions/rare duplications, possible UPD15, or imprinting center defects, which were usually determined by a laborious fluorescence in situ hybridization method or by chromosomal segregation analysis for the parental-origin using short-tandem repeat makers. CONCLUSIONS: MS-MA appears to be an efficient primary method to diagnose PWS/AS, and use of the quantitative MS-MLPA method provides detailed information about deletions, rare duplications, and possibly UPD.