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2. Incomplete silencing of full mutation alleles in males with fragile X syndrome is associated with autistic features

Author

Baker, EK, Arpone, M, Aliaga, SM, Bretherton, L, Kraan, CM, Minh, B, Slater, HR, Ling, L, Francis, D, Hunter, MF, Elliott, J, Rogers, C, Field, M, Cohen, J, Cornish, K, Santa Maria, L, Faundes, V, Curotto, B, Morales, P, Trigo, C, Salas, I, Alliende, AM, Amor, DJ, Godler, DE, Baker, EK, Arpone, M, Aliaga, SM, Bretherton, L, Kraan, CM, Minh, B, Slater, HR, Ling, L, Francis, D, Hunter, MF, Elliott, J, Rogers, C, Field, M, Cohen, J, Cornish, K, Santa Maria, L, Faundes, V, Curotto, B, Morales, P, Trigo, C, Salas, I, Alliende, AM, Amor, DJ, and Godler, DE

Abstract

BACKGROUND: Fragile X syndrome (FXS) is a common monogenic cause of intellectual disability with autism features. While it is caused by loss of the FMR1 product (FMRP), mosaicism for active and inactive FMR1 alleles, including alleles termed premutation (PM: 55-199 CGGs), is not uncommon. Importantly, both PM and active full mutation (FM: ≥ 200 CGGs) alleles often express elevated levels of mRNA that are thought to be toxic. This study determined if complete FMR1 mRNA silencing from FM alleles and/or levels of FMR1 mRNA (if present) in blood are associated with intellectual functioning and autism features in FXS. METHODS: The study cohort included 98 participants (70.4% male) with FXS (FM-only and PM/FM mosaic) aged 1-43 years. A control group of 14 females were used to establish control FMR1 mRNA reference range. Intellectual functioning and autism features were assessed using the Mullen Scales of Early Learning or an age-appropriate Wechsler Scale and the Autism Diagnostic Observation Schedule-2nd Edition (ADOS-2), respectively. FMR1 mRNA was analysed in venous blood collected at the time of assessments, using the real-time PCR relative standard curve method. RESULTS: Females with FXS had significantly higher levels of FMR1 mRNA (p < 0.001) than males. FMR1 mRNA levels were positively associated with age (p < 0.001), but not with intellectual functioning and autistic features in females. FM-only males (aged < 19 years) expressing FM FMR1 mRNA had significantly higher ADOS calibrated severity scores compared to FM-only males with completely silenced FMR1 (p = 0.011). However, there were no significant differences between these subgroups on intellectual functioning. In contrast, decreased levels of FMR1 mRNA were associated with decreased intellectual functioning in FXS males (p = 0.029), but not autism features, when combined with the PM/FM mosaic group. CONCLUSION: Incomplete silencing of toxic FM RNA may be associated with autistic features, but not intellectual

Published
2019

3. Diagnostic application of kidney allograft-derived absolute cell-free DNA levels during transplant dysfunction

Author

Whitlam, JB, Ling, L, Skene, A, Kanellis, J, Ierino, FL, Slater, HR, Bruno, DL, Power, DA, Whitlam, JB, Ling, L, Skene, A, Kanellis, J, Ierino, FL, Slater, HR, Bruno, DL, and Power, DA

Abstract

Graft-derived cell-free DNA (donor-derived cell-free DNA) is an emerging marker of kidney allograft injury. Studies examining the clinical validity of this biomarker have previously used the graft fraction, or proportion of total cell-free DNA that is graft-derived. The present study evaluated the diagnostic validity of absolute measurements of graft-derived cell-free DNA, as well as calculated graft fraction, for the diagnosis of graft dysfunction. Plasma graft-derived cell-free DNA, total cell-free DNA, and graft fraction were correlated with biopsy diagnosis as well as individual Banff scores. Sixty-one samples were included in the analysis. For the diagnosis of antibody mediated rejection, the receiver-operator characteristic area under the curves of graft-derived cell-free DNA and graft fraction were 0.91 (95% CI 0.82-0.98) and 0.89 (95% CI 0.79-0.98), respectively. Both measures did not diagnose borderline or type 1A cellular mediated rejection. Graft fraction was associated with a broader range of Banff lesions, including lesions associated with cellular mediated rejection, while graft-derived cell-free DNA appeared more specific for antibody mediated rejection. Limitations of this study include a small sample size and lack of a validation cohort. The capacity for absolute quantification, and lower barriers to implementation of this methodology recommend it for further study.

Published
2019

5. Molecular Inconsistencies in a Fragile X Male with Early Onset Ataxia

Author

Hwang, YT, Dudding, T, Mabel Aliaga, S, Arpone, M, Francis, D, Li, X, Slater, HR, Rogers, C, Bretherton, L, du Sart, D, Heard, R, Eugeny Godler, D, Hwang, YT, Dudding, T, Mabel Aliaga, S, Arpone, M, Francis, D, Li, X, Slater, HR, Rogers, C, Bretherton, L, du Sart, D, Heard, R, and Eugeny Godler, D

Abstract

Mosaicism for FMR1 premutation (PM: 55-199 CGG)/full mutation (FM: >200 CGG) alleles or the presence of unmethylated FM (UFM) have been associated with a less severe fragile X syndrome (FXS) phenotype and fragile X associated tremor/ataxia syndrome (FXTAS)-a late onset neurodegenerative disorder. We describe a 38 year old male carrying a 100% methylated FM detected with Southern blot (SB), which is consistent with complete silencing of FMR1 and a diagnosis of fragile X syndrome. However, his formal cognitive scores were not at the most severe end of the FXS phenotype and he displayed tremor and ataxic gait. With the association of UFM with FXTAS, we speculated that his ataxia might be related to an undetected proportion of UFM alleles. Such UFM alleles were confirmed by more sensitive PCR based methylation testing showing FM methylation between 60% and 70% in blood, buccal, and saliva samples and real-time PCR analysis showing incomplete silencing of FMR1. While he did not meet diagnostic criteria for FXTAS based on MRI findings, the underlying cause of his ataxia may be related to UFM alleles not detected by SB, and follow-up clinical and molecular assessment are justified if his symptoms worsen.

Published
2016

6. Brain structure and intragenic DNA methylation are correlated, and predict executive dysfunction in fragile X premutation females

Author

Shelton, AL, Cornish, KM, Kolbe, S, Clough, M, Slater, HR, Li, X, Kraan, CM, Bui, QM, Godler, DE, Fielding, J, Shelton, AL, Cornish, KM, Kolbe, S, Clough, M, Slater, HR, Li, X, Kraan, CM, Bui, QM, Godler, DE, and Fielding, J

Abstract

DNA methylation of the Fragile X mental retardation 1 (FMR1) exon 1/intron 1 boundary has been associated with executive dysfunction in female carriers of a FMR1 premutation (PM: 55-199 CGG repeats), whereas neuroanatomical changes have been associated with executive dysfunction in PM males. To our knowledge, this study for the first time examined the inter-relationships between executive function, neuroanatomical structure and molecular measures (DNA methylation and FMR1 mRNA levels in blood) in PM and control (<44 CGG repeats) females. In the PM group, FMR1 intron 1 methylation was positively associated with executive function and cortical thickness in middle and superior frontal gyri, and left inferior parietal gyrus. By contrast, in the control group, FMR1 intron 1 methylation was negatively associated with cortical thickness of the left middle frontal gyrus and superior frontal gyri. No significant associations were revealed for either group between FMR1 mRNA and neuroanatomical structure or executive function. In the PM group, the lack of any significant association between FMR1 mRNA levels and phenotypic measures found in this study suggests that either FMR1 expression is not well conserved between tissues, or that FMR1 intron 1 methylation is linked to neuroanatomical and cognitive phenotype in PM females via a different mechanism.

Published
2016

8. Novel methylation markers of the dysexecutive-psychiatric phenotype in FMR1 premutation women

Author

Cornish, KM, Kraan, CM, Bui, QM, Bellgrove, MA, Metcalfe, SA, Trollor, JN, Hocking, DR, Slater, HR, Inaba, Y, Li, X, Archibald, AD, Turbitt, E, Cohen, J, Godler, DE, Cornish, KM, Kraan, CM, Bui, QM, Bellgrove, MA, Metcalfe, SA, Trollor, JN, Hocking, DR, Slater, HR, Inaba, Y, Li, X, Archibald, AD, Turbitt, E, Cohen, J, and Godler, DE

Abstract

Objective: To examine the epigenetic basis of psychiatric symptoms and dysexecutive impairments in FMR1 premutation (PM: 55 to 199 CGG repeats) women. Methods: A total of 35 FMR1 PM women aged between 22 and 55 years and 35 age- and IQ-matched women controls (CGG <45) participated in this study. All participants completed a range of executive function tests and self-reported symptoms of psychiatric disorders. The molecular measures included DNA methylation of the FMR1 CpG island in blood, presented as FMR1 activation ratio (AR), and 9 CpG sites located at the FMR1 exon1/intron 1 boundary, CGG size, and FMR1 mRNA levels. Results: We show that FMR1 intron 1 methylation levels could be used to dichotomize PM women into greater and lower risk categories (p 0.006 to 0.037; odds ratio 14-24.8), with only FMR1 intron 1 methylation, and to a lesser extent AR, being significantly correlated with the likelihood of probable dysexecutive or psychiatric symptoms (p < 0.05). Furthermore, the significant relationships between methylation and social anxiety were found to be mediated by executive function performance, but only in PM women. FMR1 exon 1 methylation, CGG size, and FMR1 mRNA could not predict probable dysexecutive/psychiatric disorders in PM women. Conclusions: This is the first study supporting presence of specific epigenetic etiology associated with increased risk of developing comorbid dysexecutive and social anxiety symptoms in PM women. These findings could have implications for early intervention and risk estimate recommendations aimed at improving the outcomes for PM women and their families.

Published
2015

9. Detection of skewed X-chromosome inactivation in Fragile X syndrome and X chromosome aneuploidy using quantitative melt analysis

Author

Godler, DE, Inaba, Y, Schwartz, CE, Bui, QM, Shi, EZ, Li, X, Herlihy, AS, Skinner, C, Hagerman, RJ, Francis, D, Amor, DJ, Metcalfe, SA, Hopper, JL, Slater, HR, Godler, DE, Inaba, Y, Schwartz, CE, Bui, QM, Shi, EZ, Li, X, Herlihy, AS, Skinner, C, Hagerman, RJ, Francis, D, Amor, DJ, Metcalfe, SA, Hopper, JL, and Slater, HR

Abstract

Methylation of the fragile X mental retardation 1 (FMR1) exon 1/intron 1 boundary positioned fragile X related epigenetic element 2 (FREE2), reveals skewed X-chromosome inactivation (XCI) in fragile X syndrome full mutation (FM: CGG > 200) females. XCI skewing has been also linked to abnormal X-linked gene expression with the broader clinical impact for sex chromosome aneuploidies (SCAs). In this study, 10 FREE2 CpG sites were targeted using methylation specific quantitative melt analysis (MS-QMA), including 3 sites that could not be analysed with previously used EpiTYPER system. The method was applied for detection of skewed XCI in FM females and in different types of SCA. We tested venous blood and saliva DNA collected from 107 controls (CGG < 40), and 148 FM and 90 SCA individuals. MS-QMA identified: (i) most SCAs if combined with a Y chromosome test; (ii) locus-specific XCI skewing towards the hypomethylated state in FM females; and (iii) skewed XCI towards the hypermethylated state in SCA with 3 or more X chromosomes, and in 5% of the 47,XXY individuals. MS-QMA output also showed significant correlation with the EpiTYPER reference method in FM males and females (P < 0.0001) and SCAs (P < 0.05). In conclusion, we demonstrate use of MS-QMA to quantify skewed XCI in two applications with diagnostic utility.

Published
2015

10. Investigating and Correcting Plasma DNA Sequencing Coverage Bias to Enhance Aneuploidy Discovery

Author

Zhou, F, Chandrananda, D, Thorne, NP, Ganesamoorthy, D, Bruno, DL, Benjamini, Y, Speed, TP, Slater, HR, Bahlo, M, Zhou, F, Chandrananda, D, Thorne, NP, Ganesamoorthy, D, Bruno, DL, Benjamini, Y, Speed, TP, Slater, HR, and Bahlo, M

Abstract

Pregnant women carry a mixture of cell-free DNA fragments from self and fetus (non-self) in their circulation. In recent years multiple independent studies have demonstrated the ability to detect fetal trisomies such as trisomy 21, the cause of Down syndrome, by Next-Generation Sequencing of maternal plasma. The current clinical tests based on this approach show very high sensitivity and specificity, although as yet they have not become the standard diagnostic test. Here we describe improvements to the analysis of the sequencing data by reducing GC bias and better handling of the genomic repeats. We show substantial improvements in the sensitivity of the standard trisomy 21 statistical tests, which we measure by artificially reducing read coverage. We also explore the bias stemming from the natural cleavage of plasma DNA by examining DNA motifs and position specific base distributions. We propose a model to correct this fragmentation bias and observe that incorporating this bias does not lead to any further improvements in the detection of fetal trisomy. The improved bias corrections that we demonstrate in this work can be readily adopted into existing fetal trisomy detection protocols and should also lead to improvements in sub-chromosomal copy number variation detection.

Published
2014

11. A Genotype-First Approach for the Molecular and Clinical Characterization of Uncommon De Novo Microdeletion of 20q13.33

Author

Toland, AE, Traylor, RN, Bruno, DL, Burgess, T, Wildin, R, Spencer, A, Ganesamoorthy, D, Amor, DJ, Hunter, M, Caplan, M, Rosenfeld, JA, Theisen, A, Torchia, BS, Shaffer, LG, Ballif, BC, Slater, HR, Toland, AE, Traylor, RN, Bruno, DL, Burgess, T, Wildin, R, Spencer, A, Ganesamoorthy, D, Amor, DJ, Hunter, M, Caplan, M, Rosenfeld, JA, Theisen, A, Torchia, BS, Shaffer, LG, Ballif, BC, and Slater, HR

Abstract

BACKGROUND: Subtelomeric deletions of the long arm of chromosome 20 are rare, with only 11 described in the literature. Clinical features of individuals with these microdeletions include severe limb malformations, skeletal abnormalities, growth retardation, developmental and speech delay, mental retardation, seizures and mild, non-specific dysmorphic features. METHODOLOGY/PRINCIPAL FINDINGS: We characterized microdeletions at 20q13.33 in six individuals referred for genetic evaluation of developmental delay, mental retardation, and/or congenital anomalies. A comparison to previously reported cases of 20q13.33 microdeletion shows phenotypic overlap, with clinical features that include mental retardation, developmental delay, speech and language deficits, seizures, and behavior problems such as autistic spectrum disorder. There does not appear to be a clinically recognizable constellation of dysmorphic features among individuals with subtelomeric 20q microdeletions. CONCLUSIONS/SIGNIFICANCE: Based on genotype-phenotype correlation among individuals in this and previous studies, we discuss several possible candidate genes for specific clinical features, including ARFGAP1, CHRNA4 and KCNQ2 and neurodevelopmental deficits. Deletion of this region may play an important role in cognitive development.

Published
2010

12. Methylation of novel markers of fragile X alleles is inversely correlated with FMRP expression and FMR1 activation ratio

Author

Godler, DE, Tassone, F, Loesch, DZ, Taylor, AK, Gehling, F, Hagerman, RJ, Burgess, T, Ganesamoorthy, D, Hennerich, D, Gordon, L, Evans, A, Choo, KH, Slater, HR, Godler, DE, Tassone, F, Loesch, DZ, Taylor, AK, Gehling, F, Hagerman, RJ, Burgess, T, Ganesamoorthy, D, Hennerich, D, Gordon, L, Evans, A, Choo, KH, and Slater, HR

Abstract

The fragile X syndrome (FXS) is caused by silencing of the fragile X mental retardation gene (FMR1) and the absence of its product, fragile X mental retardation protein (FMRP), resulting from CpG island methylation associated with large CGG repeat expansions (more than 200) termed full mutation (FM). We have identified a number of novel epigenetic markers for FXS using matrix-assisted laser desorption/ionization-time of flight mass spectrometry (MALDI-TOF MS), naming the most informative fragile X-related epigenetic element 1 (FREE1) and 2 (FREE2). Methylation of both regions was correlated with that of the FMR1 CpG island detected using Southern blot (FREE1 R = 0.97; P < 0.00001, n = 23 and FREE2 R = 0.93; P < 0.00001, n = 23) and negatively correlated with lymphocyte expression of FMRP (FREE1 R = -0.62; P = 0.01, n = 15 and FREE2 R = -0.55; P = 0.03, n = 15) in blood of partially methylated 'high functioning' FM males. In blood of FM carrier females, methylation of both markers was inversely correlated with the FMR1 activation ratio (FREE1 R = -0.93; P < 0.0001, n = 12 and FREE2 R = -0.95; P < 0.0001, n = 9). In a sample set of 49 controls, 18 grey zone (GZ 40-54 repeats), 22 premutation (PM 55-170 repeats) and 22 (affected) FXS subjects, the FREE1 methylation pattern was consistent between blood and chorionic villi as a marker of methylated FM alleles and could be used to differentiate FXS males and females from controls, as well as from carriers of GZ/PM alleles, but not between GZ and PM alleles and controls. Considering its high-throughput and specificity for pathogenic FM alleles, low cost and minimal DNA requirements, FREE MALDI-TOF MS offers a unique tool in FXS diagnostics and newborn population screening.

Published
2010

13. Improved Methodology for Assessment of mRNA Levels in Blood of Patients with FMR1 Related Disorders

Author

Godler, DE, Loesch, DZ, Huggins, R, Gordon, L, Slater, HR, Gehling, F, Burgess, T, Choo, KHA, Godler, DE, Loesch, DZ, Huggins, R, Gordon, L, Slater, HR, Gehling, F, Burgess, T, and Choo, KHA

Abstract

BACKGROUND: Elevated levels of FMR1 mRNA in blood have been implicated in RNA toxicity associated with a number of clinical conditions. Due to the extensive inter-sample variation in the time lapse between the blood collection and RNA extraction in clinical practice, the resulting variation in mRNA quality significantly confounds mRNA analysis by real-time PCR. METHODS: Here, we developed an improved method to normalize for mRNA degradation in a sample set with large variation in rRNA quality, without sample omission. Initially, RNA samples were artificially degraded, and analyzed using capillary electrophoresis and real-time PCR standard curve method, with the aim of defining the best predictors of total RNA and mRNA degradation. RESULTS: We found that: (i) the 28S:18S ratio and RNA quality indicator (RQI) were good predictors of severe total RNA degradation, however, the greatest changes in the quantity of different mRNAs (FMR1, DNMT1, GUS, B2M and GAPDH) occurred during the early to moderate stages of degradation; (ii) chromatographic features for the 18S, 28S and the inter-peak region were the most reliable predictors of total RNA degradation, however their use for target gene normalization was inferior to internal control genes, of which GUS was the most appropriate. Using GUS for normalization, we examined in the whole blood the relationship between the FMR1 mRNA and CGG expansion in a non-coding portion of this gene, in a sample set (n = 30) with the large variation in rRNA quality. By combining FMR1 3' and 5' mRNA analyses the confounding impact of mRNA degradation on the correlation between FMR1 expression and CGG size was minimized, and the biological significance increased from p = 0.046 for the 5' FMR1 assay, to p = 0.018 for the combined FMR1 3' and 5' mRNA analysis. CONCLUSION: Our observations demonstrate that, through the use of an appropriate internal control and the direct analysis of multiple sites of target mRNA, samples that do not conform to th

Published
2009

14. An improved Diagnostic PCR Assay for identification of Cryptic Heterozygosity for CGG Triplet Repeat Alleles in the Fragile X Gene (FMR1)

Author

Khaniani, MS, Kalitsis, P, Burgess, T, Slater, HR, Khaniani, MS, Kalitsis, P, Burgess, T, and Slater, HR

Abstract

BACKGROUND: Fragile X syndrome (OMIM #300624) is the most common, recognised, heritable cause of mental retardation. Widespread testing is warranted by the relatively high frequency of the disorder, the benefits of early detection and the identification of related carriers whose offspring are at a 1 in 2 risk of inheriting the expanded pathogenic mutation. However, cost-effective screening of mentally retarded individuals has been impeded by the lack of a single, simple laboratory test. Currently, Fragile X syndrome can be excluded in males and a majority of females using a simple high-throughput PCR test. Due to the limited sensitivity of the PCR test, we find in our diagnostic service that approximately 40% of females appear homozygous and a labour intensive and expensive Southern blot test is required to distinguish these from females carrying one normal allele and an expanded allele. RESULTS: We describe an improved PCR test which displays a high level of precision allowing alleles differing by a single triplet to be resolved. Using the new assay, we detected 46/83 (53%) cryptic heterozygotes previously labelled as homozygotes. The assay also extended the range of repeats amplifiable, up to 170 CGG repeats in males and 130 CGG repeats in females. Combined with the high precision, the assay also improves discrimination of normal (CGG repeats < 45) from grey zone (45 < CGG repeats < 54) alleles and grey zone alleles from small premutations (55 < CGG repeats < 100). CONCLUSION: Use of this PCR test provides significantly improved precision and amplification of longer alleles. The number of follow-up Southern blot tests required is reduced (up to 50%) with consequent improvement in turnaround time and cost.

Published
2008

17. Molecular breakpoint cloning and gene expression studies of a novel translocation t(4;15)(q27;q11.2) associated with Prader-Willi syndrome

Author

Schüle, B, Albalwi, M, Northrop, E, Francis, DI, Rowell, M, Slater, HR, Gardner, RJM, Francke, U, Schüle, B, Albalwi, M, Northrop, E, Francis, DI, Rowell, M, Slater, HR, Gardner, RJM, and Francke, U

Abstract

BACKGROUND: Prader-Willi syndrome (MIM #176270; PWS) is caused by lack of the paternally-derived copies, or their expression, of multiple genes in a 4 Mb region on chromosome 15q11.2. Known mechanisms include large deletions, maternal uniparental disomy or mutations involving the imprinting center. De novo balanced reciprocal translocations in 5 reported individuals had breakpoints clustering in SNRPN intron 2 or exon 20/intron 20. To further dissect the PWS phenotype and define the minimal critical region for PWS features, we have studied a 22 year old male with a milder PWS phenotype and a de novo translocation t(4;15)(q27;q11.2). METHODS: We used metaphase FISH to narrow the breakpoint region and molecular analyses to map the breakpoints on both chromosomes at the nucleotide level. The expression of genes on chromosome 15 on both sides of the breakpoint was determined by RT-PCR analyses. RESULTS: Pertinent clinical features include neonatal hypotonia with feeding difficulties, hypogonadism, short stature, late-onset obesity, learning difficulties, abnormal social behavior and marked tolerance to pain, as well as sticky saliva and narcolepsy. Relative macrocephaly and facial features are not typical for PWS. The translocation breakpoints were identified within SNRPN intron 17 and intron 10 of a spliced non-coding transcript in band 4q27. LINE and SINE sequences at the exchange points may have contributed to the translocation event. By RT-PCR of lymphoblasts and fibroblasts, we find that upstream SNURF/SNRPN exons and snoRNAs HBII-437 and HBII-13 are expressed, but the downstream snoRNAs PWCR1/HBII-85 and HBII-438A/B snoRNAs are not. CONCLUSION: As part of the PWCR1/HBII-85 snoRNA cluster is highly conserved between human and mice, while no copy of HBII-438 has been found in mouse, we conclude that PWCR1/HBII-85 snoRNAs is likely to play a major role in the PWS- phenotype.

Published
2005

20. New evidence for, and challenges in, linking small CGG repeat expansion FMR1 alleles with Parkinson's disease.

Author

Loesch, DZ, Tassone, F, Lo, J, Slater, HR, Hills, LV, Bui, MQ, Silburn, PA, and Mellick, GD

Subjects
ALLELES, MICROSATELLITE repeats, PARKINSON'S disease & genetics, PARKINSONIAN disorders, FRAGILE X syndrome, PATIENTS
Abstract

We recently reported a significant increase in the frequency of carriers of grey zone ( GZ) alleles of FMR1 gene in Australian males with Parkinson's disease ( PD) from Victoria and Tasmania. Here, we report data comparing an independent sample of 817 PD patients from Queensland to 1078 consecutive Australian male newborns from Victoria. We confirmed the earlier finding by observing a significant excess of GZ alleles in PD (4.8%) compared to controls (1.5%). Although both studies provided evidence in support of an association between GZ-carrier status and increased risk for parkinsonism, the existing evidence in the literature from screening studies remains equivocal and we discuss the need for alternative approaches to resolve the issue. [ABSTRACT FROM AUTHOR]

Published
2013
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21. Incomplete silencing of full mutation alleles in males with fragile X syndrome is associated with autistic features.

Author

Baker EK, Arpone M, Aliaga SM, Bretherton L, Kraan CM, Bui M, Slater HR, Ling L, Francis D, Hunter MF, Elliott J, Rogers C, Field M, Cohen J, Cornish K, Santa Maria L, Faundes V, Curotto B, Morales P, Trigo C, Salas I, Alliende AM, Amor DJ, and Godler DE

Subjects
Adolescent, Adult, Age Factors, Child, Child, Preschool, Female, Fragile X Mental Retardation Protein blood, Fragile X Mental Retardation Protein genetics, Fragile X Mental Retardation Protein metabolism, Humans, Infant, Intellectual Disability genetics, Male, Middle Aged, Phenotype, RNA, Messenger blood, RNA, Messenger genetics, RNA, Messenger metabolism, Young Adult, Alleles, Autistic Disorder complications, Autistic Disorder genetics, Fragile X Syndrome complications, Fragile X Syndrome genetics, Gene Silencing, Mutation genetics
Abstract

Background: Fragile X syndrome (FXS) is a common monogenic cause of intellectual disability with autism features. While it is caused by loss of the FMR 1 product (FMRP), mosaicism for active and inactive FMR1 alleles, including alleles termed premutation (PM: 55-199 CGGs), is not uncommon. Importantly, both PM and active full mutation (FM: ≥ 200 CGGs) alleles often express elevated levels of mRNA that are thought to be toxic. This study determined if complete FMR1 mRNA silencing from FM alleles and/or levels of FMR1 mRNA (if present) in blood are associated with intellectual functioning and autism features in FXS., Methods: The study cohort included 98 participants (70.4% male) with FXS (FM-only and PM/FM mosaic) aged 1-43 years. A control group of 14 females were used to establish control FMR1 mRNA reference range. Intellectual functioning and autism features were assessed using the Mullen Scales of Early Learning or an age-appropriate Wechsler Scale and the Autism Diagnostic Observation Schedule-2nd Edition (ADOS-2), respectively. FMR1 mRNA was analysed in venous blood collected at the time of assessments, using the real-time PCR relative standard curve method., Results: Females with FXS had significantly higher levels of FMR1 mRNA ( p  < 0.001) than males. FMR1 mRNA levels were positively associated with age ( p  < 0.001), but not with intellectual functioning and autistic features in females. FM-only males (aged < 19 years) expressing FM FMR1 mRNA had significantly higher ADOS calibrated severity scores compared to FM-only males with completely silenced FMR1 ( p  = 0.011). However, there were no significant differences between these subgroups on intellectual functioning. In contrast, decreased levels of FMR1 mRNA were associated with decreased intellectual functioning in FXS males ( p  = 0.029), but not autism features, when combined with the PM/FM mosaic group., Conclusion: Incomplete silencing of toxic FM RNA may be associated with autistic features, but not intellectual functioning in FXS males. While decreased levels of mRNA may be more predictive of intellectual functioning than autism features. If confirmed in future studies, these findings may have implications for patient stratification, outcome measure development, and design of clinical and pre-clinical trials in FXS., Competing Interests: All procedures were approved by The Royal Children’s Hospital and INTA Human Research Ethics Committees (HREC #33066 and #15, respectively). All parents/caregivers provided written informed consent and those who were deemed cognitively able also provided written informed consent.D. Godler is an inventor of the following patents: PCT/AU2010/001134; filing No. AU2010/903595; filing No. AU2011/902500; and filing No. 2013/900227, related to the technology described in this publication. All other authors have no conflicts of interest to declare.Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Published
2019
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22. Diagnostic application of kidney allograft-derived absolute cell-free DNA levels during transplant dysfunction.

Author

Whitlam JB, Ling L, Skene A, Kanellis J, Ierino FL, Slater HR, Bruno DL, and Power DA

Subjects
Adult, Cross-Sectional Studies, Female, Humans, Immunosuppressive Agents administration & dosage, Male, Middle Aged, Prospective Studies, Transplantation, Homologous, Cell-Free Nucleic Acids blood, Graft Rejection diagnosis, Graft Rejection genetics, Kidney Transplantation
Abstract

Graft-derived cell-free DNA (donor-derived cell-free DNA) is an emerging marker of kidney allograft injury. Studies examining the clinical validity of this biomarker have previously used the graft fraction, or proportion of total cell-free DNA that is graft-derived. The present study evaluated the diagnostic validity of absolute measurements of graft-derived cell-free DNA, as well as calculated graft fraction, for the diagnosis of graft dysfunction. Plasma graft-derived cell-free DNA, total cell-free DNA, and graft fraction were correlated with biopsy diagnosis as well as individual Banff scores. Sixty-one samples were included in the analysis. For the diagnosis of antibody mediated rejection, the receiver-operator characteristic area under the curves of graft-derived cell-free DNA and graft fraction were 0.91 (95% CI 0.82-0.98) and 0.89 (95% CI 0.79-0.98), respectively. Both measures did not diagnose borderline or type 1A cellular mediated rejection. Graft fraction was associated with a broader range of Banff lesions, including lesions associated with cellular mediated rejection, while graft-derived cell-free DNA appeared more specific for antibody mediated rejection. Limitations of this study include a small sample size and lack of a validation cohort. The capacity for absolute quantification, and lower barriers to implementation of this methodology recommend it for further study., (© 2018 The American Society of Transplantation and the American Society of Transplant Surgeons.)

Published
2019
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23. β-glucuronidase use as a single internal control gene may confound analysis in FMR1 mRNA toxicity studies.

Author

Kraan CM, Cornish KM, Bui QM, Li X, Slater HR, and Godler DE

Subjects
Confounding Factors, Epidemiologic, Humans, Real-Time Polymerase Chain Reaction, Fragile X Mental Retardation Protein genetics, Glucuronidase genetics, RNA, Messenger genetics
Abstract

Relationships between Fragile X Mental Retardation 1 (FMR1) mRNA levels in blood and intragenic FMR1 CGG triplet expansions support the pathogenic role of RNA gain of function toxicity in premutation (PM: 55-199 CGGs) related disorders. Real-time PCR (RT-PCR) studies reporting these findings normalised FMR1 mRNA level to a single internal control gene called β-glucuronidase (GUS). This study evaluated FMR1 mRNA-CGG correlations in 33 PM and 33 age- and IQ-matched control females using three normalisation strategies in peripheral blood mononuclear cells (PBMCs): (i) GUS as a single internal control; (ii) the mean of GUS, Eukaryotic Translation Initiation Factor 4A2 (EIF4A2) and succinate dehydrogenase complex flavoprotein subunit A (SDHA); and (iii) the mean of EIF4A2 and SDHA (with no contribution from GUS). GUS mRNA levels normalised to the mean of EIF4A2 and SDHA mRNA levels and EIF4A2/SDHA ratio were also evaluated. FMR1mRNA level normalised to the mean of EIF4A2 and SDHA mRNA levels, with no contribution from GUS, showed the most significant correlation with CGG size and the greatest difference between PM and control groups (p = 10-11). Only 15% of FMR1 mRNA PM results exceeded the maximum control value when normalised to GUS, compared with over 42% when normalised to the mean of EIF4A2 and SDHA mRNA levels. Neither GUS mRNA level normalised to the mean RNA levels of EIF4A2 and SDHA, nor to the EIF4A2/SDHA ratio were correlated with CGG size. However, greater variability in GUS mRNA levels were observed for both PM and control females across the full range of CGG repeat as compared to the EIF4A2/SDHA ratio. In conclusion, normalisation with multiple control genes, excluding GUS, can improve assessment of the biological significance of FMR1 mRNA-CGG size relationships.

Published
2018
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25. Brain structure and intragenic DNA methylation are correlated, and predict executive dysfunction in fragile X premutation females.

Author

Shelton AL, Cornish KM, Kolbe S, Clough M, Slater HR, Li X, Kraan CM, Bui QM, Godler DE, and Fielding J

Subjects
Adult, DNA Mutational Analysis, Exons genetics, Female, Fragile X Syndrome complications, Fragile X Syndrome diagnosis, Humans, Introns genetics, Magnetic Resonance Imaging, Middle Aged, Neuropsychological Tests, Phenotype, Statistics as Topic, Trinucleotide Repeats genetics, Young Adult, Brain pathology, DNA Methylation genetics, Executive Function physiology, Fragile X Syndrome genetics, Fragile X Syndrome pathology
Abstract

DNA methylation of the Fragile X mental retardation 1 (FMR1) exon 1/intron 1 boundary has been associated with executive dysfunction in female carriers of a FMR1 premutation (PM: 55-199 CGG repeats), whereas neuroanatomical changes have been associated with executive dysfunction in PM males. To our knowledge, this study for the first time examined the inter-relationships between executive function, neuroanatomical structure and molecular measures (DNA methylation and FMR1 mRNA levels in blood) in PM and control (<44 CGG repeats) females. In the PM group, FMR1 intron 1 methylation was positively associated with executive function and cortical thickness in middle and superior frontal gyri, and left inferior parietal gyrus. By contrast, in the control group, FMR1 intron 1 methylation was negatively associated with cortical thickness of the left middle frontal gyrus and superior frontal gyri. No significant associations were revealed for either group between FMR1 mRNA and neuroanatomical structure or executive function. In the PM group, the lack of any significant association between FMR1 mRNA levels and phenotypic measures found in this study suggests that either FMR1 expression is not well conserved between tissues, or that FMR1 intron 1 methylation is linked to neuroanatomical and cognitive phenotype in PM females via a different mechanism., Competing Interests: D Golder is an inventor of the following patents, PCT/AU2010/001134; filing no. AU2010/903595; filing no. AU2011/902500; filing no. 2013/900227; related to the technology described in this publication. The remaining authors declare no conflict of interest.

Published
2016
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26. Partially methylated alleles, microdeletion, and tissue mosaicism in a fragile X male with tremor and ataxia at 30 years of age: A case report.

Author

Hwang YT, Aliaga SM, Arpone M, Francis D, Li X, Chong B, Slater HR, Rogers C, Bretherton L, Hunter M, Heard R, and Godler DE

Subjects
Adult, Child, Preschool, DNA Copy Number Variations, Fragile X Mental Retardation Protein genetics, Humans, Magnetic Resonance Imaging, Male, Neuropsychological Tests, Promoter Regions, Genetic, RNA, Messenger genetics, Trinucleotide Repeat Expansion, Alleles, Ataxia diagnosis, Ataxia genetics, DNA Methylation, Fragile X Syndrome diagnosis, Fragile X Syndrome genetics, Genetic Association Studies, Mosaicism, Sequence Deletion, Tremor diagnosis, Tremor genetics
Abstract

CGG repeat expansion >200 within FMR1, termed full mutation (FM), has been associated with promoter methylation, consequent silencing of gene expression and fragile X syndrome (FXS)-a common cause of intellectual disability and co-morbid autism. Unmethylated premutation (55-199 repeats) and FM alleles have been associated with fragile X related tremor/ataxia syndrome (FXTAS), a late onset neurodegenerative disorder. Here we present a 33-year-old male with FXS, with white matter changes and progressive deterioration in gait with cerebellar signs consistent with probable FXTAS; there was no evidence of any other cerebellar pathology. We show that he has tissue mosaicism in blood, saliva, and buccal samples for the size and methylation of his expanded alleles and a de novo, unmethylated microdeletion. This microdeletion involves a ∼80 bp sequence in the FMR1 promoter as well as complete loss of the CGG repeat in a proportion of cells. Despite FMR1 mRNA levels in blood within the normal range, the methylation and CGG sizing results are consistent with the diagnosis of concurrent FXS and probable FXTAS. The demonstrated presence of unmethylated FM alleles would explain the manifestation of milder than expected cognitive and behavioral impairments and early onset of cerebellar ataxia. Our case suggests that individuals with FXS, who manifest symptoms of FXTAS, may benefit from more detailed laboratory testing. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published
2016
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27. Molecular Inconsistencies in a Fragile X Male with Early Onset Ataxia.

Author

Hwang YT, Dudding T, Aliaga SM, Arpone M, Francis D, Li X, Slater HR, Rogers C, Bretherton L, du Sart D, Heard R, and Godler DE

Abstract

Mosaicism for FMR1 premutation (PM: 55-199 CGG)/full mutation (FM: >200 CGG) alleles or the presence of unmethylated FM (UFM) have been associated with a less severe fragile X syndrome (FXS) phenotype and fragile X associated tremor/ataxia syndrome (FXTAS)-a late onset neurodegenerative disorder. We describe a 38 year old male carrying a 100% methylated FM detected with Southern blot (SB), which is consistent with complete silencing of FMR1 and a diagnosis of fragile X syndrome. However, his formal cognitive scores were not at the most severe end of the FXS phenotype and he displayed tremor and ataxic gait. With the association of UFM with FXTAS, we speculated that his ataxia might be related to an undetected proportion of UFM alleles. Such UFM alleles were confirmed by more sensitive PCR based methylation testing showing FM methylation between 60% and 70% in blood, buccal, and saliva samples and real-time PCR analysis showing incomplete silencing of FMR1. While he did not meet diagnostic criteria for FXTAS based on MRI findings, the underlying cause of his ataxia may be related to UFM alleles not detected by SB, and follow-up clinical and molecular assessment are justified if his symptoms worsen., Competing Interests: David Eugeny Godler holds patents related to the technology described in this article. The other authors declare that they have no competing interests.

Published
2016
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28. β-glucuronidase mRNA levels are correlated with gait and working memory in premutation females: understanding the role of FMR1 premutation alleles.

Author

Kraan CM, Cornish KM, Bui QM, Li X, Slater HR, and Godler DE

Subjects
Adult, Ataxia blood, Ataxia genetics, Case-Control Studies, Female, Fragile X Mental Retardation Protein blood, Fragile X Syndrome blood, Fragile X Syndrome genetics, Glucuronidase blood, Humans, Male, Middle Aged, Mutation, RNA, Messenger blood, Real-Time Polymerase Chain Reaction standards, Tremor blood, Tremor genetics, Trinucleotide Repeat Expansion, Ataxia complications, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome complications, Gait genetics, Glucuronidase genetics, Memory, Short-Term, Tremor complications
Abstract

Fragile X tremor ataxia syndrome (FXTAS) is a late-onset disorder manifesting in a proportion of FMR1 premutation individuals (PM: 55-199 CGG triplet expansions). FXTAS is associated with elevated levels of FMR1 mRNA which are toxic. In this study, relationships between neurocognitive and intra-step gait variability measures with mRNA levels, measured in blood samples, were examined in 35 PM and 35 matched control females. The real-time PCR assays measured FMR1 mRNA, and previously used internal control genes: β-Glucuronidase (GUS), Succinate Dehydrogenase 1 (SDHA) and Eukaryotic Translation Initiation Factor 4A (EI4A2). Although there was significant correlation of gait variability with FMR1 mRNA levels (p = 0.004) when normalized to GUS (FMR1/GUS), this was lost when FMR1 was normalized to SDHA and EI4A2 (2IC). In contrast, GUS mRNA level normalized to 2IC showed a strong correlation with gait variability measures (p < 0.007), working memory (p = 0.001) and verbal intelligence scores (p = 0.008). PM specific changes in GUS mRNA were not mediated by FMR1 mRNA. These results raise interest in the role of GUS in PM related disorders and emphasise the importance of using appropriate internal control genes, which have no significant association with PM phenotype, to normalize FMR1 mRNA levels.

Published
2016
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29. Identification of Males with Cryptic Fragile X Alleles by Methylation-Specific Quantitative Melt Analysis.

Author

Aliaga SM, Slater HR, Francis D, Du Sart D, Li X, Amor DJ, Alliende AM, Santa Maria L, Faundes V, Morales P, Trigo C, Salas I, Curotto B, and Godler DE

Subjects
Adolescent, Adult, Blotting, Southern, Child, Child, Preschool, Cohort Studies, CpG Islands, DNA Methylation, Fragile X Mental Retardation Protein genetics, Fragile X Mental Retardation Protein metabolism, Humans, Infant, Male, Middle Aged, Mosaicism, Polymerase Chain Reaction methods, Young Adult, Alleles, Fragile X Syndrome genetics, Genetic Techniques
Abstract

Background: FMR1 full mutations (FMs) (CGG expansion >200) in males mosaic for a normal (<45 CGG) or gray-zone (GZ) (45-54 CGG) allele can be missed with the standard 2-step fragile X syndrome (FXS) testing protocols, largely because the first-line PCR tests showing a normal or GZ allele are not reflexed to the second-line test that can detect FM., Methods: We used methylation-specific quantitative melt analysis (MS-QMA) to determine the prevalence of cryptic FM alleles in 2 independent cohorts of male patients (994 from Chile and 2392 from Australia) referred for FXS testing from 2006 to 2013. All MS-QMA-positive cases were retested with commercial triplet primed PCR, methylation-sensitive Southern blot, and a methylation-specific EpiTYPER-based test., Results: All 38 FMs detected with the standard 2-step protocol were detected with MS-QMA. However, MS-QMA identified methylation mosaicism in an additional 15% and 11% of patients in the Chilean and Australian cohorts, respectively, suggesting the presence of a cryptic FM. Of these additional patients, 57% were confirmed to carry cryptic expanded alleles in blood, buccal mucosa, or saliva samples. Further confirmation was provided by identifying premutation (CGG 55-199) alleles in mothers of probands with methylation-sensitive Southern blot. Neurocognitive assessments showed that low-level mosaicism for cryptic FM alleles was associated with cognitive impairment or autism., Conclusions: A substantial number of mosaic FM males who have cognitive impairment or autism are not diagnosed with the currently recommended 2-step testing protocol and can be identified with MS-QMA as a first-line test., (© 2015 American Association for Clinical Chemistry.)

Published
2016
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30. Prenatal diagnosis of fragile X syndrome complicated by full mutation retraction.

Author

Stark Z, Francis D, Gaffney L, Greenberg J, Hills L, Li X, Godler DE, and Slater HR

Subjects
Alleles, DNA Methylation, Female, Fetus, Fragile X Syndrome pathology, Gene Expression, Humans, Male, Pregnancy, Prenatal Diagnosis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome diagnosis, Fragile X Syndrome genetics, Mutation, Trinucleotide Repeat Expansion
Published
2015
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31. Detection of skewed X-chromosome inactivation in Fragile X syndrome and X chromosome aneuploidy using quantitative melt analysis.

Author

Godler DE, Inaba Y, Schwartz CE, Bui QM, Shi EZ, Li X, Herlihy AS, Skinner C, Hagerman RJ, Francis D, Amor DJ, Metcalfe SA, Hopper JL, and Slater HR

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Child, Child, Preschool, Chromosomes, Human, X, CpG Islands, DNA blood, DNA Methylation, Exons, Female, Fragile X Mental Retardation Protein blood, Fragile X Syndrome blood, Fragile X Syndrome genetics, Fragile X Syndrome pathology, Gene Expression, Humans, Infant, Infant, Newborn, Introns, Male, Middle Aged, Nucleic Acid Denaturation, Saliva chemistry, Aneuploidy, DNA genetics, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome diagnosis, X Chromosome Inactivation
Abstract

Methylation of the fragile X mental retardation 1 (FMR1) exon 1/intron 1 boundary positioned fragile X related epigenetic element 2 (FREE2), reveals skewed X-chromosome inactivation (XCI) in fragile X syndrome full mutation (FM: CGG > 200) females. XCI skewing has been also linked to abnormal X-linked gene expression with the broader clinical impact for sex chromosome aneuploidies (SCAs). In this study, 10 FREE2 CpG sites were targeted using methylation specific quantitative melt analysis (MS-QMA), including 3 sites that could not be analysed with previously used EpiTYPER system. The method was applied for detection of skewed XCI in FM females and in different types of SCA. We tested venous blood and saliva DNA collected from 107 controls (CGG < 40), and 148 FM and 90 SCA individuals. MS-QMA identified: (i) most SCAs if combined with a Y chromosome test; (ii) locus-specific XCI skewing towards the hypomethylated state in FM females; and (iii) skewed XCI towards the hypermethylated state in SCA with 3 or more X chromosomes, and in 5% of the 47,XXY individuals. MS-QMA output also showed significant correlation with the EpiTYPER reference method in FM males and females (P < 0.0001) and SCAs (P < 0.05). In conclusion, we demonstrate use of MS-QMA to quantify skewed XCI in two applications with diagnostic utility.

Published
2015
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32. Novel methylation markers of the dysexecutive-psychiatric phenotype in FMR1 premutation women.

Author

Cornish KM, Kraan CM, Bui QM, Bellgrove MA, Metcalfe SA, Trollor JN, Hocking DR, Slater HR, Inaba Y, Li X, Archibald AD, Turbitt E, Cohen J, and Godler DE

Subjects
Adult, Biomarkers, Cohort Studies, Epigenesis, Genetic genetics, Female, Humans, Middle Aged, Mutation genetics, Risk, Young Adult, DNA Methylation, Executive Function physiology, Fragile X Mental Retardation Protein genetics, Phenotype, Phobic Disorders genetics, Trinucleotide Repeat Expansion genetics
Abstract

Objective: To examine the epigenetic basis of psychiatric symptoms and dysexecutive impairments in FMR1 premutation (PM: 55 to 199 CGG repeats) women., Methods: A total of 35 FMR1 PM women aged between 22 and 55 years and 35 age- and IQ-matched women controls (CGG <45) participated in this study. All participants completed a range of executive function tests and self-reported symptoms of psychiatric disorders. The molecular measures included DNA methylation of the FMR1 CpG island in blood, presented as FMR1 activation ratio (AR), and 9 CpG sites located at the FMR1 exon1/intron 1 boundary, CGG size, and FMR1 mRNA levels., Results: We show that FMR1 intron 1 methylation levels could be used to dichotomize PM women into greater and lower risk categories (p = 0.006 to 0.037; odds ratio = 14-24.8), with only FMR1 intron 1 methylation, and to a lesser extent AR, being significantly correlated with the likelihood of probable dysexecutive or psychiatric symptoms (p < 0.05). Furthermore, the significant relationships between methylation and social anxiety were found to be mediated by executive function performance, but only in PM women. FMR1 exon 1 methylation, CGG size, and FMR1 mRNA could not predict probable dysexecutive/psychiatric disorders in PM women., Conclusions: This is the first study supporting presence of specific epigenetic etiology associated with increased risk of developing comorbid dysexecutive and social anxiety symptoms in PM women. These findings could have implications for early intervention and risk estimate recommendations aimed at improving the outcomes for PM women and their families., (© 2015 American Academy of Neurology.)

Published
2015
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33. Detection of segmental chromosome copy number gains by improved fluorescence in situ hybridization techniques.

Author

Chia NL, Slater HR, and Potter JM

Abstract

Fluorescence in situ hybridization (FISH) techniques are used for the targeted investigation of microduplication, microdeletion and structural rearrangements. More recently FISH techniques using probes specific to the region of interest have been applied to confirm genomic copy number variation (CNV). However, there are limitations in the assessment of FISH signal patterns. Tandem duplication of small CNVs appear as an increased signal size when standard FISH methods are applied. As such, interpretation of signal patterns is subjective and further complicated in the presence of mosaicism. Here we describe a pre-treatment that enhances the demonstration of tandem duplication. We assessed the sensitivity to CNVs of a minimum of 120 kb in size and determined that the lower limit of detection of mosaicism is 10 percent. In contrast to some methods of chromatin extension and elongation, this technique is done using fixed cell preparations from routine cytogenetic harvesting, and can be applied to freshly harvested or stored fixed cell suspensions. This modification to standard FISH preparations has the scope to be used as a screening tool for family and prenatal investigations.

Published
2015

34. Use of copy number deletion polymorphisms to assess DNA chimerism.

Author

Bruno DL, Ganesamoorthy D, Thorne NP, Ling L, Bahlo M, Forrest S, Veenendaal M, Katerelos M, Skene A, Ierino FL, Power DA, and Slater HR

Subjects
Humans, Limit of Detection, Polymerase Chain Reaction methods, Reproducibility of Results, Chimera genetics, DNA Copy Number Variations
Abstract

Background: We describe a novel approach that harnesses the ubiquity of copy number deletion polymorphisms in human genomes to definitively detect and quantify chimeric DNA in clinical samples. Unlike other molecular approaches to chimerism analysis, the copy number deletion (CND) method targets genomic loci (>50 base pairs in length) that are wholly absent from wild-type (i.e., self) background DNA sequences in a sex-independent manner., Methods: Bespoke quantitative PCR (qPCR) CND assays were developed and validated using a series of DNA standards and chimeric plasma DNA samples collected from 2 allogeneic kidney transplant recipients and 12 pregnant women. Assay performance and informativeness were assessed using appropriate statistical methods., Results: The CND qPCR assays showed high sensitivity, precision, and reliability for linear quantification of DNA chimerism down to 16 genomic equivalents (i.e., 106 pg). Fetal fraction (%) in 12 singleton male pregnancies was calculated using the CND qPCR approach, which showed closer agreement with single-nucleotide polymorphism-based massively parallel sequencing than the SRY (sex determining region Y) (Y chromosome) qPCR assay. The latter consistently underestimated the fetal fraction relative to the other methods. We also were able to measure biological changes in plasma nonself DNA concentrations in 2 renal transplant recipients., Conclusions: The CND qPCR technique is suitable for measurement of chimerism for monitoring of rejection in allogeneic organ transplantation and quantification of the cell-free fetal DNA fraction in maternal plasma samples used for noninvasive prenatal genetic testing., (© 2014 American Association for Clinical Chemistry.)

Published
2014
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35. Early detection of fragile X syndrome: applications of a novel approach for improved quantitative methylation analysis in venous blood and newborn blood spots.

Author

Inaba Y, Schwartz CE, Bui QM, Li X, Skinner C, Field M, Wotton T, Hagerman RJ, Francis D, Amor DJ, Hopper JL, Loesch DZ, Bretherton L, Slater HR, and Godler DE

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Case-Control Studies, Child, Child, Preschool, Cognition, Cohort Studies, Dried Blood Spot Testing, Early Diagnosis, Epigenesis, Genetic, Female, Fragile X Syndrome blood, Fragile X Syndrome genetics, Humans, Infant, Infant, Newborn, Introns, Male, Methylation, Middle Aged, Polymerase Chain Reaction methods, Sensitivity and Specificity, Fragile X Syndrome diagnosis
Abstract

Background: Standard fragile X syndrome (FXS) diagnostic tests that target methylation of the fragile X mental retardation 1 (FMR1) CpG island 5' of the CGG expansion can be used to predict severity of the disease in males from birth, but not in females., Methods: We describe methylation specific-quantitative melt analysis (MS-QMA) that targets 10 CpG sites, with 9 within FMR1 intron 1, to screen for FXS from birth in both sexes. The novel method combines the qualitative strengths of high-resolution melt and the high-throughput, quantitative real-time PCR standard curve to provide accurate quantification of DNA methylation in a single assay. Its performance was assessed in 312 control (CGG <40), 143 premutation (PM) (CGG 56-170), 197 full mutation (FM) (CGG 200-2000), and 33 CGG size and methylation mosaic samples., Results: In male and female newborn blood spots, MS-QMA differentiated FM from control alleles, with sensitivity, specificity, and positive and negative predictive values between 92% and 100%. In venous blood of FM females between 6 and 35 years of age, MS-QMA correlated most strongly with verbal IQ impairment (P = 0.002). In the larger cohort of males and females, MS-QMA correlated with reference methods Southern blot and MALDI-TOF mass spectrometry (P < 0.05), but was not significantly correlated with age. Unmethylated alleles in high-functioning FM and PM males determined by both reference methods were also unmethylated by MS-QMA., Conclusions: MS-QMA has an immediate application in FXS diagnostics, with a potential use of its quantitative methylation output for prognosis in both sexes., (© 2014 The American Association for Clinical Chemistry.)

Published
2014
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37. Investigating and correcting plasma DNA sequencing coverage bias to enhance aneuploidy discovery.

Author

Chandrananda D, Thorne NP, Ganesamoorthy D, Bruno DL, Benjamini Y, Speed TP, Slater HR, and Bahlo M

Subjects
Adult, Bias, DNA blood, Female, Fetus, Genetic Testing, Gestational Age, Humans, Karyotyping, Pregnancy, Trisomy genetics, DNA genetics, High-Throughput Nucleotide Sequencing statistics & numerical data, Prenatal Diagnosis, Trisomy diagnosis
Abstract

Pregnant women carry a mixture of cell-free DNA fragments from self and fetus (non-self) in their circulation. In recent years multiple independent studies have demonstrated the ability to detect fetal trisomies such as trisomy 21, the cause of Down syndrome, by Next-Generation Sequencing of maternal plasma. The current clinical tests based on this approach show very high sensitivity and specificity, although as yet they have not become the standard diagnostic test. Here we describe improvements to the analysis of the sequencing data by reducing GC bias and better handling of the genomic repeats. We show substantial improvements in the sensitivity of the standard trisomy 21 statistical tests, which we measure by artificially reducing read coverage. We also explore the bias stemming from the natural cleavage of plasma DNA by examining DNA motifs and position specific base distributions. We propose a model to correct this fragmentation bias and observe that incorporating this bias does not lead to any further improvements in the detection of fetal trisomy. The improved bias corrections that we demonstrate in this work can be readily adopted into existing fetal trisomy detection protocols and should also lead to improvements in sub-chromosomal copy number variation detection.

Published
2014
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38. Characterization of core clinical phenotypes associated with recurrent proximal 15q25.2 microdeletions.

Author

Burgess T, Brown NJ, Stark Z, Bruno DL, Oertel R, Chong B, Calabro V, Kornberg A, Sanderson C, Kelly J, Howell KB, Savarirayan R, Hinds R, Greenway A, Slater HR, and White SM

Subjects
Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Adolescent, Child, Child, Preschool, Chromosome Mapping, Comparative Genomic Hybridization, Female, Heterozygote, Humans, Infant, Male, Polymorphism, Single Nucleotide, Syndrome, Chromosome Deletion, Chromosomes, Human, Pair 15, Phenotype
Abstract

A recurrent proximal microdeletion at 15q25.2 with an approximate 1.5 megabase smallest region of overlap has recently been reported in seven patients and is proposed to be associated with congenital diaphragmatic hernia (CDH), mild to moderate cognitive deficit, and/or features consistent with Diamond-Blackfan anemia. We report on four further patients and define the core phenotypic features of individuals with this microdeletion to include mild to moderate developmental delay or intellectual disability, postnatal short stature, anemia, and cryptorchidism in males. CDH and structural organ malformations appear to be less frequent associations, as is venous thrombosis. There is no consistent facial dysmorphism. Features novel to our patient group include dextrocardia, obstructive sleep apnea, and cleft lip., (© 2013 Wiley Periodicals, Inc.)

Published
2014
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39. Authors' response to: Meeting the challenge of interpreting high-resolution single nucleotide polymorphism array data: does increased diagnostic power outweigh the dilemma of rare variants.

Author

McGillivray G, Bruno DL, Slater HR, and Amor DJ

Subjects
Female, Humans, Pregnancy, Oligonucleotide Array Sequence Analysis methods, Polymorphism, Single Nucleotide, Prenatal Diagnosis methods, Ultrasonography, Prenatal methods, Uniparental Disomy diagnosis
Published
2013
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40. Molecular and clinical characterization of 25 individuals with exonic deletions of NRXN1 and comprehensive review of the literature.

Author

Béna F, Bruno DL, Eriksson M, van Ravenswaaij-Arts C, Stark Z, Dijkhuizen T, Gerkes E, Gimelli S, Ganesamoorthy D, Thuresson AC, Labalme A, Till M, Bilan F, Pasquier L, Kitzis A, Dubourgm C, Rossi M, Bottani A, Gagnebin M, Sanlaville D, Gilbert-Dussardier B, Guipponi M, van Haeringen A, Kriek M, Ruivenkamp C, Antonarakis SE, Anderlid BM, Slater HR, and Schoumans J

Subjects
Calcium-Binding Proteins, Cohort Studies, Heterozygote, Humans, Karyotyping, Neural Cell Adhesion Molecules, Autistic Disorder genetics, Cell Adhesion Molecules, Neuronal genetics, Exons, Nerve Tissue Proteins genetics, Seizures genetics, Sequence Deletion
Abstract

This study aimed to elucidate the observed variable phenotypic expressivity associated with NRXN1 (Neurexin 1) haploinsufficiency by analyses of the largest cohort of patients with NRXN1 exonic deletions described to date and by comprehensively reviewing all comparable copy number variants in all disease cohorts that have been published in the peer reviewed literature (30 separate papers in all). Assessment of the clinical details in 25 previously undescribed individuals with NRXN1 exonic deletions demonstrated recurrent phenotypic features consisting of moderate to severe intellectual disability (91%), severe language delay (81%), autism spectrum disorder (65%), seizures (43%), and hypotonia (38%). These showed considerable overlap with previously reported NRXN1-deletion associated phenotypes in terms of both spectrum and frequency. However, we did not find evidence for an association between deletions involving the β-isoform of neurexin-1 and increased head size, as was recently published in four cases with a deletion involving the C-terminus of NRXN1. We identified additional rare copy number variants in 20% of cases. This study supports a pathogenic role for heterozygous exonic deletions of NRXN1 in neurodevelopmental disorders. The additional rare copy number variants identified may act as possible phenotypic modifiers as suggested in a recent digenic model of neurodevelopmental disorders., (Copyright © 2013 Wiley Periodicals, Inc.)

Published
2013
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41. Relationships between age and epi-genotype of the FMR1 exon 1/intron 1 boundary are consistent with non-random X-chromosome inactivation in FM individuals, with the selection for the unmethylated state being most significant between birth and puberty.

Author

Godler DE, Inaba Y, Shi EZ, Skinner C, Bui QM, Francis D, Amor DJ, Hopper JL, Loesch DZ, Hagerman RJ, Schwartz CE, and Slater HR

Subjects
Adolescent, Adult, Age Factors, Aged, Aged, 80 and over, Child, Child, Preschool, CpG Islands genetics, Exons, Female, Humans, Infant, Infant, Newborn, Male, Methylation, Middle Aged, Mutation genetics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Epigenesis, Genetic genetics, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome genetics, RNA-Binding Proteins genetics, X Chromosome Inactivation genetics
Abstract

Methylation of the fragile X-related epigenetic element 2 (FREE2) located on the exon 1/intron 1 boundary of the FMR1 gene is related to FMRP expression and cognitive impairment in full mutation (FM; CGG>200) individuals. We examined the relationship between age, the size of the FMR1 CGG expansion and the methylation output ratio (MOR) at 12 CpG sites proximal to the exon 1/intron 1 boundary using FREE2 MALDI-TOF MS. The patient cohort included 119 males and 368 females, i.e. 121 healthy controls (CGG<40), 176 premutation (CGG 55-170) and 190 FM (CGG 213-2000). For all CpG units examined, FM males showed a significantly elevated MOR compared with that in hypermethylated FM females. In FM males the MOR for most CpG units significantly positively correlated with both age and CGG size (P< 0.05). In FM females the skewing towards the unmethylated state was significant for half of the units between birth and puberty (P < 0.05). The methylation status of intron 1 CpG10-12 that was most significantly related to cognitive impairment in our earlier study, did not change significantly with age in FM females. These results challenge the concept of fragile X syndrome (FXS)-related methylation being static over time, and suggest that due to the preference for the unmethylated state in FM females, X-inactivation at this locus is not random. The findings also highlight that the prognostic value of FXS methylation testing is not uniform between all CpG sites, and thus may need to be evaluated on a site-by-site basis.

Published
2013
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42. Fragile X-related element 2 methylation analysis may provide a suitable option for inclusion of fragile X syndrome and/or sex chromosome aneuploidy into newborn screening: a technical validation study.

Author

Inaba Y, Herlihy AS, Schwartz CE, Skinner C, Bui QM, Cobb J, Shi EZ, Francis D, Arvaj A, Amor DJ, Pope K, Wotton T, Cohen J, Hewitt JK, Hagerman RJ, Metcalfe SA, Hopper JL, Loesch DZ, Slater HR, and Godler DE

Subjects
Adolescent, Adult, Aged, Alleles, Cell Line, Child, Child, Preschool, Female, Gene Dosage, Genes, sry, Genetic Testing economics, Genetic Testing methods, Humans, Infant, Infant, Newborn, Male, Middle Aged, Neonatal Screening economics, Neonatal Screening methods, Reproducibility of Results, Sensitivity and Specificity, Trinucleotide Repeat Expansion genetics, Young Adult, Aneuploidy, CpG Islands, DNA Methylation, Fragile X Mental Retardation Protein genetics, Fragile X Syndrome diagnosis, Fragile X Syndrome genetics, Introns, Sex Chromosome Aberrations
Abstract

Purpose: We show that a novel fragile X-related epigenetic element 2 FMR1 methylation test can be used along with a test for sex-determining region Y (SRY) to provide the option of combined fragile X syndrome and sex chromosome aneuploidy newborn screening., Methods: Fragile X-related epigenetic element 2, SRY, and FMR1 CGG repeat analyses were performed on blood and saliva DNA, and in adult and newborn blood spots. The cohort consisted of 159 controls (CGG <40), 187 premutation (CGG 56-170), and 242 full-mutation (CGG ~200-2,000) males and females, 106 sex chromosome aneuploidy individuals, and 151 cytogenetically normal controls., Results: At the 0.435 threshold, fragile X-related epigenetic element 2 analysis in males was robust on both blood DNA and newborn blood spots, with specificity and sensitivity of ~100% for full-mutation genotype. In females, the specificity was 99%, whereas half of full-mutation females were above the 0.435 threshold in both blood DNA and newborn blood spots. Furthermore, at this threshold, the test could not differentiate individuals with Klinefelter syndrome from female controls without using the SRY marker. When combined with SRY analysis, the test was consistent with most results for sex chromosome aneuploidies from karyotyping., Conclusion: Setting specific thresholds for fragile X-related epigenetic element 2 analysis and including the SRY marker provides the option to either include or exclude detection of sex chromosome aneuploidies as part of fragile X syndrome newborn screening.

Published
2013
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43. Meeting the challenge of interpreting high-resolution single nucleotide polymorphism array data in prenatal diagnosis: does increased diagnostic power outweigh the dilemma of rare variants?

Author

Ganesamoorthy D, Bruno DL, McGillivray G, Norris F, White SM, Adroub S, Amor DJ, Yeung A, Oertel R, Pertile MD, Ngo C, Arvaj AR, Walker S, Charan P, Palma-Dias R, Woodrow N, and Slater HR

Subjects
Cell Culture Techniques, DNA Copy Number Variations, Female, Humans, Karyotyping, Pregnancy, Prospective Studies, Oligonucleotide Array Sequence Analysis methods, Polymorphism, Single Nucleotide, Prenatal Diagnosis methods, Ultrasonography, Prenatal methods, Uniparental Disomy diagnosis
Abstract

Objective: Several studies have already shown the superiority of chromosomal microarray analysis (CMA) compared with conventional karyotyping for prenatal investigation of fetal ultrasound abnormality. This study used very high-resolution single nucleotide polymorphism (SNP) arrays to determine the impact on detection rates of all clinical categories of copy number variations (CNVs), and address the issue of interpreting and communicating findings of uncertain or unknown clinical significance, which are to be expected at higher frequency when using very high-resolution CMA., Design: Prospective validation study., Setting: Tertiary clinical genetics centre., Population: Women referred for further investigation of fetal ultrasound anomaly., Methods: We prospectively tested 104 prenatal samples using both conventional karyotyping and high-resolution arrays., Main Outcome Measures: The detection rates for each clinical category of CNV., Results: Unequivocal pathogenic CNVs were found in six cases, including one with uniparental disomy (paternal UPD 14). A further four cases had a 'likely pathogenic' finding. Overall, CMA improved the detection of 'pathogenic' and 'likely pathogenic' abnormalities from 2.9% (3/104) to 9.6% (10/104). CNVs of 'unknown' clinical significance that presented interpretational difficulties beyond results from parental investigations were detected in 6.7% (7/104) of samples., Conclusions: Increased detection sensitivity appears to be the main benefit of high-resolution CMA. Despite this, in this cohort there was no significant benefit in terms of improving detection of small pathogenic CNVs. A potential disadvantage is the high detection rate of CNVs of 'unknown' clinical significance. These findings emphasise the importance of establishing an evidence-based policy for the interpretation and reporting of CNVs, and the need to provide appropriate pre- and post-test counselling., (© 2013 The Authors BJOG An International Journal of Obstetrics and Gynaecology © 2013 RCOG.)

Published
2013
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44. Application of a new molecular technique for the genetic evaluation of products of conception.

Author

Grati FR, Gomes DM, Ganesamoorthy D, Marcato L, De Toffol S, Blondeel E, Malvestiti F, Loeuillet L, Ruggeri AM, Wainer R, Maggi F, Aboura A, Dupont C, Tabet AC, Guimiot F, Slater HR, Simoni G, and Vialard F

Subjects
Algorithms, Aneuploidy, Chromosomes, Artificial, Bacterial, Cytogenetic Analysis, Female, Fetus chemistry, Humans, Karyotyping, Microspheres, Placenta chemistry, Pregnancy, Reproducibility of Results, Retrospective Studies, Abortion, Spontaneous genetics, Chromosome Aberrations embryology
Abstract

Objectives: Karyotyping is a well-established method of investigating the genetic content of product of conceptions (POCs). Because of the high rate of culture failure and maternal cell contamination, failed results or 46,XX findings are often obtained. Different molecular approaches that are not culture dependent have been proposed to circumvent these limits. On the basis of the robust experience previously obtained with bacterial artificial chromosomes (BACs)-on-Beads™ (BoBs™), we evaluated the same technology that we had used for the analysis of prenatal samples on POCs., Method: KaryoLite™ BoBs™ includes 91 beads, each of which is conjugated with a composite of multiple neighboring BACs according to the hg19 assembly. It quantifies proximal and terminal regions of each chromosome arm. The study included 376 samples., Results: The failure rate was 2%, and reproducibility >99%; false-positive and false-negative rates were <1% for non-mosaic aneuploidies and imbalances effecting all three BACs in a contig. Detection rate for partial terminal imbalances was 65.5%. The mosaic detection threshold was 50%, and the success rate in macerated samples was 87.8%. The aneuploidy detection rate in samples with cell growth failure was 27.8%, and maternal cell contamination was suspected in 23.1% of 46,XX cultured cells., Conclusion: KaryoLite™ BoBs™ as a 'first-tier' test in combination with other approaches showed beneficial, cost-effective and clearly enhanced POC testing., (© 2012 John Wiley & Sons, Ltd.)

Published
2013
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45. Fragile X mental retardation 1 (FMR1) intron 1 methylation in blood predicts verbal cognitive impairment in female carriers of expanded FMR1 alleles: evidence from a pilot study.

Author

Godler DE, Slater HR, Bui QM, Storey E, Ono MY, Gehling F, Inaba Y, Francis D, Hopper JL, Kinsella G, Amor DJ, Hagerman RJ, and Loesch DZ

Subjects
Adolescent, Adult, Aged, Child, Cognition Disorders blood, CpG Islands genetics, Female, Humans, Infant, Intelligence Tests, Middle Aged, Pilot Projects, Young Adult, Alleles, Cognition Disorders diagnosis, Cognition Disorders genetics, DNA blood, DNA Methylation, Fragile X Mental Retardation Protein genetics, Introns
Abstract

Background: Cognitive status in females with mutations in the FMR1 (fragile X mental retardation 1) gene is highly variable. A biomarker would be of value for predicting which individuals were liable to develop cognitive impairment and could benefit from early intervention. A detailed analysis of CpG sites bridging exon 1 and intron 1 of FMR1, known as fragile X-related epigenetic element 2 (FREE2), suggests that a simple blood test could identify these individuals., Methods: Study participants included 74 control females (<40 CGG repeats), 62 premutation (PM) females (55-200 CGG repeats), and 18 full-mutation (FM) females assessed with Wechsler intelligence quotient (IQ) tests. We used MALDI-TOF mass spectrometry to determine the methylation status of FREE2 CpG sites that best identified low-functioning (IQ <70) FM females (>200 CGG repeats), compared the results with those for Southern blot FMR1 activation ratios, and related these assessments to the level of production of the FMR1 protein product in blood., Results: A methylation analysis of intron 1 CpG sites 10-12 showed the highest diagnostic sensitivity (100%) and specificity (98%) of all the molecular measures tested for detecting females with a standardized verbal IQ of <70 among the study participants. In the group consisting of only FM females, methylation of these sites was significantly correlated with full-scale IQ, verbal IQ, and performance IQ. Several verbal subtest scores showed strong correlation with the methylation of these sites (P = 1.2 × 10(-5)) after adjustment for multiple measures., Conclusions: The data suggest that hypermethylation of the FMR1 intron 1 sites in blood is predictive of cognitive impairment in FM females, with implications for improved fragile X syndrome diagnostics in young children and screening of the newborn population.

Published
2012
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46. Pathogenic aberrations revealed exclusively by single nucleotide polymorphism (SNP) genotyping data in 5000 samples tested by molecular karyotyping.

Author

Bruno DL, White SM, Ganesamoorthy D, Burgess T, Butler K, Corrie S, Francis D, Hills L, Prabhakara K, Ngo C, Norris F, Oertel R, Pertile MD, Stark Z, Amor DJ, and Slater HR

Subjects
Adolescent, Adult, Aged, Child, Child, Preschool, Chromosome Mapping, Chromosomes, Human genetics, DNA Copy Number Variations, Developmental Disabilities genetics, Developmental Disabilities pathology, Genetic Testing methods, Humans, Infant, Intellectual Disability genetics, Intellectual Disability pathology, Loss of Heterozygosity, Middle Aged, Young Adult, Chromosome Aberrations statistics & numerical data, Genotype, Karyotyping methods, Polymorphism, Single Nucleotide
Abstract

Background: Several recent studies have demonstrated the use of single nucleotide polymorphism (SNP) arrays for the investigation of intellectual disability, developmental delay, autism or congenital abnormalities. In addition to LogR 'copy number' data, these arrays provide SNP genotyping data for gene level autozygosity mapping, estimating low levels of mosaicism, assessing long continuous stretches of homozygosity (LCSH), detection of uniparental disomy, and 'autozygous' regions. However, there remains little specific information on the clinical utility of this genotyping data., Methods: Molecular karyotyping, using SNP array, was performed on 5000 clinical samples., Results: Clinically significant 'LogR neutral' genotyping abnormalities were detected in 0.5% of cases. Among these were a single case of chimerism, 12 cases with low level chromosome mosaicism, and 11 cases with an LCSH associated with uniparental disomy. In addition, the genotyping data revealed several LCSH associated with clinically relevant 'recessive type' genetic defects., Conclusions: These results demonstrate the utility of SNP genotyping data for detection of clinically significant abnormalities, including chimerism/mosaicism and recessive Mendelian disorders associated with autozygosity. The incidence of clinically significant low level mosaicism inferred from these cases suggests that this has hitherto been underestimated and chromosome mosaicism frequently occurs in the absence of indicative clinical features. The growing appreciation among clinicians and demand for SNP genotyping data poses significant challenges for the interpretation of LCSH, especially where there is no detailed phenotypic description to direct laboratory analysis. Finally, reporting of unexpected or hidden consanguinity revealed by SNP array analysis raises potential ethical and legal issues.

Published
2011
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47. Extending the scope of diagnostic chromosome analysis: detection of single gene defects using high-resolution SNP microarrays.

Author

Bruno DL, Stark Z, Amor DJ, Burgess T, Butler K, Corrie S, Francis D, Ganesamoorthy D, Hills L, James PA, O'Rielly D, Oertel R, Savarirayan R, Prabhakara K, Salce N, and Slater HR

Subjects
Autistic Disorder diagnosis, Autistic Disorder genetics, Child, Child, Preschool, Congenital Abnormalities diagnosis, Developmental Disabilities diagnosis, Female, Gene Dosage genetics, Genes, Dominant, Genes, Recessive, Genetic Testing, Humans, Infant, Intellectual Disability diagnosis, Male, Pregnancy, Congenital Abnormalities genetics, DNA Copy Number Variations genetics, Developmental Disabilities genetics, Intellectual Disability genetics, Oligonucleotide Array Sequence Analysis methods, Polymorphism, Single Nucleotide genetics
Abstract

Microarray analysis has provided significant advances in the diagnosis of conditions resulting from submicroscopic chromosome abnormalities. It has been recommended that array testing should be a "first tier" test in the evaluation of individuals with intellectual disability, developmental delay, congenital anomalies, and autism. The availability of arrays with increasingly high probe coverage and resolution has increased the detection of decreasingly small copy number changes (CNCs) down to the intragenic or even exon level. Importantly, arrays that genotype SNPs also detect extended regions of homozygosity. We describe 14 examples of single gene disorders caused by intragenic changes from a consecutive set of 6,500 tests using high-resolution SNP microarrays. These cases illustrate the increased scope of cytogenetic testing beyond dominant chromosome rearrangements that typically contain many genes. Nine of the cases confirmed the clinical diagnosis, that is, followed a "phenotype to genotype" approach. Five were diagnosed by the laboratory analysis in the absence of a specific clinical diagnosis, that is, followed a "genotype to phenotype" approach. Two were clinically significant, incidental findings. The importance of astute clinical assessment and laboratory-clinician consultation is emphasized to optimize the value of microarrays in the diagnosis of disorders caused by single gene copy number and sequence mutations., (© 2011 Wiley-Liss, Inc.)

Published
2011
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48. FMR1 intron 1 methylation predicts FMRP expression in blood of female carriers of expanded FMR1 alleles.

Author

Godler DE, Slater HR, Bui QM, Ono M, Gehling F, Francis D, Amor DJ, Hopper JL, Hagerman R, and Loesch DZ

Subjects
Adolescent, Adult, Blotting, Southern, Child, CpG Islands genetics, Female, Humans, Linear Models, Middle Aged, Reproducibility of Results, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Alleles, DNA Methylation genetics, Fragile X Mental Retardation Protein blood, Fragile X Mental Retardation Protein genetics, Heterozygote, Introns genetics, Trinucleotide Repeat Expansion genetics
Abstract

Fragile X syndrome (FXS) is caused by loss of the fragile X mental retardation gene protein product (FMRP) through promoter hypermethylation, which is usually associated with CGG expansion to full mutation size (>200 CGG repeats). Methylation-sensitive Southern blotting is the current gold standard for the molecular diagnosis of FXS. For females, Southern blotting provides the activation ratio (AR), which is the proportion of unmethylated alleles on the active X chromosome. Herein, we examine the relationship of FMRP expression with methylation patterns of two fragile X-related epigenetic elements (FREE) analyzed using matrix-assisted laser desorption/ionization-time-of-flight mass spectrometry and the AR. We showed that the differential methylation of the FREE2 sequence within fragile X mental retardation gene intron 1 was related to depletion of FMRP expression. We also show that, using the combined cohort of 12 females with premutation (55 to 200 CGG repeats) and 22 females with full mutation alleles, FREE2 methylation analysis was superior to the AR as a predictor of the proportion of FMRP-positive cells in blood. Because matrix-assisted laser desorption/ionization-time-of-flight mass spectrometry is amenable to high-throughput processing and requires minimal DNA, these findings have implications for routine FXS testing and population screening., (Copyright © 2011 American Society for Investigative Pathology and the Association for Molecular Pathology. Published by Elsevier Inc. All rights reserved.)

Published
2011
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49. Phenotypic variability of distal 22q11.2 copy number abnormalities.

Author

Tan TY, Collins A, James PA, McGillivray G, Stark Z, Gordon CT, Leventer RJ, Pope K, Forbes R, Crolla JA, Ganesamoorthy D, Burgess T, Bruno DL, Slater HR, Farlie PG, and Amor DJ

Subjects
Adolescent, Adult, Child, Child, Preschool, Female, Genetic Association Studies, Goldenhar Syndrome genetics, Humans, Infant, Infant, Newborn, Male, Repetitive Sequences, Nucleic Acid genetics, Young Adult, Chromosomes, Human, Pair 22 genetics, DNA Copy Number Variations genetics, Phenotype
Abstract

The availability of microarray technology has led to the recent recognition of copy number abnormalities of distal chromosome 22q11.2 that are distinct from the better-characterized deletions and duplications of the proximal region. This report describes five unrelated individuals with copy number abnormalities affecting distal chromosome 22q11.2. We report on novel phenotypic features including diaphragmatic hernia and uterine didelphys associated with the distal microdeletion syndrome; and frontomedial polymicrogyria and callosal agenesis associated with the distal microduplication syndrome. We describe the third distal chromosome 22q11.2 microdeletion patient with Goldenhar syndrome. Patients with distal chromosome 22q11.2 copy number abnormalities exhibit inter- and intra-familial phenotypic variability, and challenge our ability to draw meaningful genotype-phenotype correlations., (Copyright © 2011 Wiley-Liss, Inc.)

Published
2011
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50. White matter changes in basis pontis in small expansion FMR1 allele carriers with parkinsonism.

Author

Loesch DZ, Kotschet K, Trost N, Greco CM, Kinsella G, Slater HR, Venn A, and Horne M

Subjects
Adolescent, Alleles, Case-Control Studies, Child, Child, Preschool, Female, Heterozygote, Humans, Magnetic Resonance Imaging, Male, Young Adult, Fragile X Mental Retardation Protein genetics, Nerve Fibers, Myelinated pathology, Parkinsonian Disorders genetics, Trinucleotide Repeat Expansion
Abstract

Examples of white matter hyperintensities (wmh) on magnetic resonance images in a basis pontis are presented in two male carriers, each of whom carry a small CGG expansion fragile X mental retardation (FMR1) allele. One carried a premutation (PM) allele of 85 CGG repeats and the other, a gray zone (GZ) allele of 47 repeats. Both were originally diagnosed with idiopathic Parkinson's disease (iPD). Similar changes are also shown in one PM carrier of 99 repeats affected with mild tremor and imbalance, who was ascertained through a fragile X syndrome family. These examples draw attention to the occurrence of wmh in a basis pontis in the carriers of small CGG expansions presenting with tremor and ataxia. Moreover, the presence of this change in GZ, as well as PM, allele carriers originally diagnosed with iPD supports our earlier suggestion that both these alleles may contribute to the neurodegenerative changes in this disorder which, in the examples presented, have been reflected by wmh, most prominent in the cerebellar peduncles and/or pontine area., (Copyright © 2011 Wiley-Liss, Inc.)

Published
2011
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