Christina G.S. Palmer

Clinical Exome Sequencing for Genetic Identification of Rare Mendelian Disorders

IMPORTANCE Clinical exome sequencing (CES) is rapidly becoming a common molecular diagnostic test for individuals with rare genetic disorders. OBJECTIVE To report on initial clinical indications for CES referrals and molecular diagnostic rates for different indications and for different test types. DESIGN, SETTING, AND PARTICIPANTS Clinical exome sequencing was performed on 814 consecutive patients with undiagnosed, suspected genetic conditions at the University of California, Los Angeles, Clinical Genomics Center between January 2012 and August 2014. Clinical exome sequencing was conducted as trio-CES (both parents and their affected child sequenced simultaneously) to effectively detect de novo and compound heterozygous variants or as proband-CES (only the affected individual sequenced) when parental samples were not available. MAIN OUTCOMES AND MEASURES Clinical indications for CES requests, molecular diagnostic rates of CES overall and for phenotypic subgroups, and differences in molecular diagnostic rates between trio-CES and proband-CES. RESULTS Of the 814 cases, the overall molecular diagnosis rate was 26% (213 of 814; 95% CI, 23%-29%). The molecular diagnosis rate for trio-CES was 31% (127 of 410 cases; 95% CI, 27%-36%) and 22% (74 of 338 cases; 95% CI, 18%-27%) for proband-CES. In cases of developmental delay in children (<5 years, n = 138), the molecular diagnosis rate was 41% (45 of 109; 95% CI, 32%-51%) for trio-CES cases and 9% (2 of 23, 95% CI, 1%-28%) for proband-CES cases. The significantly higher diagnostic yield (P value = .002; odds ratio, 7.4 [95% CI, 1.6-33.1]) of trio-CES was due to the identification of de novo and compound heterozygous variants. CONCLUSIONS AND RELEVANCE In this sample of patients with undiagnosed, suspected genetic conditions, trio-CES was associated with higher molecular diagnostic yield than proband-CES or traditional molecular diagnostic methods. Additional studies designed to validate these findings and to explore the effect of this approach on clinical and economic outcomes are warranted.

A Genomewide Scan for Loci Involved in Attention-Deficit/Hyperactivity Disorder

Attention deficit/hyperactivity disorder (ADHD) is a common heritable disorder with a childhood onset. Molecular genetic studies of ADHD have previously focused on examining the roles of specific candidate genes, primarily those involved in dopaminergic pathways. We have performed the first systematic genomewide linkage scan for loci influencing ADHD in 126 affected sib pairs, using a approximately 10-cM grid of microsatellite markers. Allele-sharing linkage methods enabled us to exclude any loci with a lambda(s) of > or =3 from 96% of the genome and those with a lambda(s) of > or =2.5 from 91%, indicating that there is unlikely to be a major gene involved in ADHD susceptibility in our sample. Under a strict diagnostic scheme we could exclude all screened regions of the X chromosome for a locus-specific lambda(s) of >/=2 in brother-brother pairs, demonstrating that the excess of affected males with ADHD is probably not attributable to a major X-linked effect. Qualitative trait maximum LOD score analyses pointed to a number of chromosomal sites that may contain genetic risk factors of moderate effect. None exceeded genomewide significance thresholds, but LOD scores were >1.5 for regions on 5p12, 10q26, 12q23, and 16p13. Quantitative-trait analysis of ADHD symptom counts implicated a region on 12p13 (maximum LOD 2.6) that also yielded a LOD >1 when qualitative methods were used. A survey of regions containing 36 genes that have been proposed as candidates for ADHD indicated that 29 of these genes, including DRD4 and DAT1, could be excluded for a lambda(s) of 2. Only three of the candidates-DRD5, 5HTT, and CALCYON-coincided with sites of positive linkage identified by our screen. Two of the regions highlighted in the present study, 2q24 and 16p13, coincided with the top linkage peaks reported by a recent genome-scan study of autistic sib pairs.

Evidence that the dopamine D4 receptor is a susceptibility gene in attention deficit hyperactivity disorder

Attention deficit hyperactivity disorder (ADHD) is a common neurobehavioral problem afflicting 5–10% of children and adolescents and persisting into adulthood in 30–50% or more of cases.1,2 Family, twin, and adoption studies suggest genetic factors contribute to ADHD and symptoms of inattention, impulsivity, and hyperactivity.3–5 Because stimulant intervention is effective in reducing ADHD symptoms in about 70–80% of cases, molecular genetic investigations of genes involved in dopamine regulation are currently underway by many groups.6–8 In a case control study of the dopamine D4 receptor gene (DRD4) and ADHD, La Hoste and colleagues9 found an increase of a 7-repeat variant of a 48-bp VNTR in exon 310 among ADHD subjects compared to controls. Swanson and colleagues11 replicated this finding in a sample of 52 ADHD probands and their biological parents using a haplotype relative risk analysis. Here, we describe linkage investigations of the VNTR and ADHD in affected sibling pair (ASP) families and singleton families using both the transmission disequilibrium test (TDT)12 and a mean test of identity-by-descent (IBD) sharing. Using the TDT in the total sample, the 7 allele is differentially transmitted to ADHD children (P = 0.03) while the mean test revealed no evidence of increased IBD sharing among ASPs. In the current sample, the 7 allele attributes a 1.5-fold risk for developing ADHD over non-carriers of the allele estimated under a model described by Risch and Merikangas.13

Asymptomatic deer excrete infectious prions in faeces.

Infectious prion diseases—scrapie of sheep and chronic wasting disease (CWD) of several species in the deer family—are transmitted naturally within affected host populations. Although several possible sources of contagion have been identified in excretions and secretions from symptomatic animals, the biological importance of these sources in sustaining epidemics remains unclear. Here we show that asymptomatic CWD-infected mule deer (Odocoileus hemionus) excrete CWD prions in their faeces long before they develop clinical signs of prion disease. Intracerebral inoculation of irradiated deer faeces into transgenic mice overexpressing cervid prion protein (PrP) revealed infectivity in 14 of 15 faecal samples collected from five deer at 7–11 months before the onset of neurological disease. Although prion concentrations in deer faeces were considerably lower than in brain tissue from the same deer collected at the end of the disease, the estimated total infectious dose excreted in faeces by an infected deer over the disease course may approximate the total contained in a brain. Prolonged faecal prion excretion by infected deer provides a plausible natural mechanism that might explain the high incidence and efficient horizontal transmission of CWD within deer herds, as well as prion transmission among other susceptible cervids.

Colon Cancer Screening Practices After Genetic Counseling and Testing for Hereditary Nonpolyposis Colorectal Cancer

PURPOSE Hereditary nonpolyposis colorectal cancer (HNPCC) is the most common hereditary form of colon cancer. Cancer screening recommendations differ between individuals identified to carry an HNPCC mutation and those who do not carry a known family mutation. We assessed the impact of genetic counseling and testing (GCT) on the use of endoscopic screening procedures and adherence to recommended endoscopic screening guidelines in 56 asymptomatic at-risk individuals from families known to carry an HNPCC mutation. PATIENTS AND METHODS We analyzed data on colonoscopy and flexible sigmoidoscopy screenings collected before GCT and 6 months and 12 months post-GCT on 17 mutation-positive and 39 true mutation-negative individuals. Main outcome measures were use of endoscopic screening and adherence to recommended guidelines for the relevant mutation status. Mutation status, age, sex, employment, and income were analyzed as predictor variables. RESULTS Among mutation-negative individuals, use of colonoscopy and flexible sigmoidoscopy decreased significantly between pre- and post-GCT (P <.00001 and P <.0003, respectively). Among mutation-positive individuals, a nonsignificant increase (P =.24) in use was noted. Age was also associated with use of endoscopic screening after GCT (P =.03). Mutation status (odds ratio [OR], 7.5; P =.02) and employment (OR, 8.6; P =.025) were associated with nonadherence to endoscopic screening guidelines. More mutation-negative individuals strictly adhered to guidelines than did mutation-positive individuals (87% v 65%). CONCLUSION Genetic counseling and testing for HNPCC significantly influences the use of colonic endoscopy and adherence to recommendations for colon cancer screening.

Genetic linkage and association between chromosome 1q and working memory function in schizophrenia

Schizophrenia is substantially heritable, but specific susceptibility genes remain to be identified. Progress in this endeavor has been hindered by non‐Mendelian transmission patterns, probable genetic heterogeneity, and an inability to detect premorbid and nonpenetrant carriers of predisposing genes. To circumvent these complexities, this study employed quantitative measures of liability, or “endophenotypes,” within a sample of twins discordant for schizophrenia, drawn from the relatively genetically isolated population of Finland. A region on the distal portion of chromosome 1 has shown evidence for linkage to schizophrenia in two prior studies using Finnish patient samples. To elucidate further the nature and location of this potential susceptibility gene, linkage and association analyses were carried out across the chromosome 1 region of interest using quantitative neuropsychological measures of liability. Analyses with a composite measure of liability yielded suggestive evidence for linkage at marker D1S2833 (P = 0.04). Follow‐up analyses of the individual trait measures showed that the Visual Span subtest of the Wechsler Memory Scale (WMS), an indicator of spatial working memory function, was uniquely sensitive to marker D1S2833 (P = 0.007). Association analysis confirmed that allelic variation in D1S2833 is associated with variation in spatial working memory performance as measured by the Visual Span subtest (P = 0.003), the significance of which was confirmed in an analysis of 10,000 Monte Carlo permutations. These data support the utility of this approach and provide evidence for a gene affecting spatial working memory function in schizophrenia patients and their unaffected co‐twins.

American College of Medical Genetics and Genomics guideline for the clinical evaluation and etiologic diagnosis of hearing loss

Hearing loss is a common and complex condition that can occur at any age, can be inherited or acquired, and is associated with a remarkably wide array of etiologies. The diverse causes of hearing loss, combined with the highly variable and often overlapping presentations of different forms of hearing loss, challenge the ability of traditional clinical evaluations to arrive at an etiologic diagnosis for many deaf and hard-of-hearing individuals. However, identifying the etiology of a hearing loss may affect clinical management, improve prognostic accuracy, and refine genetic counseling and assessment of the likelihood of recurrence for relatives of deaf and hard-of-hearing individuals. Linguistic and cultural identities associated with being deaf or hard of hearing can complicate access to and the effectiveness of clinical care. These concerns can be minimized when genetic and other health-care services are provided in a linguistically and culturally sensitive manner. This guideline offers information about the frequency, causes, and presentations of hearing loss and suggests approaches to the clinical evaluation of deaf and hard-of-hearing individuals aimed at identifying an etiologic diagnosis and providing informative and effective patient education and genetic counseling.Genet Med 2014:16(4):347–355.

RHD Maternal-Fetal Genotype Incompatibility Increases Schizophrenia Susceptibility

Fetal events and obstetric complications are associated with schizophrenia. Here we report the results of a family-based candidate-gene study that assesses the role of maternal-fetal genotype incompatibility at the RHD locus in schizophrenia. We adapted the case-parent-trio log-linear modeling approach to test for RHD maternal-fetal genotype incompatibility and to distinguish this effect from a high-risk allele at or near the RHD locus and from a direct maternal effect alone. Eighty-eight patient-parent trios, 72 patient-mother pairs, and 21 patient-father pairs were genotyped at the RHD locus. Of the 181 patients, 62% were male and 81% were second born or later. Only three patients were born after prophylaxis against maternal isoimmunization had become common practice. There was significant evidence for an RHD maternal-fetal genotype incompatibility, and the incompatibility parameter was estimated at 2.6. There was no evidence to support linkage/association with schizophrenia at or near the RHD locus nor any evidence to support the role of maternal genotype effect alone. Our results replicate previous findings that implicate the RHD locus in schizophrenia, and the candidate-gene design of this study allows the elimination of alternative explanations for the role of this locus in disease. Thus, the present study provides increasing evidence that the RHD locus increases schizophrenia risk through a maternal-fetal genotype incompatibility mechanism that increases risk of an adverse prenatal environment (e.g., Rh incompatibility) rather than through linkage/association with the disorder, linkage disequilibrium with an unknown nearby susceptibility locus, or a direct maternal effect alone. This is the first candidate-gene study to explicitly test for and provide evidence of a maternal-fetal genotype incompatibility mechanism in schizophrenia.

Attitudes of the broader hearing, deaf, and hard-of-hearing community toward genetic testing for deafness

Purpose: To assess attitudes in a nonmedically and nonculturally influenced setting of reproductive-age adults toward genetic testing for deafness in newborns. Methods: Hearing, deaf, and hard-of-hearing individuals at a university completed questionnaires assessing attitudes toward genetic testing. Results: Eighty-five percent of hearing (n = 133) and 62% of deaf/hard-of-hearing (n = 89) individuals would allow genetic testing for deafness in their own newborn. Conclusions: These results indicate an acceptance of newborn genetic testing for deafness by individuals in the broader community, regardless of hearing status.

HLA-B Maternal-Fetal Genotype Matching Increases Risk of Schizophrenia

Schizophrenia and human leukocyte antigen (HLA) matching between couples or between mothers and offspring have independently been associated with prenatal/obstetric complications, including preeclampsia and low birth weight. Here, we report the results of a family-based candidate-gene study that brings together these two disparate lines of research by assessing maternal-fetal genotype matching at HLA-A, -B, and -DRB1 as a risk factor of schizophrenia. We used a conditional-likelihood modeling approach with a sample of 274 families that had at least one offspring with schizophrenia or a related spectrum disorder. A statistically significant HLA-B maternal-fetal genotype-matching effect on schizophrenia was demonstrated for female offspring (P=.01; parameter estimate 1.7 [95% confidence interval 1.22-2.49]). Because the matching effect could be associated with pregnancy complications rather than with schizophrenia per se, these findings are consistent with the neurodevelopmental hypothesis of schizophrenia and with accumulating evidence that the prenatal period is involved in the origins of this disease. Our approach demonstrates how genetic markers can be used to characterize the biology of prenatal risk factors of schizophrenia.