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1.
Am J Hum Genet ; 110(8): 1229-1248, 2023 08 03.
Artigo em Inglês | MEDLINE | ID: mdl-37541186

RESUMO

Despite advances in clinical genetic testing, including the introduction of exome sequencing (ES), more than 50% of individuals with a suspected Mendelian condition lack a precise molecular diagnosis. Clinical evaluation is increasingly undertaken by specialists outside of clinical genetics, often occurring in a tiered fashion and typically ending after ES. The current diagnostic rate reflects multiple factors, including technical limitations, incomplete understanding of variant pathogenicity, missing genotype-phenotype associations, complex gene-environment interactions, and reporting differences between clinical labs. Maintaining a clear understanding of the rapidly evolving landscape of diagnostic tests beyond ES, and their limitations, presents a challenge for non-genetics professionals. Newer tests, such as short-read genome or RNA sequencing, can be challenging to order, and emerging technologies, such as optical genome mapping and long-read DNA sequencing, are not available clinically. Furthermore, there is no clear guidance on the next best steps after inconclusive evaluation. Here, we review why a clinical genetic evaluation may be negative, discuss questions to be asked in this setting, and provide a framework for further investigation, including the advantages and disadvantages of new approaches that are nascent in the clinical sphere. We present a guide for the next best steps after inconclusive molecular testing based upon phenotype and prior evaluation, including when to consider referral to research consortia focused on elucidating the underlying cause of rare unsolved genetic disorders.


Assuntos
Exoma , Testes Genéticos , Humanos , Exoma/genética , Análise de Sequência de DNA , Fenótipo , Sequenciamento do Exoma , Doenças Raras
2.
Genet Med ; 26(9): 101166, 2024 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-38767059

RESUMO

PURPOSE: The function of FAM177A1 and its relationship to human disease is largely unknown. Recent studies have demonstrated FAM177A1 to be a critical immune-associated gene. One previous case study has linked FAM177A1 to a neurodevelopmental disorder in 4 siblings. METHODS: We identified 5 individuals from 3 unrelated families with biallelic variants in FAM177A1. The physiological function of FAM177A1 was studied in a zebrafish model organism and human cell lines with loss-of-function variants similar to the affected cohort. RESULTS: These individuals share a characteristic phenotype defined by macrocephaly, global developmental delay, intellectual disability, seizures, behavioral abnormalities, hypotonia, and gait disturbance. We show that FAM177A1 localizes to the Golgi complex in mammalian and zebrafish cells. Intersection of the RNA sequencing and metabolomic data sets from FAM177A1-deficient human fibroblasts and whole zebrafish larvae demonstrated dysregulation of pathways associated with apoptosis, inflammation, and negative regulation of cell proliferation. CONCLUSION: Our data shed light on the emerging function of FAM177A1 and defines FAM177A1-related neurodevelopmental disorder as a new clinical entity.


Assuntos
Complexo de Golgi , Mutação com Perda de Função , Transtornos do Neurodesenvolvimento , Peixe-Zebra , Humanos , Peixe-Zebra/genética , Animais , Transtornos do Neurodesenvolvimento/genética , Transtornos do Neurodesenvolvimento/patologia , Transtornos do Neurodesenvolvimento/metabolismo , Complexo de Golgi/metabolismo , Complexo de Golgi/genética , Masculino , Feminino , Criança , Fenótipo , Pré-Escolar , Deficiência Intelectual/genética , Deficiência Intelectual/patologia , Deficiência Intelectual/metabolismo , Linhagem , Proteínas de Membrana/genética , Proteínas de Membrana/metabolismo
3.
Am J Hum Genet ; 106(4): 570-583, 2020 04 02.
Artigo em Inglês | MEDLINE | ID: mdl-32197074

RESUMO

EIF2AK1 and EIF2AK2 encode members of the eukaryotic translation initiation factor 2 alpha kinase (EIF2AK) family that inhibits protein synthesis in response to physiologic stress conditions. EIF2AK2 is also involved in innate immune response and the regulation of signal transduction, apoptosis, cell proliferation, and differentiation. Despite these findings, human disorders associated with deleterious variants in EIF2AK1 and EIF2AK2 have not been reported. Here, we describe the identification of nine unrelated individuals with heterozygous de novo missense variants in EIF2AK1 (1/9) or EIF2AK2 (8/9). Features seen in these nine individuals include white matter alterations (9/9), developmental delay (9/9), impaired language (9/9), cognitive impairment (8/9), ataxia (6/9), dysarthria in probands with verbal ability (6/9), hypotonia (7/9), hypertonia (6/9), and involuntary movements (3/9). Individuals with EIF2AK2 variants also exhibit neurological regression in the setting of febrile illness or infection. We use mammalian cell lines and proband-derived fibroblasts to further confirm the pathogenicity of variants in these genes and found reduced kinase activity. EIF2AKs phosphorylate eukaryotic translation initiation factor 2 subunit 1 (EIF2S1, also known as EIF2α), which then inhibits EIF2B activity. Deleterious variants in genes encoding EIF2B proteins cause childhood ataxia with central nervous system hypomyelination/vanishing white matter (CACH/VWM), a leukodystrophy characterized by neurologic regression in the setting of febrile illness and other stressors. Our findings indicate that EIF2AK2 missense variants cause a neurodevelopmental syndrome that may share phenotypic and pathogenic mechanisms with CACH/VWM.


Assuntos
Deficiências do Desenvolvimento/genética , Variação Genética/genética , Leucoencefalopatias/genética , Malformações do Sistema Nervoso/genética , eIF-2 Quinase/genética , Adolescente , Ataxia/genética , Criança , Pré-Escolar , Feminino , Doenças Desmielinizantes Hereditárias do Sistema Nervoso Central/genética , Humanos , Lactente , Masculino , Substância Branca/patologia
4.
Genet Med ; 23(10): 1961-1968, 2021 10.
Artigo em Inglês | MEDLINE | ID: mdl-34120153

RESUMO

PURPOSE: The genetic architecture of Plakophilin 2 (PKP2) cardiomyopathy can inform our understanding of its variant pathogenicity and protein function. METHODS: We assess the gene-wide and regional association of truncating and missense variants in PKP2 with arrhythmogenic cardiomyopathy (ACM), and arrhythmogenic right ventricular cardiomyopathy (ARVC) specifically. A discovery data set compares genetic testing requisitions to gnomAD. Validation is performed in a rigorously phenotyped definite ARVC cohort and non-ACM individuals in the Geisinger MyCode cohort. RESULTS: The etiologic fraction (EF) of ACM-related diagnoses from truncating variants in PKP2 is significant (0.85 [0.80,0.88], p < 2 × 10-16), increases for ARVC specifically (EF = 0.96 [0.94,0.97], p < 2 × 10-16), and is highest in definite ARVC versus non-ACM individuals (EF = 1.00 [1.00,1.00], p < 2 × 10-16). Regions of missense variation enriched for ACM probands include known functional domains and the C-terminus, which was not previously known to contain a functional domain. No regional enrichment was identified for truncating variants. CONCLUSION: This multicohort evaluation of the genetic architecture of PKP2 demonstrates the specificity of PKP2 truncating variants for ARVC within the ACM disease spectrum. We identify the PKP2 C-terminus as a potential functional domain and find that truncating variants likely cause disease irrespective of transcript position.


Assuntos
Displasia Arritmogênica Ventricular Direita , Cardiomiopatias , Placofilinas , Displasia Arritmogênica Ventricular Direita/genética , Testes Genéticos , Humanos , Fenótipo , Placofilinas/genética
5.
J Genet Couns ; 30(6): 1707-1718, 2021 12.
Artigo em Inglês | MEDLINE | ID: mdl-34096130

RESUMO

Parents of children with undiagnosed conditions struggle to obtain information about how to treat and support their children. It can be particularly challenging to find communities and other parents who share their experiences and can provide emotional and informational support. This study sought to characterize how parents use social media, both throughout the diagnostic odyssey and post-diagnosis, to meet their informational, social, and emotional support needs. We conducted qualitative semi-structured interviews with 14 parents from the Stanford site of the Undiagnosed Diseases Network (UDN), including five whose children had received a diagnosis through study participation. Interview recordings were analyzed using inductive, team-based coding and thematic analysis based in grounded theory using Dedoose qualitative analysis software. Through this process, we identified four key themes related to social media use. First, parents struggled to find the "right" community, often seeking out groups of similar patients based on symptoms or similar conditions. Second, though they found much valuable information through social media about caring for their child, they also struggled to interpret the relevance of the information to their own child's condition. Third, the social support and access to other patients' and families' lived experiences were described as both highly valued and emotionally challenging, particularly in the case of poor outcomes for similar families. Finally, parents expressed the need to balance concerns about their child's privacy with the value of transparency and data sharing for diagnosis. Our results suggest that the needs and experiences of undiagnosed patients and families differ from those with diagnosed diseases and highlight the need for support in best utilizing social media resources at different stages of the diagnostic odyssey.


Assuntos
Mídias Sociais , Criança , Família , Humanos , Pais/psicologia , Pesquisa Qualitativa , Análise de Sequência , Apoio Social
6.
J Genet Couns ; 28(2): 466-476, 2019 04.
Artigo em Inglês | MEDLINE | ID: mdl-30706981

RESUMO

With the wide adoption of next-generation sequencing (NGS)-based genetic tests, genetic counselors require increased familiarity with NGS technology, variant interpretation concepts, and variant assessment tools. The use of exome and genome sequencing in clinical care has expanded the reach and diversity of genetic testing. Regardless of the setting where genetic counselors are performing variant interpretation or reporting, most of them have learned these skills from colleagues, while on the job. Though traditional, lecture-based learning around these topics is important, there has been growing need for the inclusion of case-based, experiential training of genomics and variant interpretation for genetic counseling students, with the goal of creating a strong foundation in variant interpretation for new genetic counselors, regardless of what area of practice they enter. To address this need, we established a genomics and variant interpretation rotation for Stanford's genetic counseling training program. In response to changes in the genomics landscape, this has now evolved into three unique rotation experiences, each focused on variant interpretation in the context of various genomic settings, including clinical laboratory, research laboratory, and healthy genomic analysis studies. Here, we describe the goals and learning objectives that we have developed for these variant interpretation rotations, and illustrate how these concepts are applied in practice.


Assuntos
Conselheiros/educação , Currículo , Aconselhamento Genético , Testes Genéticos , Genômica/educação , Adulto , Humanos , Desenvolvimento de Programas , Universidades
7.
J Genet Couns ; 28(2): 213-228, 2019 04.
Artigo em Inglês | MEDLINE | ID: mdl-30964584

RESUMO

There are approximately 7,000 rare diseases affecting 25-30 million Americans, with 80% estimated to have a genetic basis. This presents a challenge for genetics practitioners to determine appropriate testing, make accurate diagnoses, and conduct up-to-date patient management. Exome sequencing (ES) is a comprehensive diagnostic approach, but only 25%-41% of the patients receive a molecular diagnosis. The remaining three-fifths to three-quarters of patients undergoing ES remain undiagnosed. The Stanford Center for Undiagnosed Diseases (CUD), a clinical site of the Undiagnosed Diseases Network, evaluates patients with undiagnosed and rare diseases using a combination of methods including ES. Frequently these patients have non-diagnostic ES results, but strategic follow-up techniques identify diagnoses in a subset. We present techniques used at the CUD that can be adopted by genetics providers in clinical follow-up of cases where ES is non-diagnostic. Solved case examples illustrate different types of non-diagnostic results and the additional techniques that led to a diagnosis. Frequent approaches include segregation analysis, data reanalysis, genome sequencing, additional variant identification, careful phenotype-disease correlation, confirmatory testing, and case matching. We also discuss prioritization of cases for additional analyses.


Assuntos
Sequenciamento do Exoma , Doenças Raras/diagnóstico , Doenças não Diagnosticadas/genética , Exoma , Feminino , Seguimentos , Humanos , Masculino , Fenótipo , Doenças Raras/genética , Análise de Sequência de DNA
8.
J Genet Couns ; 28(6): 1107-1118, 2019 12.
Artigo em Inglês | MEDLINE | ID: mdl-31478310

RESUMO

BACKGROUND: Despite growing evidence of diagnostic yield and clinical utility of whole exome sequencing (WES) in patients with undiagnosed diseases, there remain significant cost and reimbursement barriers limiting access to such testing. The diagnostic yield and resulting clinical actions of WES for patients who previously faced insurance coverage barriers have not yet been explored. METHODS: We performed a retrospective descriptive analysis of clinical WES outcomes for patients facing insurance coverage barriers prior to clinical WES and who subsequently enrolled in the Undiagnosed Diseases Network (UDN). Clinical WES was completed as a result of participation in the UDN. Payer type, molecular diagnostic yield, and resulting clinical actions were evaluated. RESULTS: Sixty-six patients in the UDN faced insurance coverage barriers to WES at the time of enrollment (67% public payer, 26% private payer). Forty-two of 66 (64%) received insurance denial for clinician-ordered WES, 19/66 (29%) had health insurance through a payer known not to cover WES, and 5/66 (8%) had previous payer denial of other genetic tests. Clinical WES results yielded a molecular diagnosis in 23 of 66 patients (35% [78% pediatric, 65% neurologic indication]). Molecular diagnosis resulted in clinical actions in 14 of 23 patients (61%). CONCLUSIONS: These data demonstrate that a substantial proportion of patients who encountered insurance coverage barriers to WES had a clinically actionable molecular diagnosis, supporting the notion that WES has value as a covered benefit for patients who remain undiagnosed despite objective clinical findings.


Assuntos
Sequenciamento do Exoma , Cobertura do Seguro , Doenças não Diagnosticadas/genética , Criança , Pré-Escolar , Feminino , Testes Genéticos/métodos , Humanos , Masculino , Estudos Retrospectivos , Estados Unidos
11.
Circ Genom Precis Med ; 17(2): e004370, 2024 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-38506054

RESUMO

BACKGROUND: To realize the potential of genome engineering therapeutics, tractable strategies must be identified that balance personalized therapy with the need for off-the-shelf availability. We hypothesized that regional clustering of pathogenic variants can inform the design of rational prime editing therapeutics to treat the majority of genetic cardiovascular diseases with a limited number of reagents. METHODS: We collated 2435 high-confidence pathogenic/likely pathogenic (P/LP) variants in 82 cardiovascular disease genes from ClinVar. We assessed the regional density of these variants by defining a regional clustering index. We then combined a highly active base editor with prime editing to demonstrate the feasibility of a P/LP hotspot-directed genome engineering therapeutic strategy in vitro. RESULTS: P/LP variants in cardiovascular disease genes display higher regional density than rare variants found in the general population. P/LP missense variants displayed higher average regional density than P/LP truncating variants. Following hypermutagenesis at a pathogenic hotspot, mean prime editing efficiency across introduced variants was 57±27%. CONCLUSIONS: Designing therapeutics that target pathogenic hotspots will not only address known missense P/LP variants but also novel P/LP variants identified in these hotspots as well. Moreover, the clustering of P/LP missense rather than truncating variants in these hotspots suggests that prime editing technology is particularly valuable for dominant negative disease. Although prime editing technology in relation to cardiac health continues to improve, this study presents an approach to targeting the most impactful regions of the genome for inherited cardiovascular disease.


Assuntos
Doenças Cardiovasculares , Edição de Genes , Humanos , Doenças Cardiovasculares/genética , Doenças Cardiovasculares/terapia , Mutação de Sentido Incorreto
12.
medRxiv ; 2024 Mar 26.
Artigo em Inglês | MEDLINE | ID: mdl-38585781

RESUMO

Rare structural variants (SVs) - insertions, deletions, and complex rearrangements - can cause Mendelian disease, yet they remain difficult to accurately detect and interpret. We sequenced and analyzed Oxford Nanopore long-read genomes of 68 individuals from the Undiagnosed Disease Network (UDN) with no previously identified diagnostic mutations from short-read sequencing. Using our optimized SV detection pipelines and 571 control long-read genomes, we detected 716 long-read rare (MAF < 0.01) SV alleles per genome on average, achieving a 2.4x increase from short-reads. To characterize the functional effects of rare SVs, we assessed their relationship with gene expression from blood or fibroblasts from the same individuals, and found that rare SVs overlapping enhancers were enriched (LOR = 0.46) near expression outliers. We also evaluated tandem repeat expansions (TREs) and found 14 rare TREs per genome; notably these TREs were also enriched near overexpression outliers. To prioritize candidate functional SVs, we developed Watershed-SV, a probabilistic model that integrates expression data with SV-specific genomic annotations, which significantly outperforms baseline models that don't incorporate expression data. Watershed-SV identified a median of eight high-confidence functional SVs per UDN genome. Notably, this included compound heterozygous deletions in FAM177A1 shared by two siblings, which were likely causal for a rare neurodevelopmental disorder. Our observations demonstrate the promise of integrating long-read sequencing with gene expression towards improving the prioritization of functional SVs and TREs in rare disease patients.

14.
Transl Behav Med ; 13(2): 104-114, 2023 02 28.
Artigo em Inglês | MEDLINE | ID: mdl-36327324

RESUMO

The availability of raw DNA and genetic interpretation tools allow individuals to access genetic health risk information, where analytical false-positives exist. Little is known about the experience of individuals who receive pathogenic or likely pathogenic variant(s) through raw DNA interpretation and follow-up with clinical confirmatory genetic testing. This qualitative study set out to describe the experiences of individuals who pursued clinical confirmatory genetic testing, including their perception of the process. Participants were recruited from social media and eligible if they discovered a potential pathogenic or likely pathogenic variant in a raw DNA interpretation report, completed clinical confirmatory genetic testing in the U.S., and provided documentation of those results. Individuals participated in semi-structured interviews, which were transcribed and inductively coded to identify themes. Of the 12 participants, 3 received clinical genetic testing results that confirmed pathogenic or likely pathogenic variants noted in raw DNA interpretation reports (confirmation positive), and 9 were not confirmed. Nearly all (n = 11) participants described emotional distress and information-seeking behavior as a coping mechanism after discovering a pathogenic or likely pathogenic variant in raw DNA interpretation. When pursuing confirmatory genetic testing, many (n = 9) faced challenges with finding knowledgeable healthcare providers and obtaining insurance coverage. Despite reporting concerns over raw DNA interpretation and a desire for more safeguards, almost all (n = 10) participants stated interest in using the service again. Overall, participants' experiences reveal they find personal utility in raw DNA interpretation results and provide insight into opportunities for patient and provider education.


The availability of raw DNA data and online genetic interpretation tools allow individuals to access genetic health risk information, where false-positive results exist. Little is known about the experience of individuals who discover disease-causing variant(s) through raw DNA interpretation and follow-up with medical-grade confirmatory genetic testing. This qualitative study describes the experiences of individuals who pursued medical-grade confirmatory genetic testing in the U.S. after they discovered a potential disease-causing variant in a raw DNA interpretation report. Individuals participated in semi-structured interviews, which were transcribed and inductively coded to identify themes. Of the 12 participants, 3 received medical-grade genetic testing results that confirmed disease-causing variants noted in raw DNA interpretation reports, and 9 were not confirmed. Nearly all participants described emotional distress and information-seeking behavior after discovering a disease-causing variant in raw DNA interpretation. When pursuing confirmatory genetic testing, many faced challenges with finding knowledgeable healthcare providers and obtaining insurance coverage. Despite reporting concerns over raw DNA interpretation and a desire for more safeguards, almost all participants stated interest in using the service again. Overall, participants' experiences reveal they find personal utility in raw DNA interpretation results and provide insight into opportunities for patient and provider education.


Assuntos
Triagem e Testes Direto ao Consumidor , Mídias Sociais , Humanos , Testes Genéticos/métodos , DNA , Avaliação de Resultados da Assistência ao Paciente
15.
ArXiv ; 2023 Jan 18.
Artigo em Inglês | MEDLINE | ID: mdl-36713248

RESUMO

Despite advances in clinical genetic testing, including the introduction of exome sequencing (ES), more than 50% of individuals with a suspected Mendelian condition lack a precise molecular diagnosis. Clinical evaluation is increasingly undertaken by specialists outside of clinical genetics, often occurring in a tiered fashion and typically ending after ES. The current diagnostic rate reflects multiple factors, including technical limitations, incomplete understanding of variant pathogenicity, missing genotype-phenotype associations, complex gene-environment interactions, and reporting differences between clinical labs. Maintaining a clear understanding of the rapidly evolving landscape of diagnostic tests beyond ES, and their limitations, presents a challenge for non-genetics professionals. Newer tests, such as short-read genome or RNA sequencing, can be challenging to order and emerging technologies, such as optical genome mapping and long-read DNA or RNA sequencing, are not available clinically. Furthermore, there is no clear guidance on the next best steps after inconclusive evaluation. Here, we review why a clinical genetic evaluation may be negative, discuss questions to be asked in this setting, and provide a framework for further investigation, including the advantages and disadvantages of new approaches that are nascent in the clinical sphere. We present a guide for the next best steps after inconclusive molecular testing based upon phenotype and prior evaluation, including when to consider referral to a consortium such as GREGoR, which is focused on elucidating the underlying cause of rare unsolved genetic disorders.

16.
Nat Med ; 25(6): 911-919, 2019 06.
Artigo em Inglês | MEDLINE | ID: mdl-31160820

RESUMO

It is estimated that 350 million individuals worldwide suffer from rare diseases, which are predominantly caused by mutation in a single gene1. The current molecular diagnostic rate is estimated at 50%, with whole-exome sequencing (WES) among the most successful approaches2-5. For patients in whom WES is uninformative, RNA sequencing (RNA-seq) has shown diagnostic utility in specific tissues and diseases6-8. This includes muscle biopsies from patients with undiagnosed rare muscle disorders6,9, and cultured fibroblasts from patients with mitochondrial disorders7. However, for many individuals, biopsies are not performed for clinical care, and tissues are difficult to access. We sought to assess the utility of RNA-seq from blood as a diagnostic tool for rare diseases of different pathophysiologies. We generated whole-blood RNA-seq from 94 individuals with undiagnosed rare diseases spanning 16 diverse disease categories. We developed a robust approach to compare data from these individuals with large sets of RNA-seq data for controls (n = 1,594 unrelated controls and n = 49 family members) and demonstrated the impacts of expression, splicing, gene and variant filtering strategies on disease gene identification. Across our cohort, we observed that RNA-seq yields a 7.5% diagnostic rate, and an additional 16.7% with improved candidate gene resolution.


Assuntos
Doenças Raras/genética , Ceramidase Ácida/genética , Estudos de Casos e Controles , Criança , Pré-Escolar , Estudos de Coortes , Feminino , Variação Genética , Humanos , Masculino , Modelos Genéticos , Mutação , Oxirredutases atuantes sobre Doadores de Grupo CH-CH/genética , Canais de Potássio/genética , RNA/sangue , RNA/genética , Splicing de RNA/genética , Doenças Raras/sangue , Análise de Sequência de RNA , Sequenciamento do Exoma
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