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Cardiac genetic test yields and genotype-phenotype correlations from large cohort investigated by medical examiner's office
Saxton, Sarah; Kontorovich, Amy R; Wang, Dawei; Zhou, Bo; Um, Sung Yon; Lin, Ying; Rojas, Lisa; Tyll, Erin; Dickinson, Gregory; Stram, Michelle; Harris, Cynthia K; Gelb, Bruce D; Sampson, Barbara A; Graham, Jason K; Tang, Yingying
BACKGROUND:Few reports describe the yield of postmortem genetic testing from medical examiners' offices or correlate genetic test results with autopsy-confirmed phenotypes from a large cohort. OBJECTIVES/OBJECTIVE:To report results from cardiomyopathy- and cardiac arrhythmia-associated genetic testing in conjunction with autopsy findings of cases investigated at the United States' largest medical examiner office. METHODS:Postmortem cases tested from 2015 to 2022 with a cardiomyopathy- and cardiac arrhythmia-associated gene panel were reviewed. American College of Medical Genetics and Genomics/Association for Molecular Pathology guidelines were used to classify variant pathogenicity. Correlations of pathogenic/likely pathogenic variants (P/LPVs) with cardiac pathology were evaluated. RESULTS:The cohort included 1107 decedents of diverse ages and ethnicities. P/LPVs were detected in 87 (7.9%) cases, with 73 and 14 variants in cardiomyopathy and cardiac arrhythmia genes, respectively. Variants of uncertain significance were detected in 437 (39.5%) cases. The diagnostic yield (percentage of P/LPV) in decedents with cardiomyopathy (26.1%) was significantly higher than those without (P<.0001). The diagnostic yield was significantly lower in infants (0.7%) than older age groups (ranging from 1 to 74 years old, 5.7%-25.9%), which had no statistical difference between their yields. The diagnostic yields by cardiac autopsy findings were 54.0% for hypertrophic cardiomyopathy, 47.1% for arrhythmogenic cardiomyopathy, 20.0% for myocardial fibrosis, 19.0% for dilated cardiomyopathy, and 11.3% for myocarditis. Most P/LPVs were in MYBPC3, TTN, PKP2, SCN5A, MYH7, and FLNC. Ten P/LPVs were novel. CONCLUSIONS:Our results support the importance of performing postmortem genetic testing on decedents of all ages with cardiomyopathy, cardiac lesions insufficient to diagnosis a specific cardiomyopathy (e.g., myocardial fibrosis), and myocarditis. Combined postmortem cardiac examination and genetic analysis are advantageous in accurately determining the underlying cause of death and informing effective clinical care of family members.
PMID: 38777137
ISSN: 1879-1336
CID: 5673482
Molecular genetic characterization of sudden deaths due to thoracic aortic dissection or rupture
Saxton, Sarah; Dickinson, Gregory; Wang, Dawei; Zhou, Bo; Um, Sung Yon; Lin, Ying; Rojas, Lisa; Sampson, Barbara A; Graham, Jason K; Tang, Yingying
BACKGROUND:Sudden deaths due to thoracic aortic dissection or rupture (TADR) are often investigated by forensic pathologists in the United States. Up to a quarter of reported TADR result from a highly penetrant autosomal dominant single gene variant. Testing genes associated with familial TADR provides an underlying etiology for the cause of death and informs effective sudden death prevention for at-risk family members. At the New York City Office of Chief Medical Examiner (NYC-OCME), TADR cases are routinely tested by the in-house, CAP-accredited Molecular Genetics Laboratory. In this retrospective study, TADR and cardiovascular cases were reviewed to understand the burden of TADR in sudden deaths, value of molecular diagnostic testing in TADR, and genotype-phenotype correlations in a demographically diverse TADR cohort. METHODS:Between July 2019 and June 2022, cases with in-house cardiovascular genetic testing at NYC-OCME were retrospectively reviewed. Twenty genes associated with familial TADR were analyzed using high throughput massive parallel sequencing on postmortem tissues or bloodspot cards. Variant interpretation was conducted according to ACMG/AMP guidelines. RESULTS:A total of 1078 cases were tested for cardiovascular genetic conditions, of which 34 (3%) had TADR. Eight of those TADR cases had a pathogenic or likely pathogenic variant (P/LPV), 4 had a variant of uncertain significance (VUS), and 22 cases were negative for variants in TADR genes. The molecular diagnostic yield using the TADR subpanel was 23.5%. The genes with the greatest prevalence of P/LPV were FBN1 (6), followed by TGFBR2 (2), TGFBR1 (1), and MYLK (1). Highly penetrant P/LPV in TGFBR2, FBN1, and TGFBR1 were found in TADR individuals who died younger than 34 years old. Two P/LPV in FBN1 were secondary findings unrelated to cause of death. P/LPV in FBN1 included five truncating variants located in the N-terminal domains and one missense variant involved in the disulfide bonds of the EGF-like domain. All P/LPV in TGFBR1 and TGFBR2 were missense or in-frame deletion variants located in the protein kinase catalytic domain. Three variants were first reported in this study. CONCLUSIONS:Molecular testing of familial TADR-associated genes is a highly effective tool to identify the genetic cause of TADR sudden deaths and benefits surviving at-risk families.
PMID: 37116669
ISSN: 1879-1336
CID: 5673472
Using postmortem formalin fixed paraffin-embedded tissues for molecular testing of sudden cardiac death: A cautionary tale of utility and limitations
Lin, Ying; Gryazeva, Tatyana; Wang, Dawei; Zhou, Bo; Um, Sung Yon; Eng, Lucy S; Ruiter, Kevin; Rojas, Lisa; Williams, Nori; Sampson, Barbara A; Tang, Yingying
For archived cases of previously young healthy individuals where cause of sudden death remains undetermined, formalin fixed paraffin-embedded tissues (FFPE) samples are often the only biological resource available for molecular testing. We aim to ascertain the validity of postmortem molecular analysis of 95 cardiac genes using the FFPE samples routinely processed in the offices of medical examiners - typical fixation time in formalin ranges from days to months. The study was conducted in the College of American Pathologists accredited Molecular Genetics Laboratory within the City of New York Office of Chief Medical Examiner. Twelve cases, with FFPE samples and corresponding non-formalin fixed samples (RNAlater-preserved tissues or bloodstain card), were chosen for testing results comparison. The methods of extracting DNA from FFPE samples using Covaris, Qiagen, and Promega products showed comparable results. The quality of the extracted DNA, the target-enriched DNA libraries of 95 cardiac genes using HaloPlex Target Enrichment system by Agilent Technologies, and sequencing results using Illumina Miseq instrument were evaluated. Compared to the sequencing results of the nonfixed samples, the FFPE samples were categorized into three groups: 1) Group 1 samples fixed in formalin 2-6 days, had greater than 55 % sequencing regions ≥30x and 94%-100% variant concordance. 2) Group 2 samples fixed in formalin for 8 days, showed intra-sample sequencing variations: the surface tissues showed 25%-27% extra variants (false positive) and 8.1%-9.7% missing variants (false negative), whereas the repeated core tissues showed reduced extra variants to 1.6 % and the false negative error was unchanged. 3) Group 3 samples fixed in formalin 29-136 days, had 2-55 % sequencing regions ≥30x, up to 52.2 % missed variants and up to 6.3 % extra variants. All reportable variants (pathogenic, likely pathogenic or variant of uncertain significance) identified in the nonfixed samples were also identified in FFPE, albeit three variants had low confidence variant calling. In summary, our study showed that postmortem molecular diagnostic testing using FFPE samples routinely processed by the medical examiners should be cautioned, as they are replete with false positive and negative results, particularly when sample fixation time is longer than 8 days. Saving non-formalin fixed samples for high fidelity molecular analysis is strongly encouraged.
PMID: 32155531
ISSN: 1872-6283
CID: 4348962
Molecular autopsy: using the discovery of a novel de novo pathogenic variant in the KCNH2 gene to inform healthcare of surviving family
Dong, Jingyun; Williams, Nori; Cerrone, Marina; Borck, Christopher; Wang, Dawei; Zhou, Bo; Eng, Lucy S; Subbotina, Ekaterina; Um, Sung Yon; Lin, Ying; Ruiter, Kevin; Rojas, Lisa; Coetzee, William A; Sampson, Barbara A; Tang, Yingying
Background/UNASSIGNED:pathogenic variant in a decedent. Methods/UNASSIGNED:Forensic investigation and molecular autopsy were performed on an 18-year-old female who died suddenly and unexpectedly. Co-segregation family study of the first-degree relatives and functional characterization of the variant were conducted. Findings/UNASSIGNED:arose de novo, which eliminated the need for exhaustive genome testing and annual cardiac follow-up for the parents and four siblings. Interpretation/UNASSIGNED:Molecular testing enables accurate determination of natural causes of death and precision care of the surviving family members in a time and cost-saving manner. We advocate for molecular autopsy being included under the healthcare coverage in US.
PMCID:6288419
PMID: 30582040
ISSN: 2405-8440
CID: 3560052
Phenotypic variations in carriers of predicted protein-truncating genetic variants in MYBPC3: an autopsy-based case series
Williams, Nori; Marion, Robert; McDonald, Thomas V; Wang, Dawei; Zhou, Bo; Eng, Lucy S; Um, Sung Yon; Lin, Ying; Ruiter, Kevin; Rojas, Lisa; Sampson, Barbara A; Tang, Yingying
Our aim is to characterize predicted protein-truncating variants (PTVs) in MYBPC3, the gene most commonly associated with hypertrophic cardiomyopathy (HCM), found in a series of autopsied HCM cases after sudden unexpected cardiac death. All cases underwent death scene investigation, gross and microscopic autopsies, toxicological testing, a review of medical records, and a molecular analysis of 95 cardiac genes. We found four pathogenic PTVs in MYBPC3 among male decedents. All variants were previously submitted to ClinVar without phenotype details. Two PTVs were located in the cardiac-specific myosin S2-binding (M) motif at the N-terminus of the MYBPC3-encoded cMyBP-C protein, and two PTVs were in the non-cardiac-specific C-terminus of the protein. The carriers of two cardiac-specific M-motif PTVs died at age 38 years; their heart weight (HW, g) and body mass index (BMI, kg/m2) ratio were 34.90 (890/25.5) and 23.56 (980/41.6), respectively. In contrast, the carriers of two non-cardiac-specific C-terminal PTVs died at age 57 and 67 years, respectively; their HW and BMI ratio were 14.71 (450/30.6) and 13.98 (600/42.9), respectively. A detailed three-generation family study was conducted in one case. This study showed age-at-death variations among MYBPC3 PTVs carriers in adult males.
PMID: 30282064
ISSN: 1879-1336
CID: 3328102
Applying High-Resolution Variant Classification to Cardiac Arrhythmogenic Gene Testing in a Demographically Diverse Cohort of Sudden Unexplained Deaths
Lin, Ying; Williams, Nori; Wang, Dawei; Coetzee, William; Zhou, Bo; Eng, Lucy S; Um, Sung Yon; Bao, Ruijun; Devinsky, Orrin; McDonald, Thomas V; Sampson, Barbara A; Tang, Yingying
BACKGROUND:Genetic variant interpretation contributes to testing yield differences reported for sudden unexplained death. Adapting a high-resolution variant interpretation framework, which considers disease prevalence, reduced penetrance, genetic heterogeneity, and allelic contribution to determine the maximum tolerated allele count in gnomAD, we report an evaluation of cardiac channelopathy and cardiomyopathy genes in a large, demographically diverse sudden unexplained death cohort that underwent thorough investigation in the United States' largest medical examiner's office. METHODS AND RESULTS/RESULTS:The cohort has 296 decedents: 147 Blacks, 64 Hispanics, 49 Whites, 22 Asians, and 14 mixed ethnicities; 142 infants (1 to 11 months), 39 children (1 to 17 years), 74 young adults (18 to 34 years), and 41 adults (35 to 55 years). Eighty-nine cardiac disease genes were evaluated. Using a high-resolution variant interpretation workflow, we classified 17 variants as pathogenic or likely pathogenic (2 of which were incidental findings and excluded in testing yield analysis), 46 novel variants of uncertain significance, and 130 variants of uncertain significance. Nine pathogenic or likely pathogenic variants in ClinVar were reclassified to likely benign and excluded in testing yield analysis. The yields of positive cases by ethnicity and age were 21.4% in mixed ethnicities, 10.2% Whites, 4.5% Asians, 3.1% Hispanics, and 2% Blacks; 7.7% children, 7.3% in adults, 5.4% young adults, and 2.8% infants. The percentages of uncertain cases with variants of uncertain significance by ethnicity were 45.5% in Asians, 45.3% Hispanics, 44.20% Blacks, 36.7% Whites, and 14.3% in mixed ethnicities. CONCLUSIONS:High-resolution variant interpretation provides diagnostic accuracy and healthcare efficiency. Under-represented populations warrant greater inclusion in future studies.
PMID: 29247119
ISSN: 1942-3268
CID: 2892682
Whole Exome Sequencing Reveals Severe Thrombophilia in Acute Unprovoked Idiopathic Fatal Pulmonary Embolism
Halvorsen, Matt; Lin, Ying; Sampson, Barbara A; Wang, Dawei; Zhou, Bo; Eng, Lucy S; Um, Sung Yon; Devinsky, Orrin; Goldstein, David B; Tang, Yingying
BACKGROUND: Acute unprovoked idiopathic fatal pulmonary embolism (IFPE) causes sudden death without an identifiable thrombogenic risk. We aimed to investigate the underlying genomic risks of IFPE through whole exome sequencing (WES). METHODS: We reviewed 14years of consecutive out-of-hospital fatal pulmonary embolism records (n=1478) from the ethnically diverse population of New York City. We selected 68 qualifying IFPE cases for WES. We compared the WES data of IFPE cases to those of 9332 controls to determine if there is an excess of rare damaging variants in the genome using ethnicity-matched controls in collapsing analyses. FINDINGS: We found nine of the 68 decedents (13.2%) who died of IFPE had at least one pathogenic or likely pathogenic variant in one of the three anti-coagulant genes: SERPINC1 (Antithrombin III), PROC, and PROS1. The odds ratio of developing IFPE as a variant carrier for SERPINC1 is 144.2 (95% CI, 26.3-779.4; P=1.7x10-7), for PROC is 85.6 (95% CI, 13.0-448.9; P=2.0x10-5), and for PROS1 is 56.4 (95% CI, 5.3-351.1; P=0.001). The average age-at-death of anti-coagulant gene variant carriers is significantly younger than that of non-carriers (28.56years versus 38.02years; P=0.01). INTERPRETATION: This study showed the important role of severe thrombophilia due to natural anti-coagulant deficiency in IFPE. Evaluating severe thrombophilia in out-of-hospital fatal PE beyond IFPE is warranted.
PMCID:5360570
PMID: 28174134
ISSN: 2352-3964
CID: 2437432
Input-specific maturation of synaptic dynamics of parvalbumin interneurons in primary visual cortex
Lu, Jiangteng; Tucciarone, Jason; Lin, Ying; Huang, Z Josh
Cortical networks consist of local recurrent circuits and long-range pathways from other brain areas. Parvalbumin-positive interneurons (PVNs) regulate the dynamic operation of local ensembles as well as the temporal precision of afferent signals. The synaptic recruitment of PVNs that support these circuit operations is not well-understood. Here we demonstrate that the synaptic dynamics of PVN recruitment in mouse visual cortex are customized according to input source with distinct maturation profiles. Whereas the long-range inputs to PVNs show strong short-term depression throughout postnatal maturation, local inputs from nearby pyramidal neurons progressively lose such depression. This enhanced local recruitment depends on PVN-mediated reciprocal inhibition and results from both pre- and postsynaptic mechanisms, including calcium-permeable AMPA receptors at PVN postsynaptic sites. Although short-term depression of long-range inputs is well-suited for afferent signal detection, the robust dynamics of local inputs may facilitate rapid and proportional PVN recruitment in regulating local circuit operations.
PMCID:4250102
PMID: 25385583
ISSN: 1091-6490
CID: 5303432
Cardiac channelopathy testing in 274 ethnically diverse sudden unexplained deaths
Wang, Dawei; Shah, Krunal R; Um, Sung Yon; Eng, Lucy S; Zhou, Bo; Lin, Ying; Mitchell, Adele A; Nicaj, Leze; Prinz, Mechthild; McDonald, Thomas V; Sampson, Barbara A; Tang, Yingying
Sudden unexplained deaths (SUD) in apparently healthy individuals, for which the causes of deaths remained undetermined after comprehensive forensic investigations and autopsy, present vexing challenges to medical examiners and coroners. Cardiac channelopathies, a group of inheritable diseases that primarily affect heart rhythm by altering the cardiac conduction system, have been known as one of the likely causes of SUD. Adhering to the recommendations of including molecular diagnostics of cardiac channelopathies in SUD investigation, the Molecular Genetics Laboratory of the New York City (NYC) Office of Chief Medical Examiner (OCME) has been routinely testing for six major channelopathy genes (KCNQ1, KCNH2, SCN5A, KCNE1, KCNE2, and RyR2) since 2008. Presented here are the results of cardiac channelopathy testing in 274 well-characterized autopsy negative SUD cases, all with thorough medicolegal death investigation including complete autopsy by NYC OCME between 2008 and 2012. The cohort consisted of 141 infants (92.9% younger than six-month old) and 133 non-infants (78.2% were between 19 and 58 years old). Among the ethnically diverse cohort, African American infants had the highest risks of SUD, and African American non-infants died at significantly younger age (23.7 years old, mean age-at-death) than those of other ethnicities (30.3 years old, mean age-at-death). A total of 22 previously classified cardiac channelopathy-associated variants and 24 novel putative channelopathy-associated variants were detected among the infants (13.5%) and non-infants (19.5%). Most channelopathy-associated variants involved the SCN5A gene (68.4% in infants, 50% in non-infants). We believe this is the first study assessing the role of cardiac channelopathy genes in a large and demographically diverse SUD population drawn from a single urban medical examiner's office in the United States. Our study supports that molecular testing for cardiac channelopathy is a valuable tool in SUD investigations and provides helpful information to medical examiners/coroners seeking cause of death in SUD as well as potentially life-saving information to surviving family members.
PMID: 24631775
ISSN: 0379-0738
CID: 951052
A resource of cre driver lines for genetic targeting of GABAergic neurons in cerebral cortex
Taniguchi, Hiroki; He, Miao; Wu, Priscilla; Kim, Sangyong; Paik, Raehum; Sugino, Ken; Kvitsani, Duda; Fu, Yu; Lu, Jiangteng; Lin, Ying; Miyoshi, Goichi; Shima, Yasuyuki; Fishell, Gord; Nelson, Sacha B; Huang, Z Josh
A key obstacle to understanding neural circuits in the cerebral cortex is that of unraveling the diversity of GABAergic interneurons. This diversity poses general questions for neural circuit analysis: how are these interneuron cell types generated and assembled into stereotyped local circuits and how do they differentially contribute to circuit operations that underlie cortical functions ranging from perception to cognition? Using genetic engineering in mice, we have generated and characterized approximately 20 Cre and inducible CreER knockin driver lines that reliably target major classes and lineages of GABAergic neurons. More select populations are captured by intersection of Cre and Flp drivers. Genetic targeting allows reliable identification, monitoring, and manipulation of cortical GABAergic neurons, thereby enabling a systematic and comprehensive analysis from cell fate specification, migration, and connectivity, to their functions in network dynamics and behavior. As such, this approach will accelerate the study of GABAergic circuits throughout the mammalian brain
PMCID:3779648
PMID: 21943598
ISSN: 1097-4199
CID: 138980