Molecular autopsy for sudden death in Japan.

Japan has various death investigation systems; however, external examinations, postmortem computed tomography, macroscopic examinations, and microscopic examinations are performed regardless of the system used. These examinations can reveal morphological abnormalities, whereas the cause of death in cases with non-morphological abnormalities can be detected through additional examinations. Molecular autopsy and postmortem genetic analyses are important additional examinations. They are capable of detecting inherited arrhythmias or inherited metabolic diseases, which are representative non-morphological disorders that cause sudden death, especially in infants and young people. In this review, we introduce molecular autopsy reports from Japan and describe our experience with representative cases. The relationships between drug-related deaths and genetic variants are also reviewed. Based on the presented information, molecular autopsy is expected to be used as routine examinations in death investigations because they can provide information to save new lives.

Postmortem Identification of Genetic Variations Associated with Sudden Unexpected Death in Young People.

Sudden unexpected death in the young (SUDY) is a traumatic occurrence for their family; however, information on the genetic variations associated with the condition is currently lacking. It is important to carry out postmortem genetic analyses in cases of sudden death to provide information for relatives and to allow appropriate genetic counselling and clinical follow-up. This study aimed to investigate the genetic variations associated with the occurrence of SUDY in Japan, using next-generation sequencing (NGS). The study included 18 cases of SUDY (16 males, 2 females; age 15-47 years) who underwent autopsy, including NGS DNA sequencing for molecular analysis. A total of 168 genes were selected from the sequencing panel and filtered, resulting in the identification of 60 variants in cardiac disease-related genes. Many of the cases had several of these genetic variants and some cases had a cardiac phenotype. The identification of genetic variants using NGS provides important information regarding the pathogenicity of sudden death.

A potent and selective cis-amide inhibitor of ryanodine receptor 2 as a candidate for cardiac arrhythmia treatment.

Ryanodine receptor 2 (RyR2) is a Ca2+ release channel mainly located on the sarcoplasmic reticulum (SR) membrane of heart muscle cells and regulates the concentration of Ca2+ in the cytosol. RyR2 overactivation causes potentially lethal cardiac arrhythmias, but no specific inhibitor is yet available. Herein we developed the first highly potent and selective RyR2 inhibitor, TMDJ-035, containing 3,5-difluoro substituents on the A ring and a 4-fluoro substituent on the B ring, based on a comprehensive structure-activity relationship (SAR) study of tetrazole compound 1. The SAR study also showed that the amide conformation is critical for inhibitory potency. Single-crystal X-ray diffraction analysis and variable-temperature 1H NMR revealed that TMDJ-035 strongly favors cis-amide configuration, while the inactive analogue TMDJ-011 with a secondary amide takes trans-amide configuration. Examination of the selectivity among RyRs indicated that TMDJ-035 displayed high selectivity for RyR2. TMDJ-035 suppressed abnormal Ca2+ waves and transients in isolated cardiomyocytes from RyR2-mutated mice. It appears to be a promising candidate drug for treating cardiac arrhythmias due to RyR2 overactivation, as well as a tool for studying the mechanism and dynamics of RyR2 channel gating.

Screening for Novel Type 2 Ryanodine Receptor Inhibitors by Endoplasmic Reticulum Ca2+ Monitoring.

Type 2 ryanodine receptor (RyR2) is a Ca2+ release channel on the endoplasmic (ER)/sarcoplasmic reticulum that plays a central role in the excitation-contraction coupling in the heart. Hyperactivity of RyR2 has been linked to ventricular arrhythmias in patients with catecholaminergic polymorphic ventricular tachycardia and heart failure, where spontaneous Ca2+ release via hyperactivated RyR2 depolarizes diastolic membrane potential to induce triggered activity. In such cases, drugs that suppress RyR2 activity are expected to prevent the arrhythmias, but there is no clinically available RyR2 inhibitors at present. In this study, we searched for RyR2 inhibitors from a well-characterized compound library using a recently developed ER Ca2+-based assay, where the inhibition of RyR2 activity was detected by the increase in ER Ca2+ signals from R-CEPIA1er, a genetically encoded ER Ca2+ indicator, in RyR2-expressing HEK293 cells. By screening 1535 compounds in the library, we identified three compounds (chloroxylenol, methyl orsellinate, and riluzole) that greatly increased the ER Ca2+ signal. All of the three compounds suppressed spontaneous Ca2+ oscillations in RyR2-expressing HEK293 cells and correspondingly reduced the Ca2+-dependent [3H]ryanodine binding activity. In cardiomyocytes from RyR2-mutant mice, the three compounds effectively suppressed abnormal Ca2+ waves without substantial effects on the action-potential-induced Ca2+ transients. These results confirm that ER Ca2+-based screening is useful for identifying modulators of ER Ca2+ release channels and suggest that RyR2 inhibitors have potential to be developed as a new category of antiarrhythmic drugs. SIGNIFICANCE STATEMENT: We successfully identified three compounds having RyR2 inhibitory action from a well-characterized compound library using an endoplasmic reticulum Ca2+-based assay, and demonstrated that these compounds suppressed arrhythmogenic Ca2+ wave generation without substantially affecting physiological action-potential induced Ca2+ transients in cardiomyocytes. This study will facilitate the development of RyR2-specific inhibitors as a potential new class of drugs for life-threatening arrhythmias induced by hyperactivation of RyR2.

I536T variant of RBM20 affects splicing of cardiac structural proteins that are causative for developing dilated cardiomyopathy.

RBM20 is one of the genes predisposing to dilated cardiomyopathy (DCM). Variants in the RS domain have been reported in many DCM patients, but the pathogenicity of variants within the RNA-recognition motif remains unknown. Two human patients with the I536T-RBM20 variant without an apparent DCM phenotype were identified in sudden death cohorts. A splicing reporter assay was performed, and an I538T knock-in mouse model (Rbm20I538T) was generated to determine the significance of this variant. The reporter assay demonstrated that the human I536T variant affected the TTN splicing pattern compared to wild-type. In the mouse experiments, Rbm20I538T mice showed different splicing patterns in Ttn, Ldb3, Camk2d, and Ryr2. The expressions of Casq1, Mybpc2, and Myot were upregulated in Rbm20I538T mice, but Rbm20I538T mice showed neither DCM nor cardiac dysfunction on histopathological examination and ultrasound echocardiography. The I536T-RBM20 (I538T-Rbm20) variant changes gene splicing and affects gene expression, but the splicing and expression changes in Ttn and Ca handling genes such as Casq1, Camk2d, and Ryr2 do not cause DCM morphology in the mouse model. KEY MESSAGES: • Two human patients with the I536T-RBM20 variant without a DCM phenotype were identified. • A splicing reporter assay demonstrated that the variant affected the TTN splicing. • Rbm20I538T mice showed neither DCM nor cardiac dysfunction. • Rbm20I538T mice showed different splicing patterns and the gene expressions.

PROS1 variant in sudden death case of pulmonary embolism caused by calcification in the inferior vena cava: The importance of postmortem genetic analysis.

A Japanese man in his 30s died suddenly. Postmortem computed tomography and autopsy revealed a pulmonary embolism from an organizing thrombus in the inferior vena cava as the cause of death. Genomic analysis of congenital thrombophilia-related genes (i.e., SERPINC1, PROC, PROS1, F2, F5, PLG, and MTHFR) revealed a heterozygous variant of PROS1 (p.A139V), which has been reported in patients with congenital protein S deficiency. After a genetic conference that included forensic pathologists, molecular scientists, genetic researchers, genetic clinicians, and clinical physicians, the results of the genetic analysis were explained to the family. Biochemical analyses of protein S (PS) activity and total PS antigen levels were performed with samples from the deceased's family and genetic analysis was not performed until clinical symptoms appear. Herein we demonstrate the importance of genetic background in cases of a sudden death due to pulmonary embolism.

Sudden Unexpected Death of Infantile Dilated Cardiomyopathy with JPH2 and PKD1 Gene Variants.

A Japanese girl with polycystic kidney disease (PKD) developed normally, but at 8 months of age, she was hospitalized for acute onset dyspnea. On the day after admission to hospital, her general condition suddenly became worse. An echocardiogram showed left ventricular dilatation with thin walls, severe mitral valve regurgitation, and a reduced ejection fraction. She died of acute cardiac failure 3 hours after the sudden change. Postmortem analysis with light microscopy showed disarray of cardiomyocytes without obvious infiltration of lymphocytes, and we diagnosed her heart failure as idiopathic dilated cardiomyopathy (DCM). Clinical exome sequencing showed compound heterozygous variants in JPH2 (p.T237A/p.I414L) and a heterozygous nonsense mutation in PKD1 (p.Q4193*). To date, several variants in the JPH2 gene have been reported to be pathogenic for adult-onset hypertrophic cardiomyopathy or DCM in an autosomal dominant manner and infantile-onset DCM in an autosomal recessive manner. Additionally, autosomal dominant polycystic kidney disease is a systemic disease associated with several extrarenal manifestations, such as cardiomyopathy. Here we report a sudden infant death case of DCM and discuss the genetic variants of DCM and PKD.

RNA sequencing reveals abnormal LDB3 splicing in sudden cardiac death.

The aim of this study is to determine the molecular mechanism of sudden death in a previously healthy patient. Clinical exome sequencing revealed I536T-RBM20 variant, which alters RNA splicing of TTN and is causative for dilated cardiomyopathy. Comprehensive RNA sequencing (RNA-seq) was also performed in the patient samples and the control samples. Splicing abnormality was compared in cardiac muscle and skeletal muscle. RNA-seq analysis of the cardiac and skeletal muscle showed abnormal splicing of LDB3, not of TTN. Exon 11 of LDB3 was abnormally included in the patient samples compared with the control samples. This abnormal LDB3 splicing pattern in skeletal muscle has been reported in myotonic dystrophy type 1 (DM1) patients. We, thus, confirmed that the patient had expanded CTG repeat in DMPK and the diagnosis was genetically DM1. This finding suggest that one of the molecular mechanisms of sudden cardiac death in this asymptomatic subclinical DM1 patient might be LDB3 abnormal splicing due to the CTG repeat in DMPK, rather than RBM20 variant. RNA-seq analysis is useful to determine the exact molecular diagnosis for sudden cardiac death.

Morphine and Fentanyl Citrate Induce Retrotransposition of Long Interspersed Element-1.

The retroelement long interspersed element-1 (LINE-1 or L1) comprises about 17% of the human genome. A single human cell has 80 to 100 copies of retrotransposition-competent L1, approximately 10% of which are 'hot' and actively 'jump' around the genome. Recent observations demonstrated that low-molecular weight compounds may induce L1 retrotransposition through unknown mechanisms. Herein, we demonstrated that the painkillers morphine and fentanyl citrate trigger L1 retrotransposition in neuronal cells without inducing DNA damage or up-regulating L1 mRNA expression. This effect was blocked by an antagonist of Toll-like receptor 4 (TLR4). Taken together, the data suggest that L1 retrotransposition due to morphine and fentanyl citrate is distinct from that triggered by DNA damage, requires TLR4, and is a novel type of genomic instability. Thus, we propose that L1 retrotransposition should be characterized as a component of the pharmacological activity of these analgesic agents.

Identification of arrhythmogenic right ventricular cardiomyopathy-causing gene mutations in young sudden unexpected death autopsy cases.

Arrhythmogenic right ventricular cardiomyopathy (ARVC) results in an increased risk of sudden death. We sought mutations of desmoglein-2 (DSG2), desmoplakin (DSP), and plakophilin-2 (PKP2) in 15 cases of sudden death whose causes of death could not be determined at autopsy. In three victims, mutations were identified in DSP. Two of these mutations were novel; one had previously been reported in a patient with ARVC that had been diagnosed clinically. Histological findings were not typical of ARVC; however, it was notable that these mutations were present in three of 15 cases, a relatively high proportion. The causal relationship between the mutations and ARVC is unclear, but the mutations might have been associated with faulty desmosomal proteins resulting in fatal arrhythmia. Combining information gathered by the traditional means of gross and histological examination with postmortem genetic analysis of young victims would assist in identifying their cause of death.

A knock-in mouse model of N-terminal R420W mutation of cardiac ryanodine receptor exhibits arrhythmogenesis with abnormal calcium dynamics in cardiomyocytes.

Cardiac ryanodine receptor gene (RyR2) mutations cause fatal arrhythmogenic diseases such as catecholaminergic polymorphic ventricular tachycardia and arrhythmogenic right ventricular cardiomyopathy. The N-terminal region of RyR2 is one of the hot spots for mutations. In this study, we investigated cardiac phenotypes of a knock-in mouse model carrying R420W mutation of RyR2. The N-terminal R420W mutation has already been found in juvenile sudden death cadavers of unrelated families. The depolarization-induced Ca(2+) transient amplitude was significantly lower in cardiomyocytes from RyR2(R420W/R420W) mice compared with wild-type mice. The time to peak of the Ca(2+) transient was significantly increased in RyR2(R420W/R420W) mice. Furthermore, the prolonged decay time from the peak of the Ca(2+) transient was detected in RyR2(R420W/R420W) mice. ECG telemetry revealed that various types of arrhythmias were induced in RyR2(R420W/R420W) mice in response to administration of caffeine and adrenaline. The mutant mice showed high occurrences of arrhythmias in response to heart stimulants compared with wild-type mice. These findings suggest that R420W mutation impairs depolarization-induced Ca(2+) oscillation in cardiomyocytes, which possibly results in sudden death due to stress-induced arrhythmias.

Hypertrophy of lymphoid organs is a possible phenotypic characteristic of R420W mutation of the cardiac ryanodine receptor gene: a study using a knock-in mouse model.

Cardiac ryanodine receptor gene (RyR2) mutations sometimes result in sudden cardiac death due to fatal arrhythmias. N-terminal R420W mutation of RyR2 is known to show similar phenotypes to arrhythmogenic right ventricular cardiomyopathy and to cause juvenile sudden death. We previously reported two sudden death cases with the same R420W mutation. Interestingly, the cases showed hypertrophy of lymphoid organs such as the thymus and mesenteric lymph nodes. The present study examined whether R420W mutation of RYR2 causes hypertrophy of lymphoid organs by generating a mouse model carrying the mutation. Homozygous (RyR2(R420W/R420W)) mice showed significant increases in thymus and spleen weights but not in kidney, heart, and brain weights compared with wild-type mice. The mice also showed remarkable hypertrophy of mesenteric lymph nodes. Immunohistochemical study revealed that RyR2 protein was prominently expressed in epithelial cells of the thymic medulla in the thymus. These findings show that mice with R420W mutation of RyR2 exhibit hypertrophy of lymphoid organs. Sudden unexplained death cases with the mutation may display such findings at autopsy.

Retrotransposition of long interspersed element 1 induced by methamphetamine or cocaine.

Long interspersed element 1 (L1) is a retroelement constituting ∼17% of the human genome. A single human cell has 80-100 copies of L1 capable of retrotransposition (L1-RTP), ∼10% of which are "hot L1" copies, meaning they are primed for "jumping" within the genome. Recent studies demonstrated induction of L1 activity by drugs of abuse or low molecular weight compounds, but little is known about the underlying mechanism. The aim of this study was to identify the mechanism and effects of methamphetamine (METH) and cocaine on L1-RTP. Our results revealed that METH and cocaine induced L1-RTP in neuronal cell lines. This effect was found to be reverse transcriptase-dependent. However, METH and cocaine did not induce double-strand breaks. RNA interference experiments combined with add-back of siRNA-resistant cDNAs revealed that the induction of L1-RTP by METH or cocaine depends on the activation of cAMP response element-binding protein (CREB). METH or cocaine recruited the L1-encoded open reading frame 1 (ORF1) to chromatin in a CREB-dependent manner. These data suggest that the cellular cascades underlying METH- and cocaine-induced L1-RTP are different from those behind L1-RTP triggered by DNA damage; CREB is involved in drug-induced L1-RTP. L1-RTP caused by drugs of abuse is a novel type of genomic instability, and analysis of this phenomenon might be a novel approach to studying substance-use disorders.

Traumatic basal subarachnoid hemorrhage suspected to have been caused by contrecoup cerebellar contusions: a case report.

Traumatic cerebellar hemorrhagic contusions are infrequent, and the pathogenic mechanism involves a coup injury that is associated with motor vehicle accidents in most cases. Traumatic basal subarachnoid hemorrhage (TBSAH) is commonly reported after blunt trauma to the neck or unrestricted movement of the head, and the source of the hemorrhage is most frequently identified in the vertebrobasilar arteries. A 55-year-old woman who was addicted to alcohol was found dead in her bed. She had a bruise on the left side of her posterior parietal region, and autopsy revealed massive subarachnoid hemorrhage at the base of the brain; the hematoma was strongly attached to the right lower surface of the cerebellar hemisphere. No ruptured cerebral aneurysms, arteriovenous malformations or vertebrobasilar artery leakage were detected. Hemorrhagic cerebellar contusions were regarded as the source of the TBSAH. This is the first report of TBSAH suspected to have been caused by contrecoup cerebellar contusions.

Sudden death of a child because of an intestinal obstruction caused by a large congenital mesenteric defect.

Transmesenteric hernias are internal hernias caused by a congenital defect in the mesentery. They are rare causes of intestinal obstruction, but most commonly affect the small bowel. We report an unexpected death of an infant with a bowel obstruction caused by a congenital mesenteric defect, which was undiagnosed despite visits to three different hospitals. Mesenteric defects are usually 2-3 cm in diameter. At autopsy, we found an oval, 14 × 7 cm congenital defect in the ileal mesentery through which the small bowel had herniated. Diagnosis of such defects remains difficult, even with currently available imaging techniques. Diagnosis is particularly difficult in infants who usually have nonspecific symptoms. Therefore, it is important that sudden unexpected deaths in children undergo full forensic evaluation to establish the precise cause of death. It is also important for forensic physicians to inform clinicians of the risk of such diseases, particularly in emergency situations.

Sudden death during exercise in a juvenile with arrhythmogenic right ventricular cardiomyopathy and desmoglein-2 gene substitution: a case report.

One type of arrhythmogenic right ventricular cardiomyopathy (ARVC) is an inherited disorder resulting in fatty replacement of the right ventricular wall and consequent fatal arrhythmias. It is a major cause of sudden death in young people. Mutations in the genes encoding desmosomal proteins have been identified as a cause of ARVC. We report a case of sudden death during exercise in a juvenile. This case showed fatty replacement of the right ventricular wall, which suggests that ARVC may have been associated with the cause of death. Further genetic analysis showed a novel homozygous R292C substitution of the desmoglein-2 gene (DSG2), which encodes a desmosomal protein. In addition to morphological examination, genetic analysis may be useful for diagnosis of ARVC-suspected autopsy cases.

An autopsy case of multiple psychotropic drug poisoning.

A fatal poisoning case involving etizolam, phenobarbital, promethazine and chlorpromazine is presented. Quantitative toxicological analysis showed that the concentrations of etizolam, phenobarbital, promethazine and chlorpromazine in the femoral blood were 86 ng/ml, 5082 microg/ml, 0.107 microg/ml and 0.144 microg/ml, respectively, and large amounts of drugs were also detected in the stomach contents. We conclude that the cause of death was due to the interaction of multiple psychotropic drugs.

Postmortem genetic analysis for a sudden death case complicated with Marfan syndrome.

We report here a sudden death case of a patient previously diagnosed as Marfan syndrome (MFS). The victim was dead on the wheel and the cause of death was diagnosed to be a rupture of the thoracic aorta by autopsy findings. MFS is an autosomal dominant disorder of the connective tissue and can be a cause of sudden death. Postmortem genetic analysis revealed a heterozygous p.C1307Y of the FBN1 gene, which is responsible for pathogenesis of MFS, was evident. This substitution was not found in 400 alleles from control individuals. In addition, the position 1307 is highly conserved among species. Because the position 1307 serves as part of the Cys1307-Cys1320 disulfide bond of the fibrillin-1, the p.C1307Y substitution results in loss of the intramolecular disulfide bond. The p.C1307Y substitution may be associated with the pathology of the present case, and show a higher risk for aortic rupture and subsequent sudden death.

Bromide detection in blood using energy dispersive X-ray fluorescence; a chemical marker supportive of drowning in seawater.

Energy dispersive X-ray fluorescence spectrometry (EDX) enables rapid, non-destructive, multi-elemental analysis. Using EDX, bromide was detected in seawater but not in freshwater. We applied EDX to the detection of bromide in cardiac blood from medico-legal autopsy cases to obtain additional evidence supportive of seawater drowning. Bromide was detected in the blood of 4 out of 10 victims drowned in seawater. In contrast, bromide concentrations were below the quantification limit in both victims from freshwater drowning and non-drowning controls. No postmortem invasion of bromide was observed in animal experiments of postmortem immersion in seawater. These results indicate that the detection of bromide in blood by EDX could be a chemical marker supportive of drowning in seawater.

Effects of dopamine antagonists on methamphetamine-induced dopamine release in high and low alcohol preference rats.

The authors have previously shown that high alcohol preference rats (HAP) have a significantly higher sensitivity than low alcohol preference rats (LAP) for methamphetamine (MAP). In this study, changes in dopamine and serotonin release induced by MAP (1 mg/kg, intraperitoneally) after pre-treatment with D1 and D2 receptor antagonists were examined in the striatum of rats with different alcohol preferences to elucidate differences in receptor levels between the two rat strains. D1 receptor antagonist SCH23390 or D2 receptor antagonist haloperidol were administrated intracerebroventricularly 10 min before MAP stimulation. This study investigated the effect of methamphetamine-induced dopamine and serotonin release in striatum using microdialysis of freely moving rats coupled to ECD-HPLC. With haloperidol treatment both strains of rats showed a significantly greater maximum increase on MAP-induced dopamine release compared with respective control rats. However, after SCH23390 treatment only HAP rats showed a significantly greater increase in dopamine release compared with controls. SCH23390 blocks mainly D1 receptors only in the post-synaptic membrane, whereas haloperidol blocks D2 receptors in both the pre-synaptic and post-synaptic membranes. The MAP-induced increase in dopamine release following haloperidol pre-treatment was greater than SCH23390 pre-treatment in both strains. This result indicates that D2 receptors (autoreceptors) in the pre-synaptic membrane were blocked, leading to the elimination of the feedback function that regulates dopamine release. These data suggested that alcohol preference is associated with the action of MAP, and the dopaminergic mechanism, specifically the D1 system in the striatum, might have a different pathway dependent on alcohol preference.