Your search keyword '"Hazrati LN"' showing total 135 results

1. WNT-activated embryonal tumors of the pineal region: ectopic medulloblastomas or a novel pineoblastoma subgroup?

Author

Liu APY, Priesterbach-Ackley LP, Orr BA, Li BK, Gudenas B, Reddingius RE, Suñol M, Lavarino C, Gene-Olaciregui N, Santa-María López V, Fisher MJ, Hazrati LN, Bouffet E, Huang A, Robinson GW, Wesseling P, Northcott PA, and Gajjar A

Published

2020

2. DNA damage and brain trauma: a clue to pathophysiology and biomarker development

Author

Hazrati, LN, primary

Published

2019

3. Investigation of C9orf72 in Four Neurodegenerative Disorders

Author

Rogaeva, E, Xi, Zr, Zinman, L, Grinberg, Y, Moreno, D, Sato, C, Bilbao, Jm, Ghani, M, Hernandez, I, Ruiz, A, Boada, M, Moron, Fj, Lang, Ae, Marras, C, Bruni, A, Colao, R, Maletta, Rg, Pinessi, Lorenzo, Rainero, Innocenzo, Galimberti, D, Morrison, K, Moorby, C, Stockton, Jd, Masellis, M, Black, Se, Hazrati, Ln, Fornazzari, L, Villagra, R, Rojas Garcia, R, Clarimon, J, Mayeux, R, Robertson, J, and St George Hyslop, P.

Subjects

Neurodegenerative Disorders, C9orf72

Published

2012

4. Identification of common variants influencing risk of the tauopathy progressive supranuclear palsy

Author

Höglinger, GU, Melhem, NM, Dickson, DW, Sleiman, PMA, Wang, LS, Klei, L, Rademakers, R, De Silva, R, Litvan, I, Riley, DE, Van Swieten, JC, Heutink, P, Wszolek, ZK, Uitti, RJ, Vandrovcova, J, Hurtig, HI, Gross, RG, Maetzler, W, Goldwurm, S, Tolosa, E, Borroni, B, Pastor, P, Cantwell, LB, Han, MR, Dillman, A, Van Der Brug, MP, Gibbs, JR, Cookson, MR, Hernandez, DG, Singleton, AB, Farrer, MJ, Yu, CE, Golbe, LI, Revesz, T, Hardy, J, Lees, AJ, Devlin, B, Hakonarson, H, Müller, U, Schellenberg, GD, Albin, RL, Alonso, E, Antonini, A, Apfelbacher, M, Arnold, SE, Avila, J, Beach, TG, Beecher, S, Berg, D, Bird, TD, Bogdanovic, N, Boon, AJW, Bordelon, Y, Brice, A, Budka, H, Canesi, M, Chiu, WZ, Cilia, R, Colosimo, C, De Deyn, PP, De Yebenes, JG, Kaat, LD, Duara, R, Durr, A, Engelborghs, S, Fabbrini, G, Finch, NA, Flook, R, Frosch, MP, Gaig, C, Galasko, DR, Gasser, T, Gearing, M, Geller, ET, Ghetti, B, Graff-Radford, NR, Grossman, M, Hall, DA, Hazrati, LN, Höllerhage, M, Jankovic, J, Juncos, JL, Karydas, A, Kretzschmar, HA, and Leber, I

Subjects

eye diseases

Abstract

Progressive supranuclear palsy (PSP) is a movement disorder with prominent tau neuropathology. Brain diseases with abnormal tau deposits are called tauopathies, the most common of which is Alzheimer's disease. Environmental causes of tauopathies include repetitive head trauma associated with some sports. To identify common genetic variation contributing to risk for tauopathies, we carried out a genome-wide association study of 1,114 individuals with PSP (cases) and 3,247 controls (stage 1) followed by a second stage in which we genotyped 1,051 cases and 3,560 controls for the stage 1 SNPs that yielded P ≤ 10-3. We found significant previously unidentified signals (P < 5 × 10-8) associated with PSP risk at STX6, EIF2AK3 and MOBP. We confirmed two independent variants in MAPT affecting risk for PSP, one of which influences MAPT brain expression. The genes implicated encode proteins for vesicle-membrane fusion at the Golgi-endosomal interface, for the endoplasmic reticulum unfolded protein response and for a myelin structural component. © 2011 Nature America, Inc. All rights reserved.

Published

2011

5. 10. Cerebral hyaline astrocytic inclusions in treatment-resistant epilepsy and global developmental delay

Author

Signaevski, M., primary, Sanguansermsri, C., additional, Connolly, M., additional, Hazrati, LN., additional, and Dunham, C., additional

Published

2015

6. An atypical clinical and radiological presentation of progressive multifocal leukoencephalopathy: A case report

Author

Maurice, C, primary, Mason, WP, additional, and Hazrati, LN, additional

Published

2014

7. Increased levels of 5-HT1A receptor binding in ventral visual pathways in Parkinson's disease.

Author

Huot P, Johnston TH, Visanji NP, Darr T, Pires D, Hazrati LN, Brotchie JM, Fox SH, Huot, Philippe, Johnston, Tom H, Visanji, Naomi P, Darr, Tayyeba, Pires, Donna, Hazrati, Lili-Naz, Brotchie, Jonathan M, and Fox, Susan H

Abstract

Visual hallucinations are common in advanced Parkinson's disease (PD). The pathophysiology of visual hallucinations may involve enhanced serotonergic neurotransmission. The atypical antipsychotics clozapine and quetiapine, which have affinity for 5-HT(2A) and 5-HT(1A) receptors, are effective against visual hallucinations in PD. 5-HT(2A) receptors are increased in ventral visual pathways in PD patients with visual hallucinations, and we hypothesized that 5-HT(1A) receptors were also involved in visual hallucinations in PD. Autoradiographic binding using [(3) H]-WAY-100,635 and NAN-190 was performed in brain sections from 6 PD patients with visual hallucinations, 6 PD patients without visual hallucinations, and 5 age-matched controls. All PD subjects had been treated with L-dopa. Brain areas studied were the orbitofrontal, inferolateral temporal, and motor cortices, as well as the striatum, globus pallidus, substantia nigra, and thalamus. 5-HT(1A) -binding levels were dramatically increased in the ventral visual pathways of all PD patients compared with controls (0 vs 11 and 0 vs 100 nmol/mg, respectively; both P < .05). There was no significant difference in 5-HT(1A) -binding levels in PD patients with visual hallucinations compared with PD patients without visual hallucinations or with controls in any of the brain areas studied (P > .05). Gross abnormalities in 5-HT(1A) levels in ventral visual areas occurred in all PD patients exposed to L-dopa. However, as there was no difference in 5-HT(1A) -binding levels between hallucinators and nonhallucinators, alterations in 5-HT(1A) receptor levels may not contribute specifically to visual hallucinations in PD. However, the discrete anatomical distribution of rises to the ventral visual areas suggests some role in predisposing to visual hallucinations. [ABSTRACT FROM AUTHOR]

Published

2012

8. Increased 5-HT(2A) receptors in the temporal cortex of parkinsonian patients with visual hallucinations.

Author

Huot P, Johnston TH, Darr T, Hazrati LN, Visanji NP, Pires D, Brotchie JM, and Fox SH

Abstract

Well-formed visual hallucinations (VH) are common in patients with Parkinson's disease (PD). The pathophysiology of VH in PD is unknown but may involve structures mediating visual processing such as the inferior temporal cortex. Serotonergic type 2A (5-HT(2A)) receptors have been linked to many psychiatric disorders, including psychosis. We hypothesized that enhanced 5-HT(2A) receptor levels may be involved in VH in PD. Autoradiographic binding using [(3)H]-ketanserin and spiperone, to define 5-HT(2A) receptors, was performed in 6 PD patients with VH, 6 PD patients without VH, and 5 healthy, age-matched controls. The cerebral regions studied included the orbitofrontal cortex, inferolateral temporal cortex, motor cortex, striatum, and substantia nigra. There was a significant (45.6%) increase in the levels of [(3)H]-ketanserin binding in the inferolateral temporal cortex of PD patients with VH when compared with PD patients without VH (54.3 +/- 5.2 fmol/mg vs. 37.3 +/- 4.3 fmol/mg, P = 0.039). Additionally, there was a significant increase in the levels of 5-HT(2A) receptors in the motor cortex of all PD patients taken as a group when compared with controls (57.8 +/- 5.7 fmol/mg vs. 41.2 +/- 2.6 fmol/mg, P = 0.0297). These results suggest that enhanced 5-HT(2A)-mediated neurotransmission in the inferolateral temporal cortex, a critical structure in visual processing, might be associated with the development of VH in PD. Our results provide new insights into the pathophysiology of VH in PD and provide an anatomical basis to explain why compounds with 5-HT(2A) antagonist activity are effective at alleviating this debilitating complication. (c) 2010 Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published

2010

9. Child Neurology: Severe GMPPB -Related Congenital Muscular Dystrophy With Rapidly Progressive Encephalopathy Leading to Infantile Death.

Author

Dubé J, Blaser S, Guerguerian AM, Hazrati LN, and Yoon G

Subjects

Humans, Male, Infant, Fatal Outcome, Spasms, Infantile genetics, Muscular Dystrophies genetics, Muscular Dystrophies complications, Vigabatrin therapeutic use, Brain Diseases genetics, Brain Diseases diagnostic imaging, Brain Diseases pathology, Nucleotidyltransferases genetics

Abstract

Pathogenic variants in GMPPB cause congenital muscular dystrophy through hypoglycosylation of alpha-dystroglycan (OMIM #615350). The established phenotypic spectrum of GMPPB-related disorders includes recurrent rhabdomyolysis, limb-girdle muscular dystrophy, neuromuscular transmission abnormalities, and congenital muscular dystrophy with variable brain and eye anomalies. We report a 9-month-old male infant with congenital muscular dystrophy, infantile spasms, and compound heterozygous pathogenic variants (c.624T>G and c.1000G>A) in GMPPB who presented acutely in status epilepticus progressing to refractory hemodynamic instability and multiorgan failure leading to death 20 days after admission. Brain MRI showed a pattern of symmetric diffusion restriction consistent with possible vigabatrin toxicity and progressive cerebral volume loss. Postmortem neuropathology examination confirmed features of dystroglycanopathy including patchy loss of dystroglycan staining of muscle. This report of infantile death in an individual with a GMPPB -related disorder raises concern for potential risk of early mortality possibly exacerbated by vigabatrin toxicity.

Published

2025

10. Correction: Whole-genome sequencing analysis reveals new susceptibility loci and structural variants associated with progressive supranuclear palsy.

Author

Wang H, Chang TS, Dombroski BA, Cheng PL, Patil V, Valiente-Banuet L, Farrell K, Mclean C, Molina-Porcel L, Rajput A, De Deyn PP, Le Bastard N, Gearing M, Kaat LD, Van Swieten JC, Dopper E, Ghetti BF, Newell KL, Troakes C, de Yébenes JG, Rábano-Gutierrez A, Meller T, Oertel WH, Respondek G, Stamelou M, Arzberger T, Roeber S, Müller U, Hopfner F, Pastor P, Brice A, Durr A, Le Ber I, Beach TG, Serrano GE, Hazrati LN, Litvan I, Rademakers R, Ross OA, Galasko D, Boxer AL, Miller BL, Seeley WW, Van Deerlin VM, Lee EB, White CL 3rd, Morris H, de Silva R, Crary JF, Goate AM, Friedman JS, Leung YY, Coppola G, Naj AC, Wang LS, Dalgard C, Dickson DW, Höglinger GU, Schellenberg GD, Geschwind DH, and Lee WP

Published

2024

11. Whole-genome sequencing analysis reveals new susceptibility loci and structural variants associated with progressive supranuclear palsy.

Author

Wang H, Chang TS, Dombroski BA, Cheng PL, Patil V, Valiente-Banuet L, Farrell K, Mclean C, Molina-Porcel L, Rajput A, De Deyn PP, Le Bastard N, Gearing M, Kaat LD, Van Swieten JC, Dopper E, Ghetti BF, Newell KL, Troakes C, de Yébenes JG, Rábano-Gutierrez A, Meller T, Oertel WH, Respondek G, Stamelou M, Arzberger T, Roeber S, Müller U, Hopfner F, Pastor P, Brice A, Durr A, Le Ber I, Beach TG, Serrano GE, Hazrati LN, Litvan I, Rademakers R, Ross OA, Galasko D, Boxer AL, Miller BL, Seeley WW, Van Deerlin VM, Lee EB, White CL 3rd, Morris H, de Silva R, Crary JF, Goate AM, Friedman JS, Leung YY, Coppola G, Naj AC, Wang LS, Dalgard C, Dickson DW, Höglinger GU, Schellenberg GD, Geschwind DH, and Lee WP

Subjects

Humans, Male, Female, Aged, Middle Aged, Aged, 80 and over, Supranuclear Palsy, Progressive genetics, Genetic Predisposition to Disease genetics, Whole Genome Sequencing, Genome-Wide Association Study, Polymorphism, Single Nucleotide genetics

Abstract

Background: Progressive supranuclear palsy (PSP) is a rare neurodegenerative disease characterized by the accumulation of aggregated tau proteins in astrocytes, neurons, and oligodendrocytes. Previous genome-wide association studies for PSP were based on genotype array, therefore, were inadequate for the analysis of rare variants as well as larger mutations, such as small insertions/deletions (indels) and structural variants (SVs)., Method: In this study, we performed whole genome sequencing (WGS) and conducted association analysis for single nucleotide variants (SNVs), indels, and SVs, in a cohort of 1,718 cases and 2,944 controls of European ancestry. Of the 1,718 PSP individuals, 1,441 were autopsy-confirmed and 277 were clinically diagnosed., Results: Our analysis of common SNVs and indels confirmed known genetic loci at MAPT, MOBP, STX6, SLCO1A2, DUSP10, and SP1, and further uncovered novel signals in APOE, FCHO1/MAP1S, KIF13A, TRIM24, TNXB, and ELOVL1. Notably, in contrast to Alzheimer's disease (AD), we observed the APOE ε2 allele to be the risk allele in PSP. Analysis of rare SNVs and indels identified significant association in ZNF592 and further gene network analysis identified a module of neuronal genes dysregulated in PSP. Moreover, seven common SVs associated with PSP were observed in the H1/H2 haplotype region (17q21.31) and other loci, including IGH, PCMT1, CYP2A13, and SMCP. In the H1/H2 haplotype region, there is a burden of rare deletions and duplications (P = 6.73 × 10 -3 ) in PSP., Conclusions: Through WGS, we significantly enhanced our understanding of the genetic basis of PSP, providing new targets for exploring disease mechanisms and therapeutic interventions., (© 2024. The Author(s).)

Published

2024

12. Association of Structural Forms of 17q21.31 with the Risk of Progressive Supranuclear Palsy and MAPT Sub-haplotypes.

Author

Wang H, Chang TS, Dombroski BA, Cheng PL, Si YQ, Tucci A, Patil V, Valiente-Banuet L, Farrell K, Mclean C, Molina-Porcel L, Alex R, Paul De Deyn P, Le Bastard N, Gearing M, Donker Kaat L, Van Swieten JC, Dopper E, Ghetti BF, Newell KL, Troakes C, G de Yébenes J, Rábano-Gutierrez A, Meller T, Oertel WH, Respondek G, Stamelou M, Arzberger T, Roeber S, Müller U, Hopfner F, Pastor P, Brice A, Durr A, Ber IL, Beach TG, Serrano GE, Hazrati LN, Litvan I, Rademakers R, Ross OA, Galasko D, Boxer AL, Miller BL, Seeley WW, Van Deerlin VM, Lee EB, White CL 3rd, Morris HR, de Silva R, Crary JF, Goate AM, Friedman JS, Leung YY, Coppola G, Naj AC, Wang LS, Dickson DW, Höglinger GU, Tzeng JY, Geschwind DH, Schellenberg GD, and Lee WP

Abstract

Importance: The chromosome 17q21.31 region, containing a 900 Kb inversion that defines H1 and H2 haplotypes, represents the strongest genetic risk locus in progressive supranuclear palsy (PSP). In addition to H1 and H2, various structural forms of 17q21.31, characterized by the copy number of α, β, and γ duplications, have been identified. However, the specific effect of each structural form on the risk of PSP has never been evaluated in a large cohort study., Objective: To assess the association of different structural forms of 17q.21.31, defined by the copy numbers of α, β, and γ duplications, with the risk of PSP and MAPT sub-haplotypes., Design Setting and Participants: Utilizing whole genome sequencing data of 1,684 (1,386 autopsy confirmed) individuals with PSP and 2,392 control subjects, a case-control study was conducted to investigate the association of copy numbers of α, β, and γ duplications and structural forms of 17q21.31 with the risk of PSP. All study subjects were selected from the Alzheimer's Disease Sequencing Project (ADSP) Umbrella NG00067.v7. Data were analyzed between March 2022 and November 2023., Main Outcomes and Measures: The main outcomes were the risk (odds ratios [ORs]) for PSP with 95% CIs. Risks for PSP were evaluated by logistic regression models., Results: The copy numbers of α and β were associated with the risk of PSP only due to their correlation with H1 and H2, while the copy number of γ was independently associated with the increased risk of PSP. Each additional duplication of γ was associated with 1.10 (95% CI, 1.04-1.17; P = 0.0018) fold of increased risk of PSP when conditioning H1 and H2. For the H1 haplotype, addition γ duplications displayed a higher odds ratio for PSP: the odds ratio increases from 1.21 (95%CI 1.10-1.33, P = 5.47 × 10 -5 ) for H1β1γ1 to 1.29 (95%CI 1.16-1.43, P = 1.35 × 10 -6 ) for H1β1γ2, 1.45 (95%CI 1.27-1.65, P = 3.94 × 10 -8 ) for H1β1γ3, and 1.57 (95%CI 1.10-2.26, P = 1.35 × 10 -2 ) for H1β1γ4. Moreover, H1β1γ3 is in linkage disequilibrium with H1c (R 2 = 0.31), a widely recognized MAPT sub-haplotype associated with increased risk of PSP. The proportion of MAPT sub-haplotypes associated with increased risk of PSP (i.e., H1c, H1d, H1g, H1o, and H1h) increased from 34% in H1β1γ1 to 77% in H1β1γ4., Conclusions and Relevance: This study revealed that the copy number of γ was associated with the risk of PSP independently from H1 and H2. The H1 haplotype with more γ duplications showed a higher odds ratio for PSP and were associated with MAPT sub-haplotypes with increased risk of PSP. These findings expand our understanding of how the complex structure at 17q21.31 affect the risk of PSP., Competing Interests: Competing interests Laura Molina-Porcel received income from Biogen as a consultant in 2022. Gesine Respondek is now employed by Roche (Hoffmann-La Roche, Basel, Switzerland) since 2021. Her affiliation whilst completing her contribution to this manuscript was German Center for Neurodegenerative Diseases (DZNE), Munich, Germany. Thomas G Beach is a consultant for Aprinoia Therapeutics and a Scientific Advisor and stock option holder for Vivid Genomics. Huw Morris is employed by UCL. In the last 12 months he reports paid consultancy from Roche, Aprinoia, AI Therapeutics and Amylyx; lecture fees/honoraria - BMJ, Kyowa Kirin, Movement Disorders Society. Huw Morris is a co-applicant on a patent application related to C9ORF72 - Method for diagnosing a neurodegenerative disease (PCT/GB2012/052140). Giovanni Coppola is currently an employee of Regeneron Pharmaceuticals. Alison Goate serves on the SAB for Genentech and Muna Therapeutics.

Published

2024

13. Brain pathology and symptoms linked to concussion history: beyond chronic traumatic encephalopathy.

Author

Taskina D, Zhu C, Schwab N, and Hazrati LN

Abstract

Repeated head trauma acquired through sports injuries has been associated with the development of long-term disabling symptoms that negatively impact the quality of life. In this retrospective case series, 52 male former professional athletes involved in contact sports and with a history of multiple concussions were evaluated for chronic clinical symptoms and post-mortem neuropathological diagnoses. The clinical symptoms of 19 cases were examined in greater detail for symptom type, severity and duration. Information on neurological, psychiatric and physical symptoms, substance use profiles and concussion histories was obtained from the athletes' next of kin and assessed in relation to post-mortem neuropathological diagnoses. Cases were categorized into three different neuropathological groups: no major neuropathological findings, the presence of only chronic traumatic encephalopathy (CTE) and the diagnosis(es) of other neurodegenerative diseases. Age at death and the presence of DNA damage in the post-mortem brains were analysed for correlation with the clinical symptoms. In this case series, 14/52 (26.9%) cases (mean age 48.2 ± 11.4) had neuropathological evidence of low-stage/low-burden CTE. A total of 11/52 (21.2%) cases (mean age 38.7 ± 12.7) presented a similar profile and severity of behavioural symptoms to those with CTE, despite the lack of significant post-mortem neuropathological findings. A total of 27/52 (51.9%) cases (mean age 75.5 ± 8.7) presented with complex post-mortem neurodegenerative diagnoses, including Alzheimer's disease and other mixed pathologies, and clinical symptoms associated with language, memory and sensory dysfunction. The presence of DNA damage in the brain was found in all neuropathological groups, predominantly in the ependymal lining of ventricles, and phosphorylated histone H2AX staining was correlated with higher age at death ( r = 0.59) and symptoms of language dysfunction ( r = 0.56). Findings from our case series suggest that post-concussive symptoms are not driven by CTE. Our findings show that proteinopathies alone may not account for the complexity of the clinical manifestations and suggest the possibility of other drivers, such as DNA damage, as potentially useful markers of brain trauma. Broadening the search for biological markers that reflect the effects of brain injury, even when proteinopathy is not observed, and taking a symptom-driven approach are therefore advised., Competing Interests: The authors report no competing interests., (© Crown copyright 2024.)

Published

2024

14. BRCA1 heterozygosity promotes DNA damage-induced senescence in a sex-specific manner following repeated mild traumatic brain injury.

Author

Leung E, Taskina D, Schwab N, and Hazrati LN

Abstract

Emerging evidence suggests cellular senescence, as a consequence of excess DNA damage and deficient repair, to be a driver of brain dysfunction following repeated mild traumatic brain injury (rmTBI). This study aimed to further investigate the role of deficient DNA repair, specifically BRCA1-related repair, on DNA damage-induced senescence. BRCA1, a repair protein involved in maintaining genomic integrity with multiple roles in the central nervous system, was previously reported to be significantly downregulated in post-mortem brains with a history of rmTBI. Here we examined the effects of impaired BRCA1-related repair on DNA damage-induced senescence and outcomes 1-week post-rmTBI using mice with a heterozygous knockout for BRCA1 in a sex-segregated manner. Altered BRCA1 repair with rmTBI resulted in altered anxiety-related behaviours in males and females using elevated zero maze and contextual fear conditioning. Evaluating molecular markers associated with DNA damage signalling and senescence-related pathways revealed sex-specific differences attributed to BRCA1, where females exhibited elevated DNA damage, impaired DNA damage signalling, and dampened senescence onset compared to males. Overall, the results from this study highlight sex-specific consequences of aberrant DNA repair on outcomes post-injury, and further support a need to develop sex-specific treatments following rmTBI., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Leung, Taskina, Schwab and Hazrati.)

Published

2023

15. Titin related myopathy with ophthalmoplegia. A novel phenotype.

Author

Alawneh I, Yuki KE, Amburgey K, Yoon G, Dowling JJ, Hazrati LN, and Gonorazky H

Subjects

Humans, Male, Young Adult, Connectin genetics, Muscle, Skeletal pathology, Mutation, Phenotype, Muscular Diseases genetics, Muscular Diseases pathology, Neuromuscular Diseases pathology, Ophthalmoplegia genetics, Ophthalmoplegia pathology

Abstract

Titin-related myopathy is an emerging genetic neuromuscular disorder with a wide spectrum of clinical phenotypes. To date, there have not been reports of patients with this disease that presented with extraocular muscle involvement. Here we discuss a 19-year-old male with congenital weakness, complete ophthalmoplegia, thoracolumbar scoliosis, and obstructive sleep apnea. Muscle magnetic resonance imaging revealed severe involvement of the gluteal and anterior compartment muscles, and clear adductor sparing, while muscle biopsy of the right vastus lateralis showed distinctive cap-like structures. Trio Whole Exome Sequencing (WES) showed compound heterozygous likely pathologic variants in the TTN gene. (c.82541&#95;82544dup (p.Arg27515Serfs*2) in exon 327 (NM&#95;001267550.2) and c.31846+1G>A (p.?) in exon 123 (NM&#95;001267550.2). To our knowledge, this is the first report of a TTN-related disorder associated with ophthalmoplegia., Competing Interests: Declaration of Competing Interest We declare that this manuscript is original, has not been published before and is not currently being considered for publication elsewhere. We know of no conflicts of interest associated with this publication and there has been no significant financial support for this work that could have influenced its outcome. As Corresponding author, I confirm that the manuscript has been read and approved for submission by all named authors., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

16. Chronic traumatic encephalopathy neuropathologic change is uncommon in men who played amateur American football.

Author

Iverson GL, Jamshidi P, Fisher-Hubbard AO, Deep-Soboslay A, Hyde TM, Kleinman JE, deJong JL, Shepherd CE, Hazrati LN, and Castellani RJ

Abstract

Introduction: We examined postmortem brain tissue from men, over the age of 50, for chronic traumatic encephalopathy neuropathologic change (CTE-NC). We hypothesized that (i) a small percentage would have CTE-NC, (ii) those who played American football during their youth would be more likely to have CTE-NC than those who did not play contact or collision sports, and (iii) there would be no association between CTE-NC and suicide as a manner of death., Methods: Brain tissue from 186 men and accompanying clinical information were obtained from the Lieber Institute for Brain Development. Manner of death was determined by a board-certified forensic pathologist. Information was obtained from next of kin telephone interviews, including medical, social, demographic, family, and psychiatric history. The 2016 and 2021 consensus definitions were used for CTE-NC. Two authors screened all cases, using liberal criteria for identifying "possible" CTE-NC, and five authors examined the 15 selected cases., Results: The median age at the time of death was 65 years (interquartile range = 57-75; range = 50-96). There were 25.8% with a history of playing American football and 36.0% who had suicide as their manner of death. No case was rated as definitively having "features" of CTE-NC by all five authors. Ten cases were rated as having features of CTE-NC by three or more authors (5.4% of the sample), including 8.3% of those with a personal history of playing American football and 3.9% of those who did not play contact or collision sports. Of those with mood disorders during life, 5.5% had features of CTE-NC compared to 6.0% of those who did not have a reported mood disorder. Of those with suicide as a manner of death, 6.0% had features of CTE-NC compared to 5.0% of those who did not have suicide as a manner of death., Discussion: We did not identify a single definitive case of CTE-NC, from the perspective of all raters, and only 5.4% of cases were identified as having possible features of CTE-NC by some raters. CTE-NC was very uncommon in men who played amateur American football, those with mood disorders during life, and those with suicide as a manner of death., Competing Interests: GI serves as a scientific advisor for NanoDX®, Sway Operations, LLC, and Highmark, Inc. He has a clinical and consulting practice in forensic neuropsychology, including expert testimony, involving individuals who have sustained mild TBIs (including former athletes), and on the topic of suicide. He has received research funding from several test publishing companies, including ImPACT Applications, Inc., CNS Vital Signs, and Psychological Assessment Resources (PAR, Inc.). He has received research funding as a principal investigator from the National Football League, and subcontract grant funding as a collaborator from the Harvard Integrated Program to Protect and Improve the Health of National Football League Players Association Members. RC is subcontracted to the Lieber Institute for Brain Development to assist with brain examinations. He is a consultant on a grant from the National Football League. He has a consulting practice in forensic neuropathology, including expert testimony, some of which involves former contact sport athletes. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Iverson, Jamshidi, Fisher-Hubbard, Deep-Soboslay, Hyde, Kleinman, deJong, Shepherd, Hazrati and Castellani.)

Published

2023

17. The pathological potential of ependymal cells in mild traumatic brain injury.

Author

Nelles DG and Hazrati LN

Abstract

Mild traumatic brain injury (mTBI) is a common neurological condition affecting millions of individuals worldwide. Although the pathology of mTBI is not fully understood, ependymal cells present a promising approach for studying the pathogenesis of mTBI. Previous studies have revealed that DNA damage in the form of γH2AX accumulates in ependymal cells following mTBI, with evidence of widespread cellular senescence in the brain. Ependymal ciliary dysfunction has also been observed, leading to altered cerebrospinal fluid homeostasis. Even though ependymal cells have not been extensively studied in the context of mTBI, these observations reflect the pathological potential of ependymal cells that may underlie the neuropathological and clinical presentations of mTBI. This mini review explores the molecular and structural alterations that have been reported in ependymal cells following mTBI, as well as the potential pathological mechanisms mediated by ependymal cells that may contribute to overall dysfunction of the brain post-mTBI. Specifically, we address the topics of DNA damage-induced cellular senescence, dysregulation of cerebrospinal fluid homeostasis, and the consequences of impaired ependymal cell barriers. Moreover, we highlight potential ependymal cell-based therapies for the treatment of mTBI, with a focus on neurogenesis, ependymal cell repair, and modulation of senescence signaling pathways. Further insight and research in this field will help to establish the role of ependymal cells in the pathogenesis of mTBI and may lead to improved treatments that leverage ependymal cells to target the origins of mTBI pathology., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Nelles and Hazrati.)

Published

2023

18. Variants in ACTC1 underlie distal arthrogryposis accompanied by congenital heart defects.

Author

Chong JX, Childers MC, Marvin CT, Marcello AJ, Gonorazky H, Hazrati LN, Dowling JJ, Al Amrani F, Alanay Y, Nieto Y, Gabriel MÁM, Aylsworth AS, Buckingham KJ, Shively KM, Sommers O, Anderson K, Regnier M, and Bamshad MJ

Subjects

Humans, Actins genetics, Myosins, Arthrogryposis genetics, Heart Defects, Congenital complications, Cardiomyopathies etiology, Cardiomyopathy, Dilated complications, Muscular Diseases complications, Cardiomyopathy, Hypertrophic complications

Abstract

Contraction of the human sarcomere is the result of interactions between myosin cross-bridges and actin filaments. Pathogenic variants in genes such as MYH7 , TPM1 , and TNNI3 that encode parts of the cardiac sarcomere cause muscle diseases that affect the heart, such as dilated cardiomyopathy and hypertrophic cardiomyopathy. In contrast, pathogenic variants in homologous genes such as MYH2 , TPM2 , and TNNI2 that encode parts of the skeletal muscle sarcomere cause muscle diseases affecting skeletal muscle, such as distal arthrogryposis (DA) syndromes and skeletal myopathies. To date, there have been few reports of genes (e.g., MYH7 ) encoding sarcomeric proteins in which the same pathogenic variant affects skeletal and cardiac muscle. Moreover, none of the known genes underlying DA have been found to contain pathogenic variants that also cause cardiac abnormalities. We report five families with DA because of heterozygous missense variants in the gene actin , alpha , cardiac muscle 1 ( ACTC1 ). ACTC1 encodes a highly conserved actin that binds to myosin in cardiac and skeletal muscle. Pathogenic variants in ACTC1 have been found previously to underlie atrial septal defect, dilated cardiomyopathy, hypertrophic cardiomyopathy, and left ventricular noncompaction. Our discovery delineates a new DA condition because of variants in ACTC1 and suggests that some functions of ACTC1 are shared in cardiac and skeletal muscle., Competing Interests: M.J.B. and J.X.C. are the Editor-in-Chief and Deputy Editor of HGG Advances, respectively, and were recused from the editorial handling of this manuscript., (© 2023 The Author(s).)

Published

2023

19. CNS tumor with BCOR internal tandem duplication.

Author

Hazrati LN, Monajemzadeh M, Habibi Z, Moeini B, and Safavi M

Subjects

Humans, Infant, Male, Biomarkers, Tumor genetics, Exons, Proto-Oncogene Proteins genetics, Repressor Proteins genetics, Central Nervous System Neoplasms genetics, Cysts

Abstract

CNS tumor with BCOR internal tandem duplication is a recently proposed malignant tumor. The patient was an 18-month-old boy with torticollis and vomiting due to cerebellar hemispheric mass with extension to cerebellopontine angle and foramen magnum. Histopathologic examination of the tumor showed a moderately cellular tumor with microcystic formation, myxoid change, and atypical rosettes resembling Homer Wright rosettes. Illumina TruSight RNA Pan-Cancer NGS of the tumor genome revealed BCOR gene exon 15 internal tandem duplications., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

20. Evidence of sex differences in cellular senescence.

Author

Ng M and Hazrati LN

Subjects

Animals, Female, Humans, Male, Senotherapeutics, Cellular Senescence genetics, Estrogens, Sex Characteristics, Neurodegenerative Diseases

Abstract

Biological sex is a factor in many conditions, including aging, neurodegenerative disease, cancer, and more. For each of these, men and women display distinct differences in disease development and progression. To date, studies on the molecular basis of such differences have largely focused on sex hormones, typically highlighting their neuroprotective benefits. However, new research suggests that cellular senescence may underlie sex differences in both neurological and non-neurological pathologies. Cellular senescence-stable proliferative arrest with a unique pro-inflammatory phenotype-occurs in response to persistent DNA damage signaling, safeguarding against tissue-level consequences of DNA damage (e.g., tumorigenesis). Though critical for maintaining tissue health, senescence has also been implicated in disease. Indeed, senescent cell accumulation occurs in multiple disease contexts, and the elimination of such cells (via senolytic therapies) alleviates associated disease hallmarks. If cell senescence is a driver of pathophysiology, sex differences in cellular senescence may underlie sex-specific disease outcomes. This review summarizes evidence of sex differences in cellular senescence-highlighting findings from both human and animal studies-and briefly discusses the potential relevance of sex chromosome epigenetics and mosaicism. Current studies show that female sex is associated with greater susceptibility to DNA damage and greater likelihood of senescence onset, despite additional evidence that estrogen protects against genotoxic insult and inhibits senescence regulatory proteins. Further studies on sex differences in cellular senescence are needed, both to verify whether findings from animal studies hold true in human contexts and to validate whether senescence manifests differently between men and women following comparable senescence-inducing stimuli., (Copyright © 2022. Published by Elsevier Inc.)

Published

2022

21. Ependymal cells and neurodegenerative disease: outcomes of compromised ependymal barrier function.

Author

Nelles DG and Hazrati LN

Abstract

Within the central nervous system, ependymal cells form critical components of the blood-cerebrospinal fluid barrier and the cerebrospinal fluid-brain barrier. These barriers provide biochemical, immunological and physical protection against the entry of molecules and foreign substances into the cerebrospinal fluid while also regulating cerebrospinal fluid dynamics, such as the composition, flow and removal of waste from the cerebrospinal fluid. Previous research has demonstrated that several neurodegenerative diseases, such as Alzheimer's disease and multiple sclerosis, display irregularities in ependymal cell function, morphology, gene expression and metabolism. Despite playing key roles in maintaining overall brain health, ependymal barriers are largely overlooked and understudied in the context of disease, thus limiting the development of novel diagnostic and treatment options. Therefore, this review explores the anatomical properties, functions and structures that define ependymal cells in the healthy brain, as well as the ways in which ependymal cell dysregulation manifests across several neurodegenerative diseases. Specifically, we will address potential mechanisms, causes and consequences of ependymal cell dysfunction and describe how compromising the integrity of ependymal barriers may initiate, contribute to, or drive widespread neurodegeneration in the brain., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2022

22. Neurons and glial cells acquire a senescent signature after repeated mild traumatic brain injury in a sex-dependent manner.

Author

Schwab N, Taskina D, Leung E, Innes BT, Bader GD, and Hazrati LN

Abstract

Mild traumatic brain injury (mTBI) is an important public health issue, as it can lead to long-term neurological symptoms and risk of neurodegenerative disease. The pathophysiological mechanisms driving this remain unclear, and currently there are no effective therapies for mTBI. In this study on repeated mTBI (rmTBI), we have induced three mild closed-skull injuries or sham procedures, separated by 24 h, in C57BL/6 mice. We show that rmTBI mice have prolonged righting reflexes and astrogliosis, with neurological impairment in the Morris water maze (MWM) and the light dark test. Cortical and hippocampal tissue analysis revealed DNA damage in the form of double-strand breaks, oxidative damage, and R-loops, markers of cellular senescence including p16 and p21, and signaling mediated by the cGAS-STING pathway. This study identified novel sex differences after rmTBI in mice. Although these markers were all increased by rmTBI in both sexes, females had higher levels of DNA damage, lower levels of the senescence protein p16, and lower levels of cGAS-STING signaling proteins compared to their male counterparts. Single-cell RNA sequencing of the male rmTBI mouse brain revealed activation of the DNA damage response, evidence of cellular senescence, and pro-inflammatory markers reminiscent of the senescence-associated secretory phenotype (SASP) in neurons and glial cells. Cell-type specific changes were also present with evidence of brain immune activation, neurotransmission alterations in both excitatory and inhibitory neurons, and vascular dysfunction. Treatment of injured mice with the senolytic drug ABT263 significantly reduced markers of senescence only in males, but was not therapeutic in females. The reduction of senescence by ABT263 in male mice was accompanied by significantly improved performance in the MWM. This study provides compelling evidence that senescence contributes to brain dysfunction after rmTBI, but may do so in a sex-dependent manner., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Schwab, Taskina, Leung, Innes, Bader and Hazrati.)

Published

2022

23. Investigating the use of plasma pTau181 in retired contact sports athletes.

Author

Vasilevskaya A, Taghdiri F, Multani N, Ozzoude M, Tarazi A, Khodadadi M, Wennberg R, Rusjan P, Houle S, Green R, Colella B, Blennow K, Zetterberg H, Karikari T, Mikulis D, Hazrati LN, Kovacs GG, Davis KD, Tator C, and Tartaglia MC

Subjects

Athletes, Humans, Plasma, tau Proteins, Athletic Injuries complications, Athletic Injuries diagnostic imaging, Brain Concussion complications, Brain Concussion diagnostic imaging, White Matter diagnostic imaging

Abstract

Background: Considering the wide range of outcomes following sport-related concussions, biomarkers are needed to detect underlying pathological changes. The objective was to analyze the use of plasma phosphorylated tau 181 (pTau181) as a non-invasive measure of underlying brain changes in a cohort of retired contact sports athletes at risk of neurodegeneration., Methods: Fifty-four retired contact sport athletes and 27 healthy controls whose blood plasma was analyzed for pTau181 were included. A portion (N = 21) of retired athletes had a 2-years follow-up visit. All participants had completed a neuropsychological battery and MRI imaging., Results: Plasma pTau181 was significantly higher in retired athletes compared to healthy controls (8.94 ± 5.08 pg/mL vs. 6.00 ± 2.53 pg/mL, respectively; 95% BCa CI 1.38-4.62; p = 0.02); and was significantly associated with fornix fractional anisotropy values only in the athletes group (β = - 0.002; 95% BCa CI - 0.003 to - 0.001; p = 0.002). When the retired athletes cohort was divided into high vs. normal pTau181 groups, the corpus callosum (CC) volume and white-matter integrity was significantly lower in high pTau181 compared to older healthy controls (CC volume: 1.57 ± 0.19 vs. 2.02 ± 0.32, p = 0.002; CC medial diffusivity: 0.96 ± 0.04 × 10 -3 mm 2 /s vs. 0.90 ± 0.03 × 10 -3 mm 2 /s, p = 0.003; CC axial diffusivity: 1.49 ± 0.04 × 10 -3 mm 2 /s vs. 1.41 ± 0.02 × 10 -3 mm 2 /s, p < 0.001, respectively)., Conclusions: Although high plasma pTau181 levels were associated with abnormalities in CC and fornix, baseline pTau181 did not predict longitudinal changes in regional brain volumes or white-matter integrity in the athletes. pTau181 may be useful for identifying those with brain abnormalities related to repeated concussion but not for predicting progression., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.)

Published

2022

24. Bitot-like spots in children with normal vitamin A levels.

Author

Maudgil A, Rachdan D, Khan MS, Siddiqui A, Hazrati LN, Richards MD, Najm-Tehrani N, and Ali A

Subjects

Anterior Eye Segment, Child, Humans, Vitamin A, Eye Abnormalities complications, Eye Diseases, Hereditary, Vitamin A Deficiency complications

Abstract

Background/aims: A Bitot spot is a conjunctival lesion, classically associated with severe vitamin A deficiency. In this paediatric series, we describe conjunctival lesions indistinguishable from Bitot spots, seen in the presence of normal vitamin A levels., Methods: This descriptive case series was performed by retrospective review of case notes, including all patients with Bitot-like spots found to have normal serum vitamin A levels, seen at the Hospital for Sick Children, Toronto, between 2006 and 2016. Data collected included age at presentation, ophthalmic and systemic diagnoses, and the presence of recognised genetic mutations. Histopathology was reviewed in one case., Results: Ten patients with Bitot-like spots with laboratory-confirmed normal serum vitamin A levels were identified. The conjunctival lesions were indistinguishable clinically and histopathologically from classic Bitot spots and were noted to occur in a range of anterior segment pathologies, including aniridia, WAGR syndrome, Axenfeld-Rieger syndrome, and blepharokeratoconjunctivitis., Conclusions: Bitot-like spots are found in children with a number of anterior segment pathologies in the absence of vitamin A deficiency., (© 2021. The Author(s), under exclusive licence to The Royal College of Ophthalmologists.)

Published

2022

25. Detection of astrocytic tau pathology facilitates recognition of chronic traumatic encephalopathy neuropathologic change.

Author

Ameen-Ali KE, Bretzin A, Lee EB, Folkerth R, Hazrati LN, Iacono D, Keene CD, Kofler J, Kovacs GG, Nolan A, Perl DP, Priemer DS, Smith DH, Wiebe DJ, and Stewart W

Subjects

Astrocytes pathology, Brain pathology, Humans, Neuropathology, tau Proteins metabolism, Alzheimer Disease diagnosis, Alzheimer Disease pathology, Brain Injuries, Traumatic pathology, Chronic Traumatic Encephalopathy diagnosis, Chronic Traumatic Encephalopathy pathology

Abstract

Traumatic brain injury (TBI) is associated with the development of a range of neurodegenerative pathologies, including chronic traumatic encephalopathy (CTE). Current consensus diagnostic criteria define the pathognomonic cortical lesion of CTE neuropathologic change (CTE-NC) as a patchy deposition of hyperphosphorylated tau in neurons, with or without glial tau in thorn-shaped astrocytes, typically towards the depths of sulci and clustered around small blood vessels. Nevertheless, although incorporated into consensus diagnostic criteria, the contribution of the individual cellular components to identification of CTE-NC has not been formally evaluated. To address this, from the Glasgow TBI Archive, cortical tissue blocks were selected from consecutive brain donations from contact sports athletes in which there was known to be either CTE-NC (n = 12) or Alzheimer's disease neuropathologic change  (n = 4). From these tissue blocks, adjacent tissue sections were stained for tau antibodies selected to reveal either solely neuronal pathology (3R tau; GT-38) or mixed neuronal and astroglial pathologies (4R tau; PHF-1). These stained sections were then randomised and independently assessed by a panel of expert neuropathologists, blind to patient clinical history and primary antibody applied to each section, who were asked to record whether CTE-NC was present. Results demonstrate that, in sections stained for either 4R tau or PHF-1, consensus recognition of CTE-NC was high. In contrast, recognition of CTE-NC in sections stained for 3R tau or GT-38 was poor; in the former no better than chance. Our observations demonstrate that the presence of both neuronal and astroglial tau pathologies facilitates detection of CTE-NC, with its detection less consistent when neuronal tau pathology alone is visible. The combination of both glial and neuronal pathologies, therefore, may be required for detection of CTE-NC., (© 2022. The Author(s).)

Published

2022

26. Temporal patterns of microglial activation in white matter following experimental mild traumatic brain injury: a systematic literature review.

Author

Velayudhan PS, Schwab N, Hazrati LN, and Wheeler AL

Subjects

Animals, Time Factors, Brain Concussion immunology, Microglia immunology, White Matter immunology

Abstract

Mild traumatic brain injuries (mTBIs) are a prevalent form of injury that can result in persistent neurological impairments. Microglial activation has become increasingly recognized as a key process regulating the pathology of white matter in a wide range of brain injury and disease contexts. As white matter damage is known to be a major contributor to the impairments that follow mTBI, microglia have rightfully become a common target of investigation for the development of mTBI therapies and biomarkers. Recent work has demonstrated that the efficacy of microglial manipulation as a therapeutic intervention following injury or disease is highly time-sensitive, emphasizing the importance of advancing our understanding of the dynamics of post-mTBI microglial activation from onset to resolution. Current reporting of microglial activation in experimental studies of mTBI is non-standardized, which has limited our ability to identify concrete patterns of post-mTBI microglial activation over time. In this review, we examine preclinical studies of mTBI that report on microglial activation in white matter regions to summarize our current understanding of these patterns. Specifically, we summarize timecourses of post-mTBI microglial activation in white matter regions of the brain, identify factors that influence this activation, examine the temporal relationship between microglial activation and other post-mTBI assessments, and compare the relative sensitivities of various methods for detecting microglial activation. While the lack of replicated experimental conditions has limited the extent of conclusions that can confidently be drawn, we find that microglia are activated over a wide range of timecourses following mTBI and that microglial activation is a long-lasting outcome of mTBI that may resolve after most typical post-mTBI assessments, with the exception of those measuring oligodendrocyte lineage cell integrity. We identify several understudied parameters of post-mTBI microglial activation in white matter, such as the inclusion of female subjects. This review summarizes our current understanding of the progression of microglial activation in white matter structures following experimental mTBI and offers suggestions for important future research directions., (© 2021. The Author(s).)

Published

2021

27. Management of Inoperable Supra-Sellar Low-Grade Glioma With BRAF Mutation in Young Children.

Author

Howden K, Chapman S, Serletis D, Kazina C, Rafay MF, Faury D, Hazrati LN, Jabado N, and Vanan MI

Abstract

Pediatric low-grade gliomas (PLGGs) are the most common central nervous system (CNS) tumors in children. The current standard of care for surgically unresectable and/or progressive cases of PLGGs includes combination chemotherapy. PLGGs are molecularly characterized by alterations in the RAS/RAF/MAPK/ERK pathway in a majority of tumors. PLGGs harboring the BRAF-V600E mutation respond poorly to current chemotherapy strategies. We present a case of a two-year-old female with biopsy-proven low-grade glioma (LGG, pilocytic astrocytoma) involving the hypothalamic/optic chiasm region. At presentation, she had obstructive hydrocephalus, bitemporal hemianopia, central hypothyroidism, and right-sided hemiparesis due to the location/mass effect of the tumor. She was initially treated with chemotherapy (vincristine/carboplatin), but her tumor progressed at six weeks of treatment. She was subsequently started on dabrafenib as her tumor was positive for BRAF-V600E mutation. Dabrafenib monotherapy resulted in dramatic improvement in her clinical symptoms and near-complete resolution of tumor. Our experience and review of the literature suggest that LGGs with BRAF-V600E mutations may benefit from upfront targeted therapy in children. There is an urgent need for prospective clinical trials comparing the efficacy of upfront BRAF inhibitors versus standard chemotherapy in PLGGs with BRAF mutations., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2021, Howden et al.)

Published

2021

28. Paediatric atypical choroid plexus papilloma: is adjuvant therapy necessary?

Author

Browne-Farmer C, Hazrati LN, Mamatjan Y, Zadeh G, Dirks P, Rutka J, Malkin D, Bouffet E, Huang A, Tabori U, Ramaswamy V, and Bartels U

Subjects

Carcinoma, Child, Choroid Plexus, Choroid Plexus Neoplasms diagnostic imaging, Choroid Plexus Neoplasms therapy, Glioma, Humans, Retrospective Studies, Supratentorial Neoplasms, Papilloma, Choroid Plexus diagnostic imaging, Papilloma, Choroid Plexus therapy

Abstract

Introduction: Choroid Plexus Tumours (CPTs) account for 1-4% of all brain tumours in children. Atypical choroid plexus papillomas (aCPPs) are a subset of these tumours, defined over a decade ago, yet no consensus exists on the optimal approach to their management., Methods: We conducted a retrospective analysis of all patients treated for CPTs at the Hospital for Sick Children between January 1, 2000, and December 31, 2018, and focused on patients with aCPP. Data extracted from the patient records for analysis included: demographic and clinical features, radiological imaging, surgical and adjuvant therapies, key pathological features, immunohistochemical staining for TP53 and tumour karyotype. Six of seven aCPP samples were profiled using Illumina HumanMethylationEPIC arrays and the top 10,000 most variably methylated probes were visualized using tSNE. Copy number inferencing was also performed., Results: Twenty-nine patients were diagnosed with CPT, seven of whom had a diagnosis of aCPP as confirmed by histological review. Methylation profiling demonstrated that aCPPs clustered with both choroid plexus papillomas (CPPs) and choroid plexus carcinomas (CPCs). Complete resection of the tumour was pursued in all cases of aCPP and no patient received adjuvant therapy. All aCPP patients were alive at last follow up., Conclusions: This limited case series suggests that paediatric aCPP can be successfully managed with surgical resection alone, followed by a 'watch and wait' approach thus avoiding adjuvant therapies. A deeper understanding of the biology of aCPP is required to identify objective markers which can help provide robust risk stratification and inform treatment strategies., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2021

29. Cellular Senescence in Traumatic Brain Injury: Evidence and Perspectives.

Author

Schwab N, Leung E, and Hazrati LN

Abstract

Mild traumatic brain injury (mTBI) can lead to long-term neurological dysfunction and increase one's risk of neurodegenerative disease. Several repercussions of mTBI have been identified and well-studied, including neuroinflammation, gliosis, microgliosis, excitotoxicity, and proteinopathy - however the pathophysiological mechanisms activating these pathways after mTBI remains controversial and unclear. Emerging research suggests DNA damage-induced cellular senescence as a possible driver of mTBI-related sequalae. Cellular senescence is a state of chronic cell-cycle arrest and inflammation associated with physiological aging, mood disorders, dementia, and various neurodegenerative pathologies. This narrative review evaluates the existing studies which identify DNA damage or cellular senescence after TBI (including mild, moderate, and severe TBI) in both experimental animal models and human studies, and outlines how cellular senescence may functionally explain both the molecular and clinical manifestations of TBI. Studies on this subject clearly show accumulation of various forms of DNA damage (including oxidative damage, single-strand breaks, and double-strand breaks) and senescent cells after TBI, and indicate that cellular senescence may be an early event after TBI. Further studies are required to understand the role of sex, cell-type specific mechanisms, and temporal patterns, as senescence may be a pathway of interest to target for therapeutic purposes including prognosis and treatment., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Schwab, Leung and Hazrati.)

Published

2021

30. Author Response: Association of Position Played and Career Duration and Chronic Traumatic Encephalopathy at Autopsy in Elite Football and Hockey Players.

Author

Wennberg R, Schwab N, and Hazrati LN

Subjects

Athletes, Autopsy, Humans, Chronic Traumatic Encephalopathy, Football, Hockey, Soccer

Published

2021

31. Breast cancer type 1 and neurodegeneration: consequences of deficient DNA repair.

Author

Leung E and Hazrati LN

Abstract

Numerous cellular processes, including toxic protein aggregation and oxidative stress, have been studied extensively as potential mechanisms underlying neurodegeneration. However, limited therapeutic efficacy targeting these processes has prompted other mechanisms to be explored. Previous research has emphasized a link between cellular senescence and neurodegeneration, where senescence induced by excess DNA damage and deficient DNA repair results in structural and functional changes that ultimately contribute to brain dysfunction and increased vulnerability for neurodegeneration. Specific DNA repair proteins, such as breast cancer type 1, have been associated with both stress-induced senescence and neurodegenerative diseases, however, specific mechanisms remain unclear. Therefore, this review explores DNA damage-induced senescence in the brain as a driver of neurodegeneration, with particular focus on breast cancer type 1, and its potential contribution to sex-specific differences associated with neurodegenerative disease., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2021

32. Early onset senescence and cognitive impairment in a murine model of repeated mTBI.

Author

Schwab N, Ju Y, and Hazrati LN

Subjects

Age of Onset, Aging genetics, Aging psychology, Animals, Brain Concussion genetics, Brain Concussion psychology, Cognitive Dysfunction genetics, Cognitive Dysfunction psychology, Male, Maze Learning physiology, Mice, Mice, Inbred C57BL, Aging pathology, Brain Concussion pathology, Cognitive Dysfunction pathology, DNA Damage physiology, Disease Models, Animal

Abstract

Mild traumatic brain injury (mTBI) results in broad neurological symptoms and an increased risk of being diagnosed with a neurodegenerative disease later in life. While the immediate oxidative stress response and post-mortem pathology of the injured brain has been well studied, it remains unclear how early pathogenic changes may drive persistent symptoms and confer susceptibility to neurodegeneration. In this study we have used a mouse model of repeated mTBI (rmTBI) to identify early gene expression changes at 24 h or 7 days post-injury (7 dpi). At 24 h post-injury, gene expression of rmTBI mice shows activation of the DNA damage response (DDR) towards double strand DNA breaks, altered calcium and cell-cell signalling, and inhibition of cell death pathways. By 7 dpi, rmTBI mice had a gene expression signature consistent with induction of cellular senescence, activation of neurodegenerative processes, and inhibition of the DDR. At both timepoints gliosis, microgliosis, and axonal damage were evident in the absence of any gross lesion, and by 7 dpi rmTBI also mice had elevated levels of IL1β, p21, 53BP1, DNA2, and p53, supportive of DNA damage-induced cellular senescence. These gene expression changes reflect establishment of processes usually linked to brain aging and suggests that cellular senescence occurs early and most likely prior to the accumulation of toxic proteins. These molecular changes were accompanied by spatial learning and memory deficits in the Morris water maze. To conclude, we have identified DNA damage-induced cellular senescence as a repercussion of repeated mild traumatic brain injury which correlates with cognitive impairment. Pathways involved in senescence may represent viable treatment targets of post-concussive syndrome. Senescence has been proposed to promote neurodegeneration and appears as an effective target to prevent long-term complications of mTBI, such as chronic traumatic encephalopathy and other related neurodegenerative pathologies.

Published

2021

33. Embracing the Unknown in the Diagnosis of Traumatic Encephalopathy Syndrome.

Author

Hazrati LN and Schwab N

Subjects

Consensus, Humans, National Institute of Neurological Disorders and Stroke (U.S.), United States, Alzheimer Disease, Brain Injuries, Traumatic, Chronic Traumatic Encephalopathy

Published

2021

34. Association of Position Played and Career Duration and Chronic Traumatic Encephalopathy at Autopsy in Elite Football and Hockey Players.

Author

Schwab N, Wennberg R, Grenier K, Tartaglia C, Tator C, and Hazrati LN

Subjects

Aged, Athletes, Autopsy, Canada, Chronic Traumatic Encephalopathy pathology, Cohort Studies, Humans, Male, Middle Aged, Retrospective Studies, Time Factors, Chronic Traumatic Encephalopathy etiology, Football injuries, Hockey injuries

Abstract

Objective: To determine whether an association exists between career duration or position played and the presence of chronic traumatic encephalopathy (CTE) at autopsy in a series of elite football and hockey players., Methods: This retrospective cohort study analyzed postmortem brains of 35 former football or hockey players (29 professional, 6 university varsity/major junior), with the presence of CTE at autopsy as the primary outcome. Position played (highest level), age at retirement (indicator of lifetime exposure to sport), and hockey fighting/penalization histories (surrogate marker for role/style of play) were collected. A blinded neuropathologic evaluation of each participant was performed, providing an assessment for neurodegenerative diseases including CTE, based on the 2015 National Institute of Neurological Disorders and Stroke/National Institute of Biomedical Imaging and Bioengineeringconsensus paper., Results: In total, 17 of 35 former players (48.6%) showed pathologic evidence of CTE. There was no correlation found between position played and CTE presence, nor between hockey fighting/penalization histories and CTE, in either the football or hockey groups ( p > 0.75, Mann-Whitney-Wilcoxon). Similarly, there was no association between age at retirement and CTE presence ( p > 0.5, Mann-Whitney-Wilcoxon). In 24 of 35 cases (68.6%), other neuropathologies were present, 13 of 24 (54.2%) of which were coexistent with CTE., Conclusion: In this cohort of 35 former collision sports athletes, no significant associations were found between career duration, position or role played, and CTE presence at autopsy. Although limited by the small and nonrepresentative sample studied, these findings suggest that nonsport factors may be important to understand differing susceptibilities among athletes to CTE., (Copyright © 2021 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2021

35. COllaborative Neuropathology NEtwork Characterizing ouTcomes of TBI (CONNECT-TBI).

Author

Smith DH, Dollé JP, Ameen-Ali KE, Bretzin A, Cortes E, Crary JF, Dams-O'Connor K, Diaz-Arrastia R, Edlow BL, Folkerth R, Hazrati LN, Hinds SR, Iacono D, Johnson VE, Keene CD, Kofler J, Kovacs GG, Lee EB, Manley G, Meaney D, Montine T, Okonkwo DO, Perl DP, Trojanowski JQ, Wiebe DJ, Yaffe K, McCabe T, and Stewart W

Subjects

Aged, Athletes, Athletic Injuries complications, Athletic Injuries pathology, Autopsy, Brain pathology, Dementia etiology, Dementia pathology, Disease Progression, Humans, Male, Neurodegenerative Diseases etiology, Neurodegenerative Diseases pathology, Neuropathology trends, Tissue Banks trends, Chronic Traumatic Encephalopathy pathology, Information Services, Neuropathology organization & administration, Tissue Banks organization & administration

Abstract

Efforts to characterize the late effects of traumatic brain injury (TBI) have been in progress for some time. In recent years much of this activity has been directed towards reporting of chronic traumatic encephalopathy (CTE) in former contact sports athletes and others exposed to repetitive head impacts. However, the association between TBI and dementia risk has long been acknowledged outside of contact sports. Further, growing experience suggests a complex of neurodegenerative pathologies in those surviving TBI, which extends beyond CTE. Nevertheless, despite extensive research, we have scant knowledge of the mechanisms underlying TBI-related neurodegeneration (TReND) and its link to dementia. In part, this is due to the limited number of human brain samples linked to robust demographic and clinical information available for research. Here we detail a National Institutes for Neurological Disease and Stroke Center Without Walls project, the COllaborative Neuropathology NEtwork Characterizing ouTcomes of TBI (CONNECT-TBI), designed to address current limitations in tissue and research access and to advance understanding of the neuropathologies of TReND. As an international, multidisciplinary collaboration CONNECT-TBI brings together multiple experts across 13 institutions. In so doing, CONNECT-TBI unites the existing, comprehensive clinical and neuropathological datasets of multiple established research brain archives in TBI, with survivals ranging minutes to many decades and spanning diverse injury exposures. These existing tissue specimens will be supplemented by prospective brain banking and contribute to a centralized route of access to human tissue for research for investigators. Importantly, each new case will be subject to consensus neuropathology review by the CONNECT-TBI Expert Pathology Group. Herein we set out the CONNECT-TBI program structure and aims and, by way of an illustrative case, the approach to consensus evaluation of new case donations.

Published

2021

36. FLVCR1-related disease as a rare cause of retinitis pigmentosa and hereditary sensory autonomic neuropathy.

Author

Grudzinska Pechhacker MK, Yoon G, Hazrati LN, Maynes J, MacDonald H, Tavares E, Vincent A, and Heon E

Subjects

Demyelinating Diseases pathology, Female, Hereditary Sensory and Autonomic Neuropathies pathology, Humans, Membrane Transport Proteins chemistry, Mutation, Phenotype, Protein Domains, Receptors, Virus chemistry, Retinitis Pigmentosa pathology, Young Adult, Demyelinating Diseases genetics, Hereditary Sensory and Autonomic Neuropathies genetics, Membrane Transport Proteins genetics, Receptors, Virus genetics, Retinitis Pigmentosa genetics

Abstract

FLVCR1 encodes for a transmembrane heme exporter protein and it is known to cause a rare form of syndromic retinitis pigmentosa: posterior column ataxia with retinitis pigmentosa. Recently, the FLVCR1-associated phenotype has been expanded with sporadic reports of hereditary sensory-autonomic neuropathy or non-syndromic retinitis pigmentosa. Here, we report a 23-year- old female with early onset hypomyelinating sensory-autonomic neuropathy and retinitis pigmentosa. Both features were present since childhood. The patient developed signs of advanced retinitis pigmentosa by the age of 10 years leading to legal blindness after the age of 18. Following candidate gene panel testing, which was negative, whole exome sequencing revealed compound heterozygous pathogenic FLVCR1 variants: NM&#95;014053.3: c.3G > T; p.(Met1?) and NM&#95;014053.3: c.730G > A; p.(Gly244Ser), the latter variant is novel. In this report we highlight the association of retinitis pigmentosa with hypomyelinating sensory-autonomic neuropathy, which could be underdiagnosed due to variable severity. To summarize, the phenotypic heterogeneity of FLVCR1 variants is broad and should include retinitis pigmentosa along with range of neurological features., (Copyright © 2020. Published by Elsevier Masson SAS.)

Published

2020

37. Clinical impact of combined epigenetic and molecular analysis of pediatric low-grade gliomas.

Author

Fukuoka K, Mamatjan Y, Tatevossian R, Zapotocky M, Ryall S, Stucklin AG, Bennett J, Nobre LF, Arnoldo A, Luu B, Wen J, Zhu K, Leon A, Torti D, Pugh TJ, Hazrati LN, Laperriere N, Drake J, Rutka JT, Dirks P, Kulkarni AV, Taylor MD, Bartels U, Huang A, Zadeh G, Aldape K, Ramaswamy V, Bouffet E, Snuderl M, Ellison D, Hawkins C, and Tabori U

Subjects

Child, Epigenesis, Genetic, Epigenomics, Humans, Mutation, Astrocytoma, Brain Neoplasms genetics, Glioma genetics

Abstract

Background: Both genetic and methylation analysis have been shown to provide insight into the diagnosis and prognosis of many brain tumors. However, the implication of methylation profiling and its interaction with genetic alterations in pediatric low-grade gliomas (PLGGs) are unclear., Methods: We performed a comprehensive analysis of PLGG with long-term clinical follow-up. In total 152 PLGGs were analyzed from a range of pathological subtypes, including 40 gangliogliomas. Complete molecular analysis was compared with genome-wide methylation data and outcome in all patients. For further analysis of specific PLGG groups, including BRAF p.V600E mutant gliomas, we compiled an additional cohort of clinically and genetically defined tumors from 3 large centers., Results: Unsupervised hierarchical clustering revealed 5 novel subgroups of PLGG. These were dominated by nonneoplastic factors such as tumor location and lymphocytic infiltration. Midline PLGG clustered together while deep hemispheric lesions differed from lesions in the periphery. Mutations were distributed throughout these location-driven clusters of PLGG. A novel methylation cluster suggesting high lymphocyte infiltration was confirmed pathologically and exhibited worse progression-free survival compared with PLGG harboring similar molecular alterations (P = 0.008; multivariate analysis: P = 0.035). Although the current methylation classifier revealed low confidence in 44% of cases and failed to add information in most PLGG, it was helpful in reclassifying rare cases. The addition of histopathological and molecular information to specific methylation subgroups such as pleomorphic xanthoastrocytoma-like tumors could stratify these tumors into low and high risk (P = 0.0014)., Conclusion: The PLGG methylome is affected by multiple nonneoplastic factors. Combined molecular and pathological analysis is key to provide additional information when methylation classification is used for PLGG in the clinical setting., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Neuro-Oncology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

38. Outcomes of BRAF V600E Pediatric Gliomas Treated With Targeted BRAF Inhibition.

Author

Nobre L, Zapotocky M, Ramaswamy V, Ryall S, Bennett J, Alderete D, Balaguer Guill J, Baroni L, Bartels U, Bavle A, Bornhorst M, Boue DR, Canete A, Chintagumpala M, Coven SL, Cruz O, Dahiya S, Dirks P, Dunkel IJ, Eisenstat D, Faure Conter C, Finch E, Finlay JL, Frappaz D, Garre ML, Gauvain K, Bechensteen AG, Hansford JR, Harting I, Hauser P, Hazrati LN, Huang A, Injac SG, Iurilli V, Karajannis M, Kaur G, Kyncl M, Krskova L, Laperriere N, Larouche V, Lassaletta A, Leary S, Lin F, Mascelli S, McKeown T, Milde T, Morales La Madrid A, Morana G, Morse H, Mushtaq N, Osorio DS, Packer R, Pavelka Z, Quiroga-Cantero E, Rutka J, Sabel M, Salgado D, Solano P, Sterba J, Su J, Sumerauer D, Taylor MD, Toledano H, Tsang DS, Valente Fernandes M, van Landeghem F, van Tilburg CM, Wilson B, Witt O, Zamecnik J, Bouffet E, Hawkins C, and Tabori U

Abstract

Purpose: Children with pediatric gliomas harboring a BRAF V600E mutation have poor outcomes with current chemoradiotherapy strategies. Our aim was to study the role of targeted BRAF inhibition in these tumors., Patients and Methods: We collected clinical, imaging, molecular, and outcome information from patients with BRAF V600E-mutated glioma treated with BRAF inhibition across 29 centers from multiple countries., Results: Sixty-seven patients were treated with BRAF inhibition (pediatric low-grade gliomas [PLGGs], n = 56; pediatric high-grade gliomas [PHGGs], n = 11) for up to 5.6 years. Objective responses were observed in 80% of PLGGs, compared with 28% observed with conventional chemotherapy ( P < .001). These responses were rapid (median, 4 months) and sustained in 86% of tumors up to 5 years while receiving therapy. After discontinuation of BRAF inhibition, 76.5% (13 of 17) of patients with PLGG experienced rapid progression (median, 2.3 months). However, upon rechallenge with BRAF inhibition, 90% achieved an objective response. Poor prognostic factors in conventional therapies, such as concomitant homozygous deletion of CDKN2A , were not associated with lack of response to BRAF inhibition. In contrast, only 36% of those with PHGG responded to BRAF inhibition, with all but one tumor progressing within 18 months. In PLGG, responses translated to 3-year progression-free survival of 49.6% (95% CI, 35.3% to 69.5%) versus 29.8% (95% CI, 20% to 44.4%) for BRAF inhibition versus chemotherapy, respectively ( P = .02)., Conclusion: Use of BRAF inhibition results in robust and durable responses in BRAF V600E-mutated PLGG. Prospective studies are required to determine long-term survival and functional outcomes with BRAF inhibitor therapy in childhood gliomas., Competing Interests: The following represents disclosure information provided by authors of this manuscript. All relationships are considered compensated unless otherwise noted. Relationships are self-held unless noted. I = Immediate Family Member, Inst = My Institution. Relationships may not relate to the subject matter of this manuscript. For more information about ASCO's conflict of interest policy, please refer to www.asco.org/rwc or ascopubs.org/po/author-center. Open Payments is a public database containing information reported by companies about payments made to US-licensed physicians (Open Payments). Vijay RamaswamyHonoraria: AstraZenecaMiriam BornhorstConsulting or Advisory Role: AstraZeneca/MedImmuneDaniel R. BoueStock and Other Ownership Interests: Vertex Pharmaceuticals, Intuitive Surgical, IlluminaAdela CaneteConsulting or Advisory Role: EUSA Pharma, Bayer Speakers’ Bureau: EUSA PHarma Research Funding: EUSA Pharma (Inst) Travel, Accommodations, Expenses: EUSA PharmaIra J. DunkelConsulting or Advisory Role: Bayer, Apexigen, Celgene, Roche/Genentech, AstraZeneca Research Funding: Bristol-Myers Squibb (Inst), Genentech (Inst), Novartis (Inst)Karen GauvainEmployment: Iqvia Biotech Consulting or Advisory Role: Bayer, Axiom Health Care SciencesJordan R. HansfordConsulting or Advisory Role: BayerSarah G. InjacResearch Funding: TakedaMatthias KarajannisConsulting or Advisory Role: Bayer, Recursion Pharma Research Funding: Novartis Travel, Accommodations, Expenses: Bayer Uncompensated Relationships: Debiopharm (Inst) Open Payments Link: https://openpaymentsdata.cms.gov/physician/710370/summaryNormand LaperriereHonoraria: Merck/Schering Plough Consulting or Advisory Role: AbbVieAlvaro LassalettaConsulting or Advisory Role: Shire, Jazz Pharmaceuticals, Roche Travel, Accommodations, Expenses: Shire, Gilead SciencesRoger PackerHonoraria: Novartis Consulting or Advisory Role: Novartis, AstraZenecaJaroslav SterbaResearch Funding: Roche/Genentech (Inst) Travel, Accommodations, Expenses: Bristol-Myers SquibbDerek S. TsangOther Relationship: Varian Medical Systems (Inst), Mevion Medical Systems (Inst), Hitachi (Inst), RaySearch Laboratories (Inst), IBA (Inst), ProTom (Inst)Cornelis M. van TilburgConsulting or Advisory Role: Novartis, BayerOlaf WittConsulting or Advisory Role: Novartis, AstraZeneca, Janssen Research & Development, Bristol-Myers Squibb, Roche, BayerEric BouffetResearch Funding: Roche (Inst), Bristol-Myers Squibb (Inst)Cynthia HawkinsConsulting or Advisory Role: Bayer Patents, Royalties, Other Intellectual Property: IP for low-grade glioma and sarcoma fusion panels as well as medulloblastoma subgrouping panel No other potential conflicts of interest were reported., (© 2020 by American Society of Clinical Oncology.)

Published

2020

39. BRAF V600E mutant oligodendroglioma-like tumors with chromosomal instability in adolescents and young adults.

Author

Fukuoka K, Mamatjan Y, Ryall S, Komosa M, Bennett J, Zapotocky M, Keith J, Myrehaug S, Hazrati LN, Aldape K, Laperriere N, Bouffet E, Tabori U, and Hawkins C

Subjects

Adolescent, Adult, Brain Neoplasms pathology, Child, Female, Humans, Male, Oligodendroglioma pathology, Young Adult, Brain Neoplasms genetics, Chromosomal Instability, Mutation, Oligodendroglioma genetics, Proto-Oncogene Proteins B-raf genetics

Abstract

We performed genome-wide methylation analysis on 136 pediatric low-grade gliomas, identifying a unique cluster consisting of three tumors with oligodendroglioma-like histology, BRAF p.V600E mutations and recurrent whole chromosome gains of 7 and loss of 10. Morphologically, all showed similar features, including a diffusely infiltrative glioma composed of round nuclei with perinuclear halos, a chicken-wire pattern of branching capillaries and microcalcification. None showed astrocytic features or characteristics suggestive of high-grade tumors including necrosis or mitotic figures. All tumors harbored multiple chromosomal copy number abnormalities (>10 chromosomes altered), but none showed 1p/19q co-deletion or IDH1 p.R132H mutation. Hierarchical clustering and t-stochastic neighbor embedding analyses from DNA methylation data cluster them more closely to previously described pediatric-type low-grade gliomas and separate from adult gliomas. These tumors exhibit distinct clinical features; they are temporal lobe lesions occurring in adolescents and young adults with a prolonged history of seizures and all are alive with no recurrence (follow-up 3.2 to 13.2 years). We encountered another young adult case with quite similar pathological appearance and molecular status except for TERT promoter mutation. Although the series is small, these may represent a new category of IDH wild-type low-grade gliomas which may be confused with "molecular GBM." Further, they highlight the heterogeneity of IDH wild-type gliomas and the relatively indolent behavior of "pediatric-type" gliomas., (© 2019 International Society of Neuropathology.)

Published

2020

40. Integrated Molecular and Clinical Analysis of 1,000 Pediatric Low-Grade Gliomas.

Author

Ryall S, Zapotocky M, Fukuoka K, Nobre L, Guerreiro Stucklin A, Bennett J, Siddaway R, Li C, Pajovic S, Arnoldo A, Kowalski PE, Johnson M, Sheth J, Lassaletta A, Tatevossian RG, Orisme W, Qaddoumi I, Surrey LF, Li MM, Waanders AJ, Gilheeney S, Rosenblum M, Bale T, Tsang DS, Laperriere N, Kulkarni A, Ibrahim GM, Drake J, Dirks P, Taylor MD, Rutka JT, Laughlin S, Shroff M, Shago M, Hazrati LN, D'Arcy C, Ramaswamy V, Bartels U, Huang A, Bouffet E, Karajannis MA, Santi M, Ellison DW, Tabori U, and Hawkins C

Subjects

Adolescent, Brain Neoplasms classification, Brain Neoplasms pathology, Child, Child, Preschool, Cohort Studies, Female, Gene Expression Profiling, Glioma classification, Glioma pathology, Humans, Infant, Infant, Newborn, Male, Mitogen-Activated Protein Kinases genetics, Neurofibromin 1 genetics, Oncogene Proteins, Fusion genetics, Proto-Oncogene Proteins B-raf genetics, ras Proteins genetics, Biomarkers, Tumor genetics, Brain Neoplasms genetics, DNA Copy Number Variations, Gene Expression Regulation, Neoplastic, Gene Rearrangement, Glioma genetics, Mutation

Abstract

Pediatric low-grade gliomas (pLGG) are frequently driven by genetic alterations in the RAS-mitogen-activated protein kinase (RAS/MAPK) pathway yet show unexplained variability in their clinical outcome. To address this, we characterized a cohort of >1,000 clinically annotated pLGG. Eighty-four percent of cases harbored a driver alteration, while those without an identified alteration also often exhibited upregulation of the RAS/MAPK pathway. pLGG could be broadly classified based on their alteration type. Rearrangement-driven tumors were diagnosed at a younger age, enriched for WHO grade I histology, infrequently progressed, and rarely resulted in death as compared with SNV-driven tumors. Further sub-classification of clinical-molecular correlates stratified pLGG into risk categories. These data highlight the biological and clinical differences between pLGG subtypes and opens avenues for future treatment refinement., Competing Interests: Declaration of Interests The authors declare no competing interests., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

41. Biallelic LINE insertion mutation in HACD1 causing congenital myopathy.

Author

Al Amrani F, Gorodetsky C, Hazrati LN, Amburgey K, Gonorazky HD, and Dowling JJ

Published

2020

42. Chronic traumatic encephalopathy neuropathology might not be inexorably progressive or unique to repetitive neurotrauma.

Author

Iverson GL, Gardner AJ, Shultz SR, Solomon GS, McCrory P, Zafonte R, Perry G, Hazrati LN, Keene CD, and Castellani RJ

Subjects

Brain Injuries complications, Chronic Traumatic Encephalopathy etiology, Disease Progression, Humans, Brain Injuries pathology, Chronic Traumatic Encephalopathy pathology

Abstract

In the 20th century, chronic traumatic encephalopathy (CTE) was conceptualized as a neurological disorder affecting some active and retired boxers who had tremendous exposure to neurotrauma. In recent years, the two research groups in the USA who have led the field have asserted definitively that CTE is a delayed-onset and progressive neurodegenerative disease, with symptoms appearing in midlife or decades after exposure. Between 2005 and 2012 autopsy cases of former boxers and American football players described neuropathology attributed to CTE that was broad and diverse. This pathology, resulting from multiple causes, was aggregated and referred to, in toto, as the pathology 'characteristic' of CTE. Preliminary consensus criteria for defining the neuropathology of CTE were forged in 2015 and published in 2016. Most of the macroscopic and microscopic neuropathological findings described as characteristic of CTE, in studies published before 2016, were not included in the new criteria for defining the pathology. In the past few years, there has been steadily emerging evidence that the neuropathology described as unique to CTE may not be unique. CTE pathology has been described in individuals with no known participation in collision or contact sports and no known exposure to repetitive neurotrauma. This pathology has been reported in individuals with substance abuse, temporal lobe epilepsy, amyotrophic lateral sclerosis, multiple system atrophy, and other neurodegenerative diseases. Moreover, throughout history, some clinical cases have been described as not being progressive, and there is now evidence that CTE neuropathology might not be progressive in some individuals. Considering the current state of knowledge, including the absence of a series of validated sensitive and specific biomarkers, CTE pathology might not be inexorably progressive or specific to those who have experienced repetitive neurotrauma., (© The Author(s) (2019). Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2019

43. DNA repair deficiency and senescence in concussed professional athletes involved in contact sports.

Author

Schwab N, Grenier K, and Hazrati LN

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Athletes, Athletic Injuries genetics, Brain Concussion genetics, DNA Repair-Deficiency Disorders genetics, Female, Humans, Male, Middle Aged, Sports physiology, Sports trends, Young Adult, Athletic Injuries pathology, Brain Concussion pathology, Cellular Senescence physiology, DNA Damage physiology, DNA Repair-Deficiency Disorders pathology

Abstract

Mild traumatic brain injury (mTBI) leads to diverse symptoms including mood disorders, cognitive decline, and behavioral changes. In some individuals, these symptoms become chronic and persist in the long-term and can confer an increased risk of neurodegenerative disease and dementia diagnosis later in life. Despite the severity of its consequences, the pathophysiological mechanism of mTBI remains unknown. In this post-mortem case series, we assessed DNA damage-induced cellular senescence pathways in 38 professional athletes with a history of repeated mTBI and ten controls with no mTBI history. We assessed clinical presentation, neuropathological changes, load of DNA damage, morphological markers of cellular senescence, and expression of genes involved in DNA damage signaling, DNA repair, and cellular senescence including the senescence-associated secretory phenotype (SASP). Twenty-eight brains with past history of repeated mTBI history had DNA damage within ependymal cells, astrocytes, and oligodendrocytes. DNA damage burden was increased in brains with proteinopathy compared to those without. Cases also showed hallmark features of cellular senescence in glial cells including astrocytic swelling, beading of glial cell processes, loss of H3K27Me3 (trimethylation at lysine 27 of histone H3) and lamin B1 expression, and increased expression of cellular senescence and SASP pathways. Neurons showed a spectrum of changes including loss of emerin nuclear membrane expression, loss of Brahma-related gene-1 (BRG1 or SMARCA4) expression, loss of myelin basic protein (MBP) axonal expression, and translocation of intranuclear tau to the cytoplasm. Expression of DNA repair proteins was decreased in mTBI brains. mTBI brains showed substantial evidence of DNA damage and cellular senescence. Decreased expression of DNA repair genes suggests inefficient DNA repair pathways in this cohort, conferring susceptibly to cellular senescence and subsequent brain dysfunction after mTBI. We therefore suggest that brains of contact-sports athletes are characterized by deficient DNA repair and DNA damage-induced cellular senescence and propose that this may affect neurons and be the driver of brain dysfunction in mTBI, predisposing the progression to neurodegenerative diseases. This study provides novel targets for diagnostic and prognostic biomarkers, and represents viable targets for future treatments.

Published

2019

44. Clinical Predictors at Diagnosis of Low-Risk Histopathology in Unilateral Advanced Retinoblastoma.

Author

Kletke SN, Feng ZX, Hazrati LN, Gallie BL, and Soliman SE

Subjects

Child, Preschool, Choroid pathology, Eye Enucleation, Female, Humans, Infant, Intraocular Pressure physiology, Magnetic Resonance Imaging, Male, Neoplasm Invasiveness, Neoplasm Metastasis, Neoplasm Seeding, Neoplasm Staging, Optic Nerve pathology, Retinal Detachment diagnosis, Retinal Neoplasms diagnostic imaging, Retinal Neoplasms surgery, Retinoblastoma diagnostic imaging, Retinoblastoma surgery, Retrospective Studies, Risk Factors, Tomography, Optical Coherence, Retinal Neoplasms pathology, Retinoblastoma pathology

Abstract

Purpose: Attempted eye salvage for unilateral (cT2b/group D) retinoblastoma may risk tumor spread compared with primary enucleation. Identification of clinical features predictive of low histopathologic risk support safe trial salvage., Design: Retrospective, noncomparative single-institutional observational case series., Participants: Children with unilateral cT2b/group D retinoblastoma managed with primary enucleation at the Hospital for Sick Children, Toronto, Canada, January 2008 through February 2018., Methods: Data included clinical features (intraocular pressure, optic nerve obscuration, macular involvement, tumor seeding, and serous retinal detachment [RD] >1 quadrant), timing to enucleation, histopathologic features, and follow-up., Main Outcome Measures: Primary outcome was low-risk (LR; pT1/pT2) versus high-risk (HR; pT3/pT4) histopathologic features with clinicopathologic correlations. Secondary outcomes were positive predictive (probability that certain clinical features would predict LR histopathologic features) and negative predictive values (probability that absence of these clinical features would predict HR histopathologic features)., Results: Thirty-eight eyes were eligible and showed vitreous seeding and normal intraocular pressure. The median diagnosis to enucleation interval was 4 days (range, 0-14 days). Histopathologic analysis diagnosed 4 (10.5%) HR and 34 (89.5%) LR eyes. High-risk eyes demonstrated massive choroidal invasion (4/38) or trans-scleral, extraocular, and postlaminar optic nerve invasion (1/38). Clinical findings included macular involvement (31/38), complete optic nerve obscuration (27/38), and RD (28/38). The proportion of eyes with HR histopathologic features was 13% (4/31; 95% confidence interval [CI], 1%-25%) with macular involvement, 15% (4/27; 95% CI, 1%-28%) with complete optic nerve obscuration, and 14% (4/28; 95% CI, 1%-27%) with RD. The predictability of LR histopathologic features was 100% with macular sparing (7/7; 95% CI, 47%-100%), optic nerve visibility (10/10; 95% CI, 63%-100%), and less than 1 quadrant of RD (10/10; 95% CI, 63%-100%). In 1 child lacking all 3 clinical LR predictive features with HR histopathologic features (pT3a), metastases developed and the patient died; other children are alive and well (mean follow-up, 65 months)., Conclusions: Presence of macular sparing, optic nerve visibility, less than 1 quadrant of RD, or a combination thereof predicted LR histopathologic features at primary enucleation, suggesting safe trial eye salvage. No clinical sign predicted HR histopathologic features., (Copyright © 2019 American Academy of Ophthalmology. All rights reserved.)

Published

2019

45. DNA damage as a marker of brain damage in individuals with history of concussions.

Author

Schwab N, Tator C, and Hazrati LN

Subjects

Adult, Aged, 80 and over, Biomarkers, Humans, Male, Brain pathology, Brain Concussion pathology, Chronic Traumatic Encephalopathy pathology, DNA Damage

Abstract

Mild traumatic brain injury (mTBI) is common in many populations, including athletes, veterans, and domestic abuse victims. mTBI can cause chronic symptoms, including depression, irritability, memory problems, and attention deficits. A history of repetitive mTBI has been epidemiologically associated with developing early-onset dementia and neurodegenerative diseases and, in particular, is thought to be the underlying cause of chronic traumatic encephalopathy (CTE)-a progressive tauopathy diagnosed by the presence of perivascular hyperphosphorylated tau protein (p-tau) in the depths of cortical sulci. However, the scarce and focal pathology often seen in CTE does not correlate with the severity of symptoms experienced by patients. This paper proposes accumulation of γH2AX, a marker of double-stranded DNA damage, as a novel pathological marker to identify brain damage post-mTBI. We present two cases of men with history of mTBI. Immunohistochemistry revealed extensive DNA damage throughout the frontal cortex, hippocampus, and brainstem areas. Furthermore, gene expression profiling showed increases of ataxia telangiectasia mutated (ATM) and checkpoint kinase 2 (CHEK2), two serine/threonine kinases recruited in response to double-strand breaks in the DNA damage response pathway. These cases highlight the complex pathophysiology of head trauma, and suggest DNA damage as the molecular mechanism behind mTBI-induced pathology and symptoms.

Published

2019

46. Treatment of rituximab-associated chronic CNS enterovirus using IVIg and fluoxetine.

Author

Sham L, Bitnun A, Branson H, Hazrati LN, Dell SD, Yeung RSM, Johnstone J, and Yeh EA

Subjects

Arteritis drug therapy, Brain diagnostic imaging, Child, Preschool, Encephalitis, Viral diagnostic imaging, Encephalitis, Viral etiology, Enterovirus isolation & purification, Humans, Magnetic Resonance Imaging, Male, Treatment Outcome, Encephalitis, Viral drug therapy, Fluoxetine therapeutic use, Immunoglobulins, Intravenous therapeutic use, Rituximab adverse effects

Published

2019

47. Synchrotron XRF imaging of Alzheimer's disease basal ganglia reveals linear dependence of high-field magnetic resonance microscopy on tissue iron concentration.

Author

Finnegan ME, Visanji NP, Romero-Canelon I, House E, Rajan S, Mosselmans JFW, Hazrati LN, Dobson J, and Collingwood JF

Subjects

Aged, Aged, 80 and over, Alzheimer Disease metabolism, Female, Humans, Image Processing, Computer-Assisted, Male, Optical Imaging instrumentation, Alzheimer Disease diagnostic imaging, Basal Ganglia chemistry, Iron analysis, Magnetic Resonance Imaging methods, Optical Imaging methods, Synchrotrons

Abstract

Background: Chemical imaging of the human brain has great potential for diagnostic and monitoring purposes. The heterogeneity of human brain iron distribution, and alterations to this distribution in Alzheimer's disease, indicate iron as a potential endogenous marker. The influence of iron on certain magnetic resonance imaging (MRI) parameters increases with magnetic field, but is under-explored in human brain tissues above 7 T., New Method: Magnetic resonance microscopy at 9.4 T is used to calculate parametric images of chemically-unfixed post-mortem tissue from Alzheimer's cases (n = 3) and healthy controls (n = 2). Iron-rich regions including caudate nucleus, putamen, globus pallidus and substantia nigra are analysed prior to imaging of total iron distribution with synchrotron X-ray fluorescence mapping. Iron fluorescence calibration is achieved with adjacent tissue blocks, analysed by inductively coupled plasma mass spectrometry or graphite furnace atomic absorption spectroscopy., Results: Correlated MR images and fluorescence maps indicate linear dependence of R 2 , R 2 * and R 2 ' on iron at 9.4 T, for both disease and control, as follows: [R 2 (s -1 ) = 0.072[Fe] + 20]; [R 2 *(s -1 ) = 0.34[Fe] + 37]; [R 2 '(s -1 ) = 0.26[Fe] + 16] for Fe in μg/g tissue (wet weight)., Comparison With Existing Methods: This method permits simultaneous non-destructive imaging of most bioavailable elements. Iron is the focus of the present study as it offers strong scope for clinical evaluation; the approach may be used more widely to evaluate the impact of chemical elements on clinical imaging parameters., Conclusion: The results at 9.4 T are in excellent quantitative agreement with predictions from experiments performed at lower magnetic fields., (Copyright © 2019 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2019

48. Sporadic Creutzfeldt-Jakob Disease in a Young Girl With Unusually Long Survival.

Author

D'Arcy CE, Bitnun A, Coulthart MB, D'Amour R, Friedman J, Knox JD, Rapoport A, Carter S, Widjaja E, Hazrati LN, and Jansen GH

Subjects

Adolescent, Autopsy, Creutzfeldt-Jakob Syndrome mortality, Fatal Outcome, Female, Humans, Brain pathology, Creutzfeldt-Jakob Syndrome pathology

Abstract

Creutzfeldt-Jakob disease (CJD) is a rapidly progressive, fatal degenerative encephalopathy caused by a pathologically altered form of the prion protein (PrP). CJD is rare, with 1 and 2 cases per million per year reported in the general population, mostly in individuals over 50 years of age. It is almost unknown in the pediatric population. Sporadic CJD with unusually long survival (sCJD-LS), an unusual clinicopathological variant of CJD, has been described mostly in Japanese patients. We present here the first case report of pediatric CJD-LS occurring sporadically in a teenage girl of European descent, with initially rapid neurocognitive decline followed by a prolonged (∼10 years) clinical course. Neuropathological findings at autopsy included generalized cerebral and cerebellar atrophy with relative sparing of the hippocampi, cerebral and cerebellar white and gray matter involvement, minimal spongiform change, PrP deposits in the neocortex, striatum and cerebellum by immunohistochemistry, and protease-resistant PrP by Western immunoblot. With its longer disease duration and atypical manifestations of white matter loss, CJD-LS can be clinically mistaken for other neurodegenerative diseases, or in the pediatric setting for metabolic/genetic conditions. This case clearly demonstrates that with rapid-onset encephalopathy, prion disease should be carefully considered, even in younger patients with slower disease progression., (© 2019 American Association of Neuropathologists, Inc. All rights reserved.)

Published

2019

49. Homozygous/compound heterozygote RYR1 gene variants: Expanding the clinical spectrum.

Author

Alkhunaizi E, Shuster S, Shannon P, Siu VM, Darilek S, Mohila CA, Boissel S, Ellezam B, Fallet-Bianco C, Laberge AM, Zandberg J, Injeyan M, Hazrati LN, Hamdan F, and Chitayat D

Subjects

Adult, Biopsy, Female, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Immunohistochemistry, Male, Pedigree, Phenotype, Retrospective Studies, Ultrasonography, Exome Sequencing, Young Adult, Genetic Variation, Heterozygote, Homozygote, Ryanodine Receptor Calcium Release Channel genetics

Abstract

The ryanodine receptor 1 (RYR1) is a calcium release channel essential for excitation-contraction coupling in the sarcoplasmic reticulum of skeletal muscles. Dominant variants in the RYR1 have been well associated with the known pharmacogenetic ryanodinopathy and malignant hyperthermia. With the era of next-generation gene sequencing and growing number of causative variants, the spectrum of ryanodinopathies has been evolving with dominant and recessive variants presenting with RYR1-related congenital myopathies such as central core disease, minicore myopathy with external ophthalmoplegia, core-rod myopathy, and congenital neuromuscular disease. Lately, the spectrum was broadened to include fetal manifestations, causing a rare recessive and lethal form of fetal akinesia deformation sequence syndrome (FADS)/arthrogryposis multiplex congenita (AMC) and lethal multiple pterygium syndrome. Here we broaden the spectrum of clinical manifestations associated with homozygous/compound heterozygous RYR1 gene variants to include a wide range of manifestations from FADS through neonatal hypotonia to a 35-year-old male with AMC and PhD degree. We report five unrelated families in which three presented with FADS. One of these families was consanguineous and had three affected fetuses with FADS, one patient with neonatal hypotonia who is alive, and one individual with AMC who is 35 years old with normal intellectual development and uses a wheelchair. Muscle biopsies on these cases demonstrated a variety of histopathological abnormalities, which did not assist with the diagnostic process. Neither the affected living individuals nor the parents who are obligate heterozygotes had history of malignant hyperthermia., (© 2019 Wiley Periodicals, Inc.)

Published

2019

50. Bi-allelic mutations of LONP1 encoding the mitochondrial LonP1 protease cause pyruvate dehydrogenase deficiency and profound neurodegeneration with progressive cerebellar atrophy.

Author

Nimmo GAM, Venkatesh S, Pandey AK, Marshall CR, Hazrati LN, Blaser S, Ahmed S, Cameron J, Singh K, Ray PN, Suzuki CK, and Yoon G

Subjects

Alleles, Cerebellar Diseases enzymology, DNA, Mitochondrial metabolism, Homozygote, Humans, Infant, Newborn, Lactates metabolism, Male, Neurodegenerative Diseases enzymology, Pedigree, Phosphorylation, Protein Subunits metabolism, Proteolysis, Pyruvate Dehydrogenase Complex Deficiency Disease pathology, ATP-Dependent Proteases genetics, Cerebellar Diseases genetics, Mitochondrial Proteins genetics, Mutation, Neurodegenerative Diseases genetics, Pyruvate Dehydrogenase Complex Deficiency Disease genetics

Abstract

LonP1 is crucial for maintaining mitochondrial proteostasis and mitigating cell stress. We identified a novel homozygous missense LONP1 variant, c.2282 C > T, (p.Pro761Leu), by whole-exome and Sanger sequencing in two siblings born to healthy consanguineous parents. Both siblings presented with stepwise regression during infancy, profound hypotonia and muscle weakness, severe intellectual disability and progressive cerebellar atrophy on brain imaging. Muscle biopsy revealed the absence of ragged-red fibers, however, scattered cytochrome c oxidase-negative staining and electron dense mitochondrial inclusions were observed. Primary cultured fibroblasts from the siblings showed normal levels of mtDNA and mitochondrial transcripts, and normal activities of oxidative phosphorylation complexes I through V. Interestingly, fibroblasts of both siblings showed glucose-repressed oxygen consumption compared to their mother, whereas galactose and palmitic acid utilization were similar. Notably, the siblings' fibroblasts had reduced pyruvate dehydrogenase (PDH) activity and elevated intracellular lactate:pyruvate ratios, whereas plasma ratios were normal. We demonstrated that in the siblings' fibroblasts, PDH dysfunction was caused by increased levels of the phosphorylated E1α subunit of PDH, which inhibits enzyme activity. Blocking E1α phosphorylation activated PDH and reduced intracellular lactate concentrations. In addition, overexpressing wild-type LonP1 in the siblings' fibroblasts down-regulated phosphoE1α. Furthermore, in vitro studies demonstrated that purified LonP1-P761L failed to degrade phosphorylated E1α, in contrast to wild-type LonP1. We propose a novel mechanism whereby homozygous expression of the LonP1-P761L variant leads to PDH deficiency and energy metabolism dysfunction, which promotes severe neurologic impairment and neurodegeneration.

Published

2019