Your search keyword '"Mitra, Ileena"' showing total 14 results

1. Patterns of de novo tandem repeat mutations and their role in autism

Author

Mitra, Ileena, Huang, Bonnie, Mousavi, Nima, Ma, Nichole, Lamkin, Michael, Yanicky, Richard, Shleizer-Burko, Sharona, Lohmueller, Kirk E, and Gymrek, Melissa

Subjects

Genetics, Pediatric, Human Genome, Intellectual and Developmental Disabilities (IDD), Brain Disorders, Neurosciences, Autism, Mental Health, Aetiology, 2.1 Biological and endogenous factors, Mental health, Adolescent, Adult, Autism Spectrum Disorder, Brain, Child, DNA Copy Number Variations, DNA Repeat Expansion, Female, Fetus, Genetic Predisposition to Disease, Germ-Line Mutation, Humans, Least-Squares Analysis, Male, Middle Aged, Paternal Age, Young Adult, General Science & Technology

Abstract

Autism spectrum disorder (ASD) is an early-onset developmental disorder characterized by deficits in communication and social interaction and restrictive or repetitive behaviours1,2. Family studies demonstrate that ASD has a substantial genetic basis with contributions both from inherited and de novo variants3,4. It has been estimated that de novo mutations may contribute to 30% of all simplex cases, in which only a single child is affected per family5. Tandem repeats (TRs), defined here as sequences of 1 to 20 base pairs in size repeated consecutively, comprise one of the major sources of de novo mutations in humans6. TR expansions are implicated in dozens of neurological and psychiatric disorders7. Yet, de novo TR mutations have not been characterized on a genome-wide scale, and their contribution to ASD remains unexplored. Here we develop new bioinformatics methods for identifying and prioritizing de novo TR mutations from sequencing data and perform a genome-wide characterization of de novo TR mutations in ASD-affected probands and unaffected siblings. We infer specific mutation events and their precise changes in repeat number, and primarily focus on more prevalent stepwise copy number changes rather than large expansions. Our results demonstrate a significant genome-wide excess of TR mutations in ASD probands. Mutations in probands tend to be larger, enriched in fetal brain regulatory regions, and are predicted to be more evolutionarily deleterious. Overall, our results highlight the importance of considering repeat variants in future studies of de novo mutations.

Published

2021

2. Autism risk in offspring can be assessed through quantification of male sperm mosaicism

Author

Breuss, Martin W, Antaki, Danny, George, Renee D, Kleiber, Morgan, James, Kiely N, Ball, Laurel L, Hong, Oanh, Mitra, Ileena, Yang, Xiaoxu, Wirth, Sara A, Gu, Jing, Garcia, Camila AB, Gujral, Madhusudan, Brandler, William M, Musaev, Damir, Nguyen, An, McEvoy-Venneri, Jennifer, Knox, Renatta, Sticca, Evan, Botello, Martha Cristina Cancino, Uribe Fenner, Javiera, Pérez, Maria Cárcel, Arranz, Maria, Moffitt, Andrea B, Wang, Zihua, Hervás, Amaia, Devinsky, Orrin, Gymrek, Melissa, Sebat, Jonathan, and Gleeson, Joseph G

Subjects

Biomedical and Clinical Sciences, Mental Health, Serious Mental Illness, Autism, Intellectual and Developmental Disabilities (IDD), Genetics, Human Genome, Pediatric, Brain Disorders, Contraception/Reproduction, 2.1 Biological and endogenous factors, Aetiology, Autistic Disorder, Female, Genetic Predisposition to Disease, Humans, Male, Mosaicism, Mutation, Pedigree, Polymorphism, Single Nucleotide, Recurrence, Risk Factors, Spermatozoa, Medical and Health Sciences, Immunology, Biomedical and clinical sciences, Health sciences

Abstract

De novo mutations arising on the paternal chromosome make the largest known contribution to autism risk, and correlate with paternal age at the time of conception. The recurrence risk for autism spectrum disorders is substantial, leading many families to decline future pregnancies, but the potential impact of assessing parental gonadal mosaicism has not been considered. We measured sperm mosaicism using deep-whole-genome sequencing, for variants both present in an offspring and evident only in father's sperm, and identified single-nucleotide, structural and short tandem-repeat variants. We found that mosaicism quantification can stratify autism spectrum disorders recurrence risk due to de novo mutations into a vast majority with near 0% recurrence and a small fraction with a substantially higher and quantifiable risk, and we identify novel mosaic variants at risk for transmission to a future offspring. This suggests, therefore, that genetic counseling would benefit from the addition of sperm mosaicism assessment.

Published

2020

3. A reference haplotype panel for genome-wide imputation of short tandem repeats.

Author

Saini, Shubham, Mitra, Ileena, Mousavi, Nima, Fotsing, Stephanie Feupe, and Gymrek, Melissa

Subjects

Humans, Microsatellite Repeats, Haplotypes, Polymorphism, Single Nucleotide, Alleles, Genome, Human, Reference Standards, Genetic Variation, Genome, Human, Polymorphism, Single Nucleotide

Abstract

Short tandem repeats (STRs) are involved in dozens of Mendelian disorders and have been implicated in complex traits. However, genotyping arrays used in genome-wide association studies focus on single nucleotide polymorphisms (SNPs) and do not readily allow identification of STR associations. We leverage next-generation sequencing (NGS) from 479 families to create a SNP + STR reference haplotype panel. Our panel enables imputing STR genotypes into SNP array data when NGS is not available for directly genotyping STRs. Imputed genotypes achieve mean concordance of 97% with observed genotypes in an external dataset compared to 71% expected under a naive model. Performance varies widely across STRs, with near perfect concordance at bi-allelic STRs vs. 70% at highly polymorphic repeats. Imputation increases power over individual SNPs to detect STR associations with gene expression. Imputing STRs into existing SNP datasets will enable the first large-scale STR association studies across a range of complex traits.

Published

2018

4. Correction: Pleiotropic Mechanisms Indicated for Sex Differences in Autism.

Author

Mitra, Ileena, Tsang, Kathryn, Ladd-Acosta, Christine, Croen, Lisa A, Aldinger, Kimberly A, Hendren, Robert L, Traglia, Michela, Lavillaureix, Alinoë, Zaitlen, Noah, Oldham, Michael C, Levitt, Pat, Nelson, Stanley, Amaral, David G, Hertz-Picciotto, Irva, Fallin, M Daniele, and Weiss, Lauren A

Subjects

Developmental Biology, Genetics

Abstract

[This corrects the article DOI: 10.1371/journal.pgen.1006425.].

Published

2017

5. Reverse Pathway Genetic Approach Identifies Epistasis in Autism Spectrum Disorders.

Author

Mitra, Ileena, Lavillaureix, Alinoë, Yeh, Erika, Traglia, Michela, Tsang, Kathryn, Bearden, Carrie E, Rauen, Katherine A, and Weiss, Lauren A

Subjects

Cell Line, Humans, ras Proteins, Receptors, G-Protein-Coupled, MAP Kinase Signaling System, Epistasis, Genetic, Polymorphism, Single Nucleotide, Female, Male, Genome-Wide Association Study, Neural Stem Cells, Genes, Modifier, Autism Spectrum Disorder, Pediatric, Genetics, Mental Health, Human Genome, Brain Disorders, Autism, Intellectual and Developmental Disabilities (IDD), 2.1 Biological and endogenous factors, Mental health, Developmental Biology

Abstract

Although gene-gene interaction, or epistasis, plays a large role in complex traits in model organisms, genome-wide by genome-wide searches for two-way interaction have limited power in human studies. We thus used knowledge of a biological pathway in order to identify a contribution of epistasis to autism spectrum disorders (ASDs) in humans, a reverse-pathway genetic approach. Based on previous observation of increased ASD symptoms in Mendelian disorders of the Ras/MAPK pathway (RASopathies), we showed that common SNPs in RASopathy genes show enrichment for association signal in GWAS (P = 0.02). We then screened genome-wide for interactors with RASopathy gene SNPs and showed strong enrichment in ASD-affected individuals (P < 2.2 x 10-16), with a number of pairwise interactions meeting genome-wide criteria for significance. Finally, we utilized quantitative measures of ASD symptoms in RASopathy-affected individuals to perform modifier mapping via GWAS. One top region overlapped between these independent approaches, and we showed dysregulation of a gene in this region, GPR141, in a RASopathy neural cell line. We thus used orthogonal approaches to provide strong evidence for a contribution of epistasis to ASDs, confirm a role for the Ras/MAPK pathway in idiopathic ASDs, and to identify a convergent candidate gene that may interact with the Ras/MAPK pathway.

Published

2017

6. Interplay between base excision repair activity and toxicity of 3-methyladenine DNA glycosylases in an E. coli complementation system

Author

Troll, Christopher J, Adhikary, Suraj, Cueff, Marie, Mitra, Ileena, Eichman, Brandt F, and Camps, Manel

Subjects

Biological Sciences, Genetics, Alkylation, DNA Glycosylases, DNA Repair, Escherichia coli, Genetic Complementation Test, Mutation, Saccharomyces cerevisiae, Schizosaccharomyces, Schizosaccharomyces pombe Proteins, Glycosylase, Adaptive response, Directed evolution, 3MeA, Oncology & Carcinogenesis

Abstract

DNA glycosylases carry out the first step of base excision repair by removing damaged bases from DNA. The N3-methyladenine (3MeA) DNA glycosylases specialize in alkylation repair and are either constitutively expressed or induced by exposure to alkylating agents. To study the functional and evolutionary significance of constitutive versus inducible expression, we expressed two closely related yeast 3MeA DNA glycosylases - inducible Saccharomyces cerevisiae MAG and constitutive S. pombe Mag1 - in a glycosylase-deficient Escherichia coli strain. In both cases, constitutive expression conferred resistance to alkylating agent exposure. However, in the absence of exogenous alkylation, high levels of expression of both glycosylases were deleterious. We attribute this toxicity to excessive glycosylase activity, since suppressing spMag1 expression correlated with improved growth in liquid culture, and spMag1 mutants exhibiting decreased glycosylase activity showed improved growth and viability. Selection of a random spMag1 mutant library for increased survival in the presence of exogenous alkylation resulted in the selection of hypomorphic mutants, providing evidence for the presence of a genetic barrier to the evolution of enhanced glycosylase activity when constitutively expressed. We also show that low levels of 3MeA glycosylase expression improve fitness in our glycosylase-deficient host, implying that 3MeA glycosylase activity is likely necessary for repair of endogenous lesions. These findings suggest that 3MeA glycosylase activity is evolutionarily conserved for repair of endogenously produced alkyl lesions, and that inducible expression represents a common strategy to rectify deleterious effects of excessive 3MeA activity in the absence of exogenous alkylation challenge.

Published

2014

7. Identifying and characterizing de novo tandem repeat mutations and their contribution to autism spectrum disorders

Author

Mitra, Ileena

Subjects

Bioinformatics, Genetics, Autism, Bioinformatics, Human Genomics, Tandem Repeats

Abstract

Genetic factors are known to make a large contribution to the risk of Autism Spectrum Disorders (ASD). The heritability of ASD is estimated to be over 50%, and it is estimated that de novo rare variants contribute in about 30% of simplex autism-affected cases. To date, population sequencing studies have been limited to analyzing single nucleotide variants (SNVs), small insertions and deletions (indels), or copy number variants (CNVs). This dissertation expands genetic research to further identify potential genomic regions and pathogenic mutations associated with ASD. Tandem repeats (TRs) are a class of repetitive structural variants composed of 1-20 base pair repeating units. TRs exhibit mutation rates that are orders of magnitude higher than SNPs, indels, or CNVs (6), and thus represent one of the largest sources of human genomic variability (4,5). TRs are often associated with diseases characterized by neurological and developmental symptoms (7–9). for example, Fragile X Syndrome, the most prevalent genetic cause of ASD. To date, direct studies of de novo TR mutations have been limited in population genetic studies. In this dissertation, I present a framework for population-scale characterization of genome-wide de novo TR mutations and their contribution to the genetic etiology of ASD. In my first chapter, I present my bioinformatics pipeline using MonSTR to analyze whole genome sequencing data to identify high- confidence, germline de novo TRs within parent-offspring trios. MonSTR, a novel statistical method, takes genotype likelihood values reported by a TR variant caller as input and estimates the posterior probability of a mutation resulting in a repeat copy number change at each TR loci in each child. In the following chapters, I present the results from identifying de novo TR mutations in autism- affected and unaffected children. I characterize patterns of TR mutational mechanism in the general population, in which I found an average of 54 de novo TRs per individual. I show that ASD affected individuals have a higher number of de novo TR mutations, specifically in regulatory regions and brain-related genes, as well as larger sized mutations, compared to matched unaffected siblings. Lastly, I applied a novel natural selection-based method (SISTR) to identify deleterious de novo TR mutations, and show that autism probands are enriched for rare and pathogenic TR mutations. Overall, this dissertation presents and applies a novel framework for identifying and prioritizing de novo TR mutations in order to better understand TR mutational mechanisms and the genetic etiology of ASD.

Published

2021

8. Interplay between base excision repair activity and toxicity of 3-methyladenine DNA glycosylases in an E. coli complementation system

Author

Troll, Christopher J., Adhikary, Suraj, Cueff, Marie, Mitra, Ileena, Eichman, Brandt F., and Camps, Manel

Published

2014

9. The contribution of de novo tandem repeat mutations to autism spectrum disorders

Author

Mitra, Ileena, Mousavi, Nima, Ma, Nichole, Lamkin, Michael, Yanicky, Richard, Shleizer-Burko, Sharona, and Gymrek, Melissa

Abstract

Recent studies have demonstrated a strong contribution of germline de novo mutations to autism spectrum disorders (ASD). Tandem repeats (TRs), consisting of repeated sequence motifs of 1-20bp, comprise one of the largest sources of human genetic variation. Yet, the contribution of TR mutations to ASD has not been assessed on a genome-wide scale. Here, we leverage novel bioinformatics tools and ~35× whole genome sequencing of ~1,600 families from the Simons Simplex Collection (SSC) to analyze germline de novo TR mutations at nearly 1 million loci in ASD-affected and unaffected siblings. We identify an average of 54 high-confidence mutations per child at an estimated true positive rate of 90%. We find novel genome-wide TR mutation patterns, including a bias toward larger mutations from the maternal compared with paternal germlines. We demonstrate a significant genome-wide excess of TR mutations in ASD probands, which are significantly larger than in controls, enriched in promoters of fetal brain expressed genes, and more strongly predicted to alter expression during brain development. Overall, our results indicate a significant, but so far overlooked, contribution of repetitive regions to ASD.

Published

2020

10. Genome-wide patterns ofde novotandem repeat mutations and their contribution to autism spectrum disorders

Author

Mitra, Ileena, primary, Huang, Bonnie, additional, Mousavi, Nima, additional, Ma, Nichole, additional, Lamkin, Michael, additional, Yanicky, Richard, additional, Shleizer-Burko, Sharona, additional, Lohmueller, Kirk E., additional, and Gymrek, Melissa, additional

Published

2020

11. Autism risk in offspring can be assessed through quantification of male sperm mosaicism

Author

Breuss, Martin W., primary, Antaki, Danny, additional, George, Renee D., additional, Kleiber, Morgan, additional, James, Kiely N., additional, Ball, Laurel L., additional, Hong, Oanh, additional, Mitra, Ileena, additional, Yang, Xiaoxu, additional, Wirth, Sara A., additional, Gu, Jing, additional, Garcia, Camila A. B., additional, Gujral, Madhusudan, additional, Brandler, William M., additional, Musaev, Damir, additional, Nguyen, An, additional, McEvoy-Venneri, Jennifer, additional, Knox, Renatta, additional, Sticca, Evan, additional, Botello, Martha Cristina Cancino, additional, Uribe Fenner, Javiera, additional, Pérez, Maria Cárcel, additional, Arranz, Maria, additional, Moffitt, Andrea B., additional, Wang, Zihua, additional, Hervás, Amaia, additional, Devinsky, Orrin, additional, Gymrek, Melissa, additional, Sebat, Jonathan, additional, and Gleeson, Joseph G., additional

Published

2019

12. A reference haplotype panel for genome-wide imputation of short tandem repeats

Author

Saini, Shubham, primary, Mitra, Ileena, additional, Mousavi, Nima, additional, Fotsing, Stephanie Feupe, additional, and Gymrek, Melissa, additional

Published

2018

13. Pleiotropic Mechanisms Indicated for Sex Differences in Autism

Author

Mitra, Ileena, primary, Tsang, Kathryn, additional, Ladd-Acosta, Christine, additional, Croen, Lisa A., additional, Aldinger, Kimberly A., additional, Hendren, Robert L., additional, Traglia, Michela, additional, Lavillaureix, Alinoë, additional, Zaitlen, Noah, additional, Oldham, Michael C., additional, Levitt, Pat, additional, Nelson, Stanley, additional, Amaral, David G., additional, Herz-Picciotto, Irva, additional, Fallin, M. Daniele, additional, and Weiss, Lauren A., additional

Published

2016

14. Interplay between base excision repair activity and toxicity of 3-methyladenine DNA glycosylases in an E. colicomplementation system

Author

Troll, Christopher J., Adhikary, Suraj, Cueff, Marie, Mitra, Ileena, Eichman, Brandt F., and Camps, Manel

Abstract

•Show that if constitutively expressed, Mag1 evolution of enhanced 3MeA repair is prevented by a fitness barrier.•Show that 3MeA is the most likely limiting endogenous lesion in tag ada E. coli.•Establish a 3MeA glycosylase complementation system to measure 3MeA repair in vivo.•Identify several candidate epistatic interactions modulating Mag1 3MeA repair activity.

Published

2014