Your search keyword '"Fernandez TV"' showing total 73 results

1. No Evidence for Association of Autism with Rare Heterozygous Point Mutations in Contactin-Associated Protein-Like 2 (CNTNAP2), or in Other Contactin-Associated Proteins or Contactins

Author

State, Matthew, Sanders, Stephan, Murdoch, JD, Gupta, AR, Sanders, SJ, Walker, MF, Keaney, J, Fernandez, TV, Murtha, MT, Anyanwu, S, Ober, GT, and Raubeson, MJ

Abstract

© 2015 Murdoch et al.Contactins and Contactin-Associated Proteins, and Contactin-Associated Protein-Like 2 (CNTNAP2) in particular, have been widely cited as autism risk genes based on findings from homozygosity mapping, molecular cytogenetics, copy number

Published

2015

2. Rare deleterious mutations of the gene EFR3A in autism spectrum disorders

Author

State, Matthew, Gupta, AR, Pirruccello, M, Cheng, F, Kang, HJ, Fernandez, TV, Baskin, JM, Choi, M, Liu, L, Ercan-Sencicek, AG, and Murdoch, JD

Abstract

Background: Whole-exome sequencing studies in autism spectrum disorder (ASD) have identified de novo mutations in novel candidate genes, including the synaptic gene Eighty-five Requiring 3A (EFR3A). EFR3A is a critical component of a protein complex requir

Published

2014

3. The Tourette International Collaborative Genetics (TIC Genetics) study, finding the genes causing Tourette syndrome: objectives and methods

Author

State, Matthew, Dietrich, A, Fernandez, TV, King, RA, State, MW, Tischfield, JA, Hoekstra, PJ, and Heiman, GA

Abstract

Tourette syndrome (TS) is a neuropsychiatric disorder characterized by recurrent motor and vocal tics, often accompanied by obsessive-compulsive disorder and/or attention-deficit/hyperactivity disorder. While the evidence for a genetic contribution is stro

Published

2014

4. Genome-wide association study of Tourette's syndrome.

Author

Scharf, JM, Yu, D, Mathews, CA, Neale, BM, Stewart, SE, Fagerness, JA, Evans, P, Gamazon, E, Edlund, CK, Service, SK, Tikhomirov, A, Osiecki, L, Illmann, C, Pluzhnikov, A, Konkashbaev, A, Davis, LK, Han, B, Crane, J, Moorjani, P, Crenshaw, AT, Parkin, MA, Reus, VI, Lowe, TL, Rangel-Lugo, M, Chouinard, S, Dion, Y, Girard, S, Cath, DC, Smit, JH, King, RA, Fernandez, TV, Leckman, JF, Kidd, KK, Kidd, JR, Pakstis, AJ, State, MW, Herrera, LD, Romero, R, Fournier, E, Sandor, P, Barr, CL, Phan, N, Gross-Tsur, V, Benarroch, F, Pollak, Y, Budman, CL, Bruun, RD, Erenberg, G, Naarden, AL, Lee, PC, Weiss, N, Kremeyer, B, Berrío, GB, Campbell, DD, Cardona Silgado, JC, Ochoa, WC, Mesa Restrepo, SC, Muller, H, Valencia Duarte, AV, Lyon, GJ, Leppert, M, Morgan, J, Weiss, R, Grados, MA, Anderson, K, Davarya, S, Singer, H, Walkup, J, Jankovic, J, Tischfield, JA, Heiman, GA, Gilbert, DL, Hoekstra, PJ, Robertson, MM, Kurlan, R, Liu, C, Gibbs, JR, Singleton, A, North American Brain Expression Consortium, Hardy, J, UK Human Brain Expression Database, Strengman, E, Ophoff, RA, Wagner, M, Moessner, R, Mirel, DB, Posthuma, D, Sabatti, C, Eskin, E, Conti, DV, Knowles, JA, Ruiz-Linares, A, Rouleau, GA, Purcell, S, Heutink, P, Oostra, BA, McMahon, WM, Freimer, NB, Cox, NJ, and Pauls, DL

Subjects

North American Brain Expression Consortium, UK Human Brain Expression Database, Chromosomes, Human, Pair 9, Humans, Tourette Syndrome, Genetic Predisposition to Disease, Fibrillar Collagens, Case-Control Studies, Obsessive-Compulsive Disorder, Attention Deficit Disorder with Hyperactivity, Genotype, Polymorphism, Single Nucleotide, International Cooperation, Adolescent, Adult, Female, Male, Meta-Analysis as Topic, Genome-Wide Association Study, Young Adult, White People, Genetics, Human Genome, Mental Health, Brain Disorders, Neurodegenerative, Aetiology, 2.1 Biological and endogenous factors, genetics, GWAS, neurodevelopmental disorder, tics, Tourette's syndrome, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Tourette's syndrome (TS) is a developmental disorder that has one of the highest familial recurrence rates among neuropsychiatric diseases with complex inheritance. However, the identification of definitive TS susceptibility genes remains elusive. Here, we report the first genome-wide association study (GWAS) of TS in 1285 cases and 4964 ancestry-matched controls of European ancestry, including two European-derived population isolates, Ashkenazi Jews from North America and Israel and French Canadians from Quebec, Canada. In a primary meta-analysis of GWAS data from these European ancestry samples, no markers achieved a genome-wide threshold of significance (P

Published

2013

5. Investigation of previously implicated genetic variants in chronic tic disorders: a transmission disequilibrium test approach

Author

Abdulkadir, M, Londono, D, Gordon, D, Fernandez, TV, Brown, L W, Cheon, K A, Coffey, B J, Elzerman, L, Fremer, C, Frundt, O, Garcia-Delgar, B, Gilbert, DL, Grice, DE, Hedderly, T, Heyman, I, Hong, H J, Huyser, C, Ibanez-Gomez, L, Jakubovski, E, Kim, YK, Kim, YS, Koh, Y J, Kook, S, Kuperman, S, Leventhal, B, Ludolph, AG, Madruga-Garrido, M, Maras, Athanasios, Mir, P, Morer, A, Muller-Vahl, K, Munchau, A, Murphy, T L, Plessen, KJ, Roessner, V, Shin, E Y, Song, D H, Song, J, Tubing, J, van den Ban, E, Visscher, F, Wanderer, S, Woods, M, Zinner, S H, King, RA, Tischfield, JA, Heiman, GA, Hoekstra, PJ, Dietrich, A, Abdulkadir, M, Londono, D, Gordon, D, Fernandez, TV, Brown, L W, Cheon, K A, Coffey, B J, Elzerman, L, Fremer, C, Frundt, O, Garcia-Delgar, B, Gilbert, DL, Grice, DE, Hedderly, T, Heyman, I, Hong, H J, Huyser, C, Ibanez-Gomez, L, Jakubovski, E, Kim, YK, Kim, YS, Koh, Y J, Kook, S, Kuperman, S, Leventhal, B, Ludolph, AG, Madruga-Garrido, M, Maras, Athanasios, Mir, P, Morer, A, Muller-Vahl, K, Munchau, A, Murphy, T L, Plessen, KJ, Roessner, V, Shin, E Y, Song, D H, Song, J, Tubing, J, van den Ban, E, Visscher, F, Wanderer, S, Woods, M, Zinner, S H, King, RA, Tischfield, JA, Heiman, GA, Hoekstra, PJ, and Dietrich, A

Published

2018

6. Rare deleterious mutations of the gene EFR3A in autism spectrum disorders

Author

Gupta, AR, Pirruccello, M, Cheng, F, Kang, HJ, Fernandez, TV, Baskin, JM, Choi, M, Liu, L, Ercan-Sencicek, AG, Murdoch, JD, Klei, L, Neale, BM, Franjic, D, Daly, MJ, Lifton, RP, De Camilli, P, Zhao, H, Šestan, N, State, MW, Gupta, AR, Pirruccello, M, Cheng, F, Kang, HJ, Fernandez, TV, Baskin, JM, Choi, M, Liu, L, Ercan-Sencicek, AG, Murdoch, JD, Klei, L, Neale, BM, Franjic, D, Daly, MJ, Lifton, RP, De Camilli, P, Zhao, H, Šestan, N, and State, MW

Abstract

Background: Whole-exome sequencing studies in autism spectrum disorder (ASD) have identified de novo mutations in novel candidate genes, including the synaptic gene Eighty-five Requiring 3A (EFR3A). EFR3A is a critical component of a protein complex required for the synthesis of the phosphoinositide PtdIns4P, which has a variety of functions at the neural synapse. We hypothesized that deleterious mutations in EFR3A would be significantly associated with ASD. Methods. We conducted a large case/control association study by deep resequencing and analysis of whole-exome data for coding and splice site variants in EFR3A. We determined the potential impact of these variants on protein structure and function by a variety of conservation measures and analysis of the Saccharomyces cerevisiae Efr3 crystal structure. We also analyzed the expression pattern of EFR3A in human brain tissue. Results: Rare nonsynonymous mutations in EFR3A were more common among cases (16 / 2,196 = 0.73%) than matched controls (12 / 3,389 = 0.35%) and were statistically more common at conserved nucleotides based on an experiment-wide significance threshold (P = 0.0077, permutation test). Crystal structure analysis revealed that mutations likely to be deleterious were also statistically more common in cases than controls (P = 0.017, Fisher exact test). Furthermore, EFR3A is expressed in cortical neurons, including pyramidal neurons, during human fetal brain development in a pattern consistent with ASD-related genes, and it is strongly co-expressed (P < 2.2 × 10-16, Wilcoxon test) with a module of genes significantly associated with ASD. Conclusions: Rare deleterious mutations in EFR3A were found to be associated with ASD using an experiment-wide significance threshold. Synaptic phosphoinositide metabolism has been strongly implicated in syndromic forms of ASD. These data for EFR3A strengthen the evidence for the involvement of this pathway in idiopathic autism. © 2014 Gupta et al.; licensee BioMed Ce

Published

2014

7. Partitioning the Heritability of Tourette Syndrome and Obsessive Compulsive Disorder Reveals Differences in Genetic Architecture

Author

Davis, LK, Yu, DM, Keenan, CL, Gamazon, ER, Konkashbaev, AI, Derks, EM, Neale, BM, Yang, Jiaqi, Lee, SH, Evans, P, Barr, CL, Bellodi, L, Benarroch, F, Berrio, GB, Bienvenu, OJ, Bloch, MH, Blom, RM, Bruun, RD, Budman, CL, Camarena, B, Campbell, D, Cappi, C, Silgado, JCC, Cath, DC, Cavallini, MC, Chavira, DA, Chouinard, S, Conti, DV, Cook, EH, Coric, V, Cullen, BA, Deforce, D, Delorme, R, Dion, Y, Edlund, CK, Egberts, K, Falkai, P, Fernandez, TV, Gallagher, PJ, Garrido, H, Geller, D, Girard, SL, Grabe, HJ, Grados, MA, Greenberg, BD, Gross-Tsur, V, Haddad, S, Heiman, GA, Hemmings, SMJ, Hounie, AG, Illmann, C, Jankovic, J, Jenike, MA, Kennedy, JL, King, RA, Kremeyer, B, Kurlan, R, Lanzagorta, N, Leboyer, M, Leckman, JF, Lennertz, L, Liu, C, Lochner, C, Lowe, TL, Macciardi, F, McCracken, JT, McGrath, LM, Restrepo, SCM, Moessner, R, Morgan, J, Muller, Heike, Murphy, DL, Naarden, AL, Ochoa, WC, Ophoff, RA, Osiecki, L, Pakstis, AJ, Pato, MT, Pato, CN, Piacentini, J, Pittenger, C, Pollak, Y, Rauch, SL, Renner, TJ, Reus, VI, Richter, MA, Riddle, MA, Robertson, MM, Romero, R, Rosario, MC, Rosenberg, D, Rouleau, GA, Ruhrmann, S, Ruiz-Linares, A, Sampaio, AS, Samuels, J, Sandor, P, Sheppard, B, Singer, HS, Smit, JH, Stein, DJ, Strengman, E, Tischfield, JA, Duarte, AVV, Vallada, H, Van Nieuwerburgh, F, Veenstra-VanderWeele, J, Walitza, S, Wang, Y, Wendland, JR, Westenberg, HGM, Shugart, YY, Miguel, EC, McMahon, W, Wagner, M, Nicolini, H, Posthuma, Daniëlle, Hanna, GL, Heutink, P, Denys, D, Arnold, PD, Oostra, Ben, Nestadt, G, Freimer, NB, Pauls, DL, Wray, NR, Stewart, SE, Mathews, CA, Knowles, JA, Cox, NJ, Scharf, JM, Davis, LK, Yu, DM, Keenan, CL, Gamazon, ER, Konkashbaev, AI, Derks, EM, Neale, BM, Yang, Jiaqi, Lee, SH, Evans, P, Barr, CL, Bellodi, L, Benarroch, F, Berrio, GB, Bienvenu, OJ, Bloch, MH, Blom, RM, Bruun, RD, Budman, CL, Camarena, B, Campbell, D, Cappi, C, Silgado, JCC, Cath, DC, Cavallini, MC, Chavira, DA, Chouinard, S, Conti, DV, Cook, EH, Coric, V, Cullen, BA, Deforce, D, Delorme, R, Dion, Y, Edlund, CK, Egberts, K, Falkai, P, Fernandez, TV, Gallagher, PJ, Garrido, H, Geller, D, Girard, SL, Grabe, HJ, Grados, MA, Greenberg, BD, Gross-Tsur, V, Haddad, S, Heiman, GA, Hemmings, SMJ, Hounie, AG, Illmann, C, Jankovic, J, Jenike, MA, Kennedy, JL, King, RA, Kremeyer, B, Kurlan, R, Lanzagorta, N, Leboyer, M, Leckman, JF, Lennertz, L, Liu, C, Lochner, C, Lowe, TL, Macciardi, F, McCracken, JT, McGrath, LM, Restrepo, SCM, Moessner, R, Morgan, J, Muller, Heike, Murphy, DL, Naarden, AL, Ochoa, WC, Ophoff, RA, Osiecki, L, Pakstis, AJ, Pato, MT, Pato, CN, Piacentini, J, Pittenger, C, Pollak, Y, Rauch, SL, Renner, TJ, Reus, VI, Richter, MA, Riddle, MA, Robertson, MM, Romero, R, Rosario, MC, Rosenberg, D, Rouleau, GA, Ruhrmann, S, Ruiz-Linares, A, Sampaio, AS, Samuels, J, Sandor, P, Sheppard, B, Singer, HS, Smit, JH, Stein, DJ, Strengman, E, Tischfield, JA, Duarte, AVV, Vallada, H, Van Nieuwerburgh, F, Veenstra-VanderWeele, J, Walitza, S, Wang, Y, Wendland, JR, Westenberg, HGM, Shugart, YY, Miguel, EC, McMahon, W, Wagner, M, Nicolini, H, Posthuma, Daniëlle, Hanna, GL, Heutink, P, Denys, D, Arnold, PD, Oostra, Ben, Nestadt, G, Freimer, NB, Pauls, DL, Wray, NR, Stewart, SE, Mathews, CA, Knowles, JA, Cox, NJ, and Scharf, JM

Abstract

The direct estimation of heritability from genome-wide common variant data as implemented in the program Genome-wide Complex Trait Analysis (GCTA) has provided a means to quantify heritability attributable to all interrogated variants. We have quantified the variance in liability to disease explained by all SNPs for two phenotypically-related neurobehavioral disorders, obsessive-compulsive disorder (OCD) and Tourette Syndrome (TS), using GCTA. Our analysis yielded a heritability point estimate of 0.58 (se = 0.09, p = 5.64e-12) for TS, and 0.37 (se = 0.07, p = 1.5e-07) for OCD. In addition, we conducted multiple genomic partitioning analyses to identify genomic elements that concentrate this heritability. We examined genomic architectures of TS and OCD by chromosome, MAF bin, and functional annotations. In addition, we assessed heritability for early onset and adult onset OCD. Among other notable results, we found that SNPs with a minor allele frequency of less than 5% accounted for 21% of the TS heritability and 0% of the OCD heritability. Additionally, we identified a significant contribution to TS and OCD heritability by variants significantly associated with gene expression in two regions of the brain (parietal cortex and cerebellum) for which we had available expression quantitative trait loci (eQTLs). Finally we analyzed the genetic correlation between TS and OCD, revealing a genetic correlation of 0.41 (se = 0.15, p = 0.002). These results are very close to previous heritability estimates for TS and OCD based on twin and family studies, suggesting that very little, if any, heritability is truly missing (i.e., unassayed) from TS and OCD GWAS studies of common variation. The results also indicate that there is some genetic overlap between these two phenotypically-related neuropsychiatric disorders, but suggest that the two disorders have distinct genetic architectures.

Published

2013

8. Copy number variation in obsessive-compulsive disorder and tourette syndrome: a cross-disorder study

Author

McGrath, Lauren M, Yu, Dongmei, Marshall, Christian, Davis, Lea K, Thiruvahindrapuram, Bhooma, Li, Bingbin, Cappi, Carolina, Gerber, Gloria, Wolf, Aaron, Schroeder, Frederick A, Osiecki, Lisa, O'Dushlaine, Colm, Kirby, Andrew, Illmann, Cornelia, Haddad, Stephen, Gallagher, Patience, Fagerness, Jesen A, Barr, Cathy L, Bellodi, Laura, Benarroch, Fortu, Bienvenu, O Joseph, Black, Donald W, Bloch, Michael H, Bruun, Ruth D, Budman, Cathy L, Camarena, Beatriz, Cath, Danielle C, Cavallini, Maria C, Chouinard, Sylvain, Coric, Vladimir, Cullen, Bernadette, Delorme, Richard, Denys, Damiaan, Derks, Eske M, Dion, Yves, Rosário, Maria C, Eapen, Valsama, Evans, Patrick, Falkai, Peter, Fernandez, Thomas V, Garrido, Helena, Geller, Daniel, Grabe, Hans J, Grados, Marco A, Greenberg, Benjamin D, Gross-Tsur, Varda, Grünblatt, Edna, Heiman, Gary A, Hemmings, Sian M J, Herrera, Luis D, Hounie, Ana G, Jankovic, Joseph, Kennedy, James L, King, Robert A, Kurlan, Roger, Lanzagorta, Nuria, Leboyer, Marion, Leckman, James F, Lennertz, Leonhard, Lochner, Christine, Lowe, Thomas L, Lyon, Gholson J, Macciardi, Fabio, Maier, Wolfgang, McCracken, James T, McMahon, William, Murphy, Dennis L, Naarden, Allan L, Neale, Benjamin M, Nurmi, Erika, Pakstis, Andrew J, Pato, Michele T, Pato, Carlos N, Piacentini, John, Pittenger, Christopher, Pollak, Yehuda, Reus, Victor I, Richter, Margaret A, Riddle, Mark, Robertson, Mary M, Rosenberg, David, Rouleau, Guy A, Ruhrmann, Stephan, Sampaio, Aline S, Samuels, Jack, Sandor, Paul, Sheppard, Brooke, Singer, Harvey S, Smit, Jan H, Stein, Dan J, Tischfield, Jay A, Vallada, Homero, Veenstra-VanderWeele, Jeremy, Walitza, Susanne, Wang, Ying, Wendland, Jens R, Shugart, Yin Yao, Miguel, Euripedes C, Nicolini, Humberto, Oostra, Ben A, Moessner, Rainald, Wagner, Michael, Ruiz-Linares, Andres, Heutink, Peter, Nestadt, Gerald, Freimer, Nelson, Petryshen, Tracey, Posthuma, Danielle, Jenike, Michael A, Cox, Nancy J, Hanna, Gregory L, Brentani, Helena, Scherer, Stephen W, Arnold, Paul D, Stewart, S Evelyn, Mathews, Carol A, Knowles, James A, Cook, Edwin H, Pauls, David L, Wang, Kai, Scharf, Jeremiah M, Leerstoel Hout, Sub String Theory Cosmology and ElemPart, Experimental psychopathology, University of Zurich, Scharf, Jeremiah M, Leerstoel Hout, Sub String Theory Cosmology and ElemPart, Experimental psychopathology, Clinical Genetics, Child and Adolescent Psychiatry / Psychology, Artificial intelligence, Complex Trait Genetics, Neuroscience Campus Amsterdam - Brain Mechanisms in Health & Disease, Functional Genomics, AIMMS, Neuroscience Campus Amsterdam - Neurobiology of Mental Health, EMGO+ - Mental Health, ANS - Amsterdam Neuroscience, Adult Psychiatry, APH - Amsterdam Public Health, Netherlands Institute for Neuroscience (NIN), Mcgrath, Lm, Yu, D, Marshall, C, Davis, Lk, Thiruvahindrapuram, B, Li, B, Cappi, C, Gerber, G, Wolf, A, Schroeder, Fa, Osiecki, L, O'Dushlaine, C, Kirby, A, Illmann, C, Haddad, S, Gallagher, P, Fagerness, Ja, Barr, Cl, Bellodi, Laura, Benarroch, F, Bienvenu, Oj, Black, Dw, Bloch, Mh, Bruun, Rd, Budman, Cl, Camarena, B, Cath, Dc, Cavallini, Mc, Chouinard, S, Coric, V, Cullen, B, Delorme, R, Denys, D, Derks, Em, Dion, Y, Rosário, Mc, Eapen, V, Evans, P, Falkai, P, Fernandez, Tv, Garrido, H, Geller, D, Grabe, Hj, Grados, Ma, Greenberg, Bd, Gross Tsur, V, Grünblatt, E, Heiman, Ga, Hemmings, Sm, Herrera, Ld, Hounie, Ag, Jankovic, J, Kennedy, Jl, King, Ra, Kurlan, R, Lanzagorta, N, Leboyer, M, Leckman, Jf, Lennertz, L, Lochner, C, Lowe, Tl, Lyon, Gj, Macciardi, F, Maier, W, Mccracken, Jt, Mcmahon, W, Murphy, Dl, Naarden, Al, Neale, Bm, Nurmi, E, Pakstis, Aj, Pato, Mt, Pato, Cn, Piacentini, J, Pittenger, C, Pollak, Y, Reus, Vi, Richter, Ma, Riddle, M, Robertson, Mm, Rosenberg, D, Rouleau, Ga, Ruhrmann, S, Sampaio, A, Samuels, J, Sandor, P, Sheppard, B, Singer, H, Smit, Jh, Stein, Dj, Tischfield, Ja, Vallada, H, Veenstra VanderWeele, J, Walitza, S, Wang, Y, Wendland, Jr, Shugart, Yy, Miguel, Ec, Nicolini, H, Oostra, Ba, Moessner, R, Wagner, M, Ruiz Linares, A, Heutink, P, Nestadt, G, Freimer, N, Petryshen, T, Posthuma, D, Jenike, Ma, Cox, Nj, Hanna, Gl, Brentani, H, Scherer, Sw, Arnold, Pd, Stewart, Se, Mathews, Ca, Knowles, Ja, Cook, Eh, Pauls, Dl, Wang, K, Scharf, J. M., Psychiatry, Human genetics, NCA - Brain mechanisms in health and disease, NCA - Neurobiology of mental health, and EMGO - Mental health

Subjects

Oncology, Male, medicine.medical_specialty, diagnosis [Tourette Syndrome], Adolescent, DNA Copy Number Variations, Genome-wide association study, 610 Medicine & health, Tourette syndrome, Polymorphism, Single Nucleotide, behavioral disciplines and activities, Article, 2738 Psychiatry and Mental Health, SDG 3 - Good Health and Well-being, Obsessive compulsive, Genetic etiology, Internal medicine, mental disorders, Developmental and Educational Psychology, medicine, Humans, Genetic Predisposition to Disease, genetics, Copy-number variation, ddc:610, Genetics, genetics [Obsessive-Compulsive Disorder], 3204 Developmental and Educational Psychology, copy number variation, 10058 Department of Child and Adolescent Psychiatry, medicine.disease, 16p13.11, Diagnostic and Statistical Manual of Mental Disorders, obsessive-compulsive disorder, Psychiatry and Mental health, genetics [Tourette Syndrome], Schizophrenia, Autism, Female, Psychology, Genome-Wide Association Study, diagnosis [Obsessive-Compulsive Disorder]

Abstract

Objective Obsessive-compulsive disorder (OCD) and Tourette syndrome (TS) are heritable neurodevelopmental disorders with a partially shared genetic etiology. This study represents the first genome-wide investigation of large (>500 kb), rare (

Published

2014

9. Partitioning the heritability of Tourette syndrome and obsessive compulsive disorder reveals differences in genetic architecture

Author

Patrick Evans, Jay A. Tischfield, Anuar Konkashbaev, Richard Delorme, Sandra Catalina Mesa Restrepo, Margaret A. Richter, Gregory L. Hanna, Allan L. Naarden, Michele T. Pato, Jian Yang, Denise A. Chavira, Damiaan Denys, Paul Sandor, Michael A. Jenike, Sian M. J. Hemmings, Paul D. Arnold, Stephan Ruhrmann, H.G.M. Westenberg, Yves Dion, Cathy L. Barr, Andres Ruiz-Linares, Brooke Sheppard, Leonhard Lennertz, Eske M. Derks, Lauren M. McGrath, Barbara Kremeyer, Marion Leboyer, Victor I. Reus, Cornelia Illmann, S. Evelyn Stewart, Dan J. Stein, Ana Gabriela Hounie, James T. McCracken, R. Kurlan, Chunyu Liu, Aline S. Sampaio, Thomas L. Lowe, Benjamin M. Neale, Yehuda Pollak, Desmond Campbell, Fabio Macciardi, Mary M. Robertson, Benjamin D. Greenberg, Ben A. Oostra, Rainald Moessner, Gary A. Heiman, Nuria Lanzagorta, Sylvain Chouinard, Rianne M. Blom, Karin Egberts, Carlos N. Pato, David V. Conti, Carol A. Mathews, Ying Wang, Marco A. Grados, Julio C. Cardona Silgado, S. Hong Lee, H. Müller, Eric R. Gamazon, Humberto Nicolini, Jan Smit, Euripedes Constantino Miguel, Jens R. Wendland, Cathy L. Budman, Laura Bellodi, Danielle Posthuma, Jubel Morgan, David R. Rosenberg, John Piacentini, Hans J. Grabe, Mark A. Riddle, Beatriz Camarena, Naomi R. Wray, Eric Strengman, Dennis L. Murphy, Simon Girard, Christine Lochner, Ruth D. Bruun, Joseph Jankovic, Edwin H. Cook, William M. McMahon, Scott L. Rauch, James F. Leckman, Peter Falkai, Fortu Benarroch, Christopher K. Edlund, Gabriel Bedoya Berrío, Homero Vallada, Susanne Walitza, Nelson B. Freimer, Stephen A. Haddad, Yin Yao Shugart, Danielle C. Cath, Nancy J. Cox, Varda Gross-Tsur, Guy A. Rouleau, Bernadette Cullen, Michael H. Bloch, Dieter Deforce, David L. Pauls, Thomas V. Fernandez, Roel A. Ophoff, Filip Van Nieuwerburgh, Gerald Nestadt, Dongmei Yu, Helena Garrido, Robert A. King, James L. Kennedy, Clare L. Keenan, Lisa Osiecki, Jack Samuels, Jeremy Veenstra-VanderWeele, Ana V. Valencia Duarte, James A. Knowles, Patience J. Gallagher, Carolina Cappi, Maria Conceição do Rosário, Andrew J. Pakstis, Christopher Pittenger, Michael Wagner, Jeremiah M. Scharf, Daniel A. Geller, Vladimir Coric, Tobias J. Renner, Oscar J. Bienvenu, Roxana Romero, William Cornejo Ochoa, Peter Heutink, Lea K. Davis, Harvey S. Singer, Maria Cristina Cavallini, Psychiatry, Human genetics, NCA - Brain mechanisms in health and disease, NCA - Neurobiology of mental health, Department of Psychiatry and Mental Health, Faculty of Health Sciences, Univ Chicago, Harvard Univ, Broad Inst Harvard & MIT, Univ Amsterdam, Massachusetts Gen Hosp, Univ Queensland, Univ Hlth Network, Hosp Sick Children, Univ Vita Salute San Raffaele, Hadassah Hebrew Univ Med Ctr, Univ Pontificia Bolivariana, Johns Hopkins Univ, Yale Univ, North Shore Long Isl Jewish Med Ctr, NYU Med Ctr, North Shore Long Isl Jewish Hlth Syst, Hofstra Univ, Inst Nacl Psiquiatria Ramon de la Fuente Muniz, UCL, Univ Hong Kong, Universidade de São Paulo (USP), Vrije Univ Amsterdam, Univ Utrecht, Altrecht Acad Anxiety Ctr, Univ Milan, Univ Calif Los Angeles, Univ Calif San Diego, Univ Montreal, Univ Illinois, Univ Ghent, Inst Pasteur, French Natl Sci Fdn, Hop Robert Debre, Univ Wurzburg, Univ Munich, Univ Med Greifswald, Butler Hosp, Shaare Zedek Med Ctr, Rutgers State Univ, Univ Stellenbosch, Baylor Coll Med, Ctr Addict & Mental Hlth, Univ Toronto, Overlook Hosp, Carracci Med Grp, Inst Mondor Rech Biomed, Univ Bonn, Univ Calif San Francisco, UCI, Univ Utah, NIMH Intramural Res Program, Med City Dallas Hosp, Univ Med Ctr, Univ So Calif, Partners Psychiat & McLean Hosp, Sunnybrook Hlth Sci Ctr, St George Hosp, Sch Med, Hosp Nacl Ninos Dr Carlos Saenz Herrera, Universidade Federal de São Paulo (UNIFESP), Wayne State Univ, Detroit Med Ctr, McGill Univ, Univ Cologne, Universidade Federal da Bahia (UFBA), Youthdale Treatment Ctr, Johns Hopkins Univ Sch Med, Univ Cape Town, Univ Med Ctr Utrecht, Vanderbilt Univ, Univ Zurich, Inst Royal Netherlands Acad Arts & Sci NIN KNAW, Natl Inst Genom Med SAP, Vrije Univ Amsterdam Med Ctr, Erasmus Univ, Univ Michigan, German Ctr Neurodegenerat Dis, Erasmus MC, Univ British Columbia, Brigham & Womens Hosp, Davis, Lk, Yu, D, Keenan, Cl, Gamazon, Er, Konkashbaev, Ai, Derks, Em, Neale, Bm, Yang, J, Lee, Sh, Evans, P, Barr, Cl, Bellodi, Laura, Benarroch, F, Berrio, Gb, Bienvenu, Oj, Bloch, Mh, Blom, Rm, Bruun, Rd, Budman, Cl, Camarena, B, Campbell, D, Cappi, C, Cardona Silgado, Jc, Cath, Dc, Cavallini, Mc, Chavira, Da, Chouinard, S, Conti, Dv, Cook, Eh, Coric, V, Cullen, Ba, Deforce, D, Delorme, R, Dion, Y, Edlund, Ck, Egberts, K, Falkai, P, Fernandez, Tv, Gallagher, Pj, Garrido, H, Geller, D, Girard, Sl, Grabe, Hj, Grados, Ma, Greenberg, Bd, Gross Tsur, V, Haddad, S, Heiman, Ga, Hemmings, Sm, Hounie, Ag, Illmann, C, Jankovic, J, Jenike, Ma, Kennedy, Jl, King, Ra, Kremeyer, B, Kurlan, R, Lanzagorta, N, Leboyer, M, Leckman, Jf, Lennertz, L, Liu, C, Lochner, C, Lowe, Tl, Macciardi, F, Mccracken, Jt, Mcgrath, Lm, Mesa Restrepo, Sc, Moessner, R, Morgan, J, Muller, H, Murphy, Dl, Naarden, Al, Ochoa, Wc, Ophoff, Ra, Osiecki, L, Pakstis, Aj, Pato, Mt, Pato, Cn, Piacentini, J, Pittenger, C, Pollak, Y, Rauch, Sl, Renner, Tj, Reus, Vi, Richter, Ma, Riddle, Ma, Robertson, Mm, Romero, R, Rosàrio, Mc, Rosenberg, D, Rouleau, Ga, Ruhrmann, S, Ruiz Linares, A, Sampaio, A, Samuels, J, Sandor, P, Sheppard, B, Singer, H, Smit, Jh, Stein, Dj, Strengman, E, Tischfield, Ja, Valencia Duarte, Av, Vallada, H, Van Nieuwerburgh, F, Veenstra Vanderweele, J, Walitza, S, Wang, Y, Wendland, Jr, Westenberg, Hg, Shugart, Yy, Miguel, Ec, Mcmahon, W, Wagner, M, Nicolini, H, Posthuma, D, Hanna, Gl, Heutink, P, Denys, D, Arnold, Pd, Oostra, Ba, Nestadt, G, Freimer, Nb, Pauls, Dl, Wray, Nr, Stewart, Se, Mathews, Ca, Knowles, Ja, Cox, Nj, Scharf, Jm, Functional Genomics, Neuroscience Campus Amsterdam - Neurobiology of Mental Health, Neuroscience Campus Amsterdam - Brain Mechanisms in Health & Disease, Davis, Lea K, Yu, Dongmei, Keenan, Clare L, Gamazon, Eric R, Lee, S Hong, Scharf, Jeremiah M, Child and Adolescent Psychiatry / Psychology, Clinical Genetics, Other departments, ANS - Amsterdam Neuroscience, APH - Amsterdam Public Health, Adult Psychiatry, and Graduate School

Subjects

Cancer Research, Obsessive-Compulsive Disorder, COMPLEX DISEASES, Genome-wide association study, heritability, Genome-wide association studies, neurobehavioral disorders, COMMON SNPS, 0302 clinical medicine, Gene Frequency, Missing heritability problem, MISSING HERITABILITY, Cerebellum, Heritability of autism, BRAIN, Genetics (clinical), Genetics, ddc:616, Genetics & Heredity, 0303 health sciences, Chromosome 15, humanities, FAMILY, obsessive-compulsive disorder, genetics [Tourette Syndrome], Phenotype, NEUROPSYCHIATRIC DISORDERS, GENÔMICA, Research Article, EXPRESSION, lcsh:QH426-470, SNP, Biology, Quantitative trait locus, Genome-wide Complex Trait Analysis, Genetic correlation, behavioral disciplines and activities, Polymorphism, Single Nucleotide, Chromosomes, TIC DISORDERS, 03 medical and health sciences, Quantitative Trait, Heritable, mental disorders, genetic risk factors, Humans, ddc:610, AUTISM, Variant genotypes, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, genetics [Obsessive-Compulsive Disorder], Tourette syndrome, Parietal lobe, Biology and Life Sciences, Heritability, Genetic architecture, Minor allele frequency, Trastorno Obsesivo Compulsivo, lcsh:Genetics, pathology [Obsessive-Compulsive Disorder], genetic variation, pathology [Tourette Syndrome], Síndrome de Tourette, 030217 neurology & neurosurgery, GILLES, Genome-Wide Association Study, Tourette Syndrome

Abstract

The direct estimation of heritability from genome-wide common variant data as implemented in the program Genome-wide Complex Trait Analysis (GCTA) has provided a means to quantify heritability attributable to all interrogated variants. We have quantified the variance in liability to disease explained by all SNPs for two phenotypically-related neurobehavioral disorders, obsessive-compulsive disorder (OCD) and Tourette Syndrome (TS), using GCTA. Our analysis yielded a heritability point estimate of 0.58 (se = 0.09, p = 5.64e-12) for TS, and 0.37 (se = 0.07, p = 1.5e-07) for OCD. In addition, we conducted multiple genomic partitioning analyses to identify genomic elements that concentrate this heritability. We examined genomic architectures of TS and OCD by chromosome, MAF bin, and functional annotations. In addition, we assessed heritability for early onset and adult onset OCD. Among other notable results, we found that SNPs with a minor allele frequency of less than 5% accounted for 21% of the TS heritability and 0% of the OCD heritability. Additionally, we identified a significant contribution to TS and OCD heritability by variants significantly associated with gene expression in two regions of the brain (parietal cortex and cerebellum) for which we had available expression quantitative trait loci (eQTLs). Finally we analyzed the genetic correlation between TS and OCD, revealing a genetic correlation of 0.41 (se = 0.15, p = 0.002). These results are very close to previous heritability estimates for TS and OCD based on twin and family studies, suggesting that very little, if any, heritability is truly missing (i.e., unassayed) from TS and OCD GWAS studies of common variation. The results also indicate that there is some genetic overlap between these two phenotypically-related neuropsychiatric disorders, but suggest that the two disorders have distinct genetic architectures., Author Summary Family and twin studies have shown that genetic risk factors are important in the development of Tourette Syndrome (TS) and obsessive compulsive disorder (OCD). However, efforts to identify the individual genetic risk factors involved in these two neuropsychiatric disorders have been largely unsuccessful. One possible explanation for this is that many genetic variations scattered throughout the genome each contribute a small amount to the overall risk. For TS and OCD, the genetic architecture (characterized by the number, frequency, and distribution of genetic risk factors) is presently unknown. This study examined the genetic architecture of TS and OCD in a variety of ways. We found that rare genetic changes account for more genetic risk in TS than in OCD; certain chromosomes contribute to OCD risk more than others; and variants that influence the level of genes expressed in two regions of the brain can account for a significant amount of risk for both TS and OCD. Results from this study might help in determining where, and what kind of variants are individual risk factors for TS and OCD and where they might be located in the human genome.

Published

2013

10. The genetics of trichotillomania and excoriation disorder: A systematic review.

Author

Reid M, Lin A, Farhat LC, Fernandez TV, and Olfson E

Subjects

Humans, Genome-Wide Association Study, Excoriation Disorder genetics, Obsessive-Compulsive Disorder genetics, Trichotillomania genetics

Abstract

Background: Trichotillomania (TTM) and excoriation disorder (ED) are impairing obsessive-compulsive related disorders that are common in the general population and for which there are no clear first-line medications, highlighting the need to better understand the underlying biology of these disorders to inform treatments. Given the importance of genetics in obsessive-compulsive disorder (OCD), evaluating genetic factors underlying TTM and ED may advance knowledge about the pathophysiology of these body-focused repetitive behaviors., Aim: In this systematic review, we summarize the available evidence on the genetics of TTM and ED and highlight gaps in the field warranting further research., Method: We systematically searched Embase, PsycInfo, PubMed, Medline, Scopus, and Web of Science for original studies in genetic epidemiology (family or twin studies) and molecular genetics (candidate gene and genome-wide) published up to June 2023., Results: Of the 3536 records identified, 109 studies were included in this review. These studies indicated that genetic factors play an important role in the development of TTM and ED, some of which may be shared across the OCD spectrum, but there are no known high-confidence specific genetic risk factors for either TTM or ED., Conclusions: Our review underscores the need for additional genome-wide research conducted on the genetics of TTM and ED, for instance, genome-wide association and whole-genome/whole-exome DNA sequencing studies. Recent advances in genomics have led to the discovery of risk genes in several psychiatric disorders, including related conditions such as OCD, but to date, TTM and ED have remained understudied., Competing Interests: Declaration of competing interest The authors have no conflicts of interest., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

11. Rare de novo damaging DNA variants are enriched in attention-deficit/hyperactivity disorder and implicate risk genes.

Author

Olfson E, Farhat LC, Liu W, Vitulano LA, Zai G, Lima MO, Parent J, Polanczyk GV, Cappi C, Kennedy JL, and Fernandez TV

Subjects

Humans, Female, Child, Male, Case-Control Studies, Histone Demethylases genetics, Mutation, Risk Factors, Attention Deficit Disorder with Hyperactivity genetics, Genetic Predisposition to Disease genetics, Exome Sequencing

Abstract

Research demonstrates the important role of genetic factors in attention-deficit/hyperactivity disorder (ADHD). DNA sequencing of families provides a powerful approach for identifying de novo (spontaneous) variants, leading to the discovery of hundreds of clinically informative risk genes for other childhood neurodevelopmental disorders. This approach has yet to be extensively leveraged in ADHD. We conduct whole-exome DNA sequencing in 152 families, comprising a child with ADHD and both biological parents, and demonstrate a significant enrichment of rare and ultra-rare de novo gene-damaging mutations in ADHD cases compared to unaffected controls. Combining these results with a large independent case-control DNA sequencing cohort (3206 ADHD cases and 5002 controls), we identify lysine demethylase 5B (KDM5B) as a high-confidence risk gene for ADHD and estimate that 1057 genes contribute to ADHD risk. Using our list of genes harboring ultra-rare de novo damaging variants, we show that these genes overlap with previously reported risk genes for other neuropsychiatric conditions and are enriched in several canonical biological pathways, suggesting early neurodevelopmental underpinnings of ADHD. This work provides insight into the biology of ADHD and demonstrates the discovery potential of DNA sequencing in larger parent-child trio cohorts., (© 2024. The Author(s).)

Published

2024

12. Intense Imagery Movements May Lead to Maladaptive Daydreaming: A Case Series and Literature Review.

Author

Hedderly T, Eccles C, Malik O, Abdulsatar F, Mitchell C, Owen T, Soffer-Dudek N, Grose C, Fernandez TV, Robinson S, and Somer E

Subjects

Adult, Female, Humans, Male, Middle Aged, Fantasy, Movement, Obsessive-Compulsive Disorder psychology, Obsessive-Compulsive Disorder physiopathology, Adolescent, Young Adult, Imagination physiology

Abstract

Background: This case series highlights the connection between childhood intense imagery movements (IIM) and adult-reported maladaptive daydreaming (MD). Motor stereotypies occur in typically developing children and also with co-occurring neurodevelopmental differences. A subgroup with complex motor stereotypies reports accompanying intense imagery, often enhanced by the movements. This phenomenon can persist into adulthood and, in some cases, will need active management to prevent significant distress and impairment., Cases: Six adults, self-reporting maladaptive daydreaming associated with stereotypies, are presented to demonstrate the associations., Literature Review: The clinical significance and function of IIM and MD are unclear, but several hypotheses are discussed, including the mechanism of emotional regulation through sensory seeking, as a process for processing childhood psychological trauma, as intrusive thoughts or images as part of a subtype of Obsessive Compulsive Disorder, or as a result of diverse attentional networks seen in neurodevelopmental disorders., Conclusions: This paper highlights important connections between IIM and MD. Many adults with MD show a childhood origin of stereotypical movements. Whilst immersive daydreaming may provide creativity and emotional regulation, there is evidence of distress and impairment of function for some adults, leading to MD diagnoses. Recognizing this phenomenon is important for all neurologists and physicians working with stereotypical movements., (© 2024 The Authors. Movement Disorders Clinical Practice published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published

2024

13. Genome-wide association study identifies 30 obsessive-compulsive disorder associated loci.

Author

Strom NI, Gerring ZF, Galimberti M, Yu D, Halvorsen MW, Abdellaoui A, Rodriguez-Fontenla C, Sealock JM, Bigdeli T, Coleman JR, Mahjani B, Thorp JG, Bey K, Burton CL, Luykx JJ, Zai G, Alemany S, Andre C, Askland KD, Banaj N, Barlassina C, Nissen JB, Bienvenu OJ, Black D, Bloch MH, Boberg J, Børte S, Bosch R, Breen M, Brennan BP, Brentani H, Buxbaum JD, Bybjerg-Grauholm J, Byrne EM, Cabana-Dominguez J, Camarena B, Camarena A, Cappi C, Carracedo A, Casas M, Cavallini MC, Ciullo V, Cook EH, Crosby J, Cullen BA, De Schipper EJ, Delorme R, Djurovic S, Elias JA, Estivill X, Falkenstein MJ, Fundin BT, Garner L, German C, Gironda C, Goes FS, Grados MA, Grove J, Guo W, Haavik J, Hagen K, Harrington K, Havdahl A, Höffler KD, Hounie AG, Hucks D, Hultman C, Janecka M, Jenike E, Karlsson EK, Kelley K, Klawohn J, Krasnow JE, Krebs K, Lange C, Lanzagorta N, Levey D, Lindblad-Toh K, Macciardi F, Maher B, Mathes B, McArthur E, McGregor N, McLaughlin NC, Meier S, Miguel EC, Mulhern M, Nestadt PS, Nurmi EL, O'Connell KS, Osiecki L, Ousdal OT, Palviainen T, Pedersen NL, Piras F, Piras F, Potluri S, Rabionet R, Ramirez A, Rauch S, Reichenberg A, Riddle MA, Ripke S, Rosário MC, Sampaio AS, Schiele MA, Skogholt AH, Sloofman LGSG, Smit J, Soler AM, Thomas LF, Tifft E, Vallada H, van Kirk N, Veenstra-VanderWeele J, Vulink NN, Walker CP, Wang Y, Wendland JR, Winsvold BS, Yao Y, Zhou H, Agrawal A, Alonso P, Berberich G, Bucholz KK, Bulik CM, Cath D, Denys D, Eapen V, Edenberg H, Falkai P, Fernandez TV, Fyer AJ, Gaziano JM, Geller DA, Grabe HJ, Greenberg BD, Hanna GL, Hickie IB, Hougaard DM, Kathmann N, Kennedy J, Lai D, Landén M, Le Hellard S, Leboyer M, Lochner C, McCracken JT, Medland SE, Mortensen PB, Neale BM, Nicolini H, Nordentoft M, Pato M, Pato C, Pauls DL, Piacentini J, Pittenger C, Posthuma D, Ramos-Quiroga JA, Rasmussen SA, Richter MA, Rosenberg DR, Ruhrmann S, Samuels JF, Sandin S, Sandor P, Spalletta G, Stein DJ, Stewart SE, Storch EA, Stranger BE, Turiel M, Werge T, Andreassen OA, Børglum AD, Walitza S, Hveem K, Hansen BK, Rück CP, Martin NG, Milani L, Mors O, Reichborn-Kjennerud T, Ribasés M, Kvale G, Mataix-Cols D, Domschke K, Grünblatt E, Wagner M, Zwart JA, Breen G, Nestadt G, Kaprio J, Arnold PD, Grice DE, Knowles JA, Ask H, Verweij KJ, Davis LK, Smit DJ, Crowley JJ, Scharf JM, Stein MB, Gelernter J, Mathews CA, Derks EM, and Mattheisen M

Abstract

Obsessive-compulsive disorder (OCD) affects ~1% of the population and exhibits a high SNP-heritability, yet previous genome-wide association studies (GWAS) have provided limited information on the genetic etiology and underlying biological mechanisms of the disorder. We conducted a GWAS meta-analysis combining 53,660 OCD cases and 2,044,417 controls from 28 European-ancestry cohorts revealing 30 independent genome-wide significant SNPs and a SNP-based heritability of 6.7%. Separate GWAS for clinical, biobank, comorbid, and self-report sub-groups found no evidence of sample ascertainment impacting our results. Functional and positional QTL gene-based approaches identified 249 significant candidate risk genes for OCD, of which 25 were identified as putatively causal, highlighting WDR6 , DALRD3 , CTNND1 and genes in the MHC region. Tissue and single-cell enrichment analyses highlighted hippocampal and cortical excitatory neurons, along with D1- and D2-type dopamine receptor-containing medium spiny neurons, as playing a role in OCD risk. OCD displayed significant genetic correlations with 65 out of 112 examined phenotypes. Notably, it showed positive genetic correlations with all included psychiatric phenotypes, in particular anxiety, depression, anorexia nervosa, and Tourette syndrome, and negative correlations with a subset of the included autoimmune disorders, educational attainment, and body mass index.. This study marks a significant step toward unraveling its genetic landscape and advances understanding of OCD genetics, providing a foundation for future interventions to address this debilitating disorder., Competing Interests: Chris German is employed by and hold stock or stock options in 23andMe, Inc. Erika L. Nurmi is on the Scientific Advisory Board for Myriad Genetics and Medical Advisory Board for Tourette Association of America and received Clinical trial funding from Emalex and Octapharma Pharmaceuticals. Jeremy Veenstra-VanderWeele has served on advisory boards or consulted with Roche, Novartis, and SynapDx; received research funding from Roche, Novartis, SynapDx, Seaside Therapeutics, Forest, Janssen, Acadia, Yamo, and MapLight; received stipends for editorial work from Wiley and Springer. Jens R. Wendland is a current employee and shareholder of Takeda Pharmaceuticals and a past employee and shareholder of F. Hoffmann-La Roche, Pfizer and Nestle Health Science. Cynthia M. Bulik reports: Pearson (author, royalty recipient).Peter Falkai reports no conflict of interest regarding this study and reports to have received financial support and Advisory Board: Richter, Recordati, Boehringer-Ingelheim, Otsuka, Janssen and Lundbeck. Hans J. Grabe has received travel grants and speakers honoraria from Fresenius Medical Care, Neuraxpharm, Servier and Janssen Cilag as well as research funding from Fresenius Medical Care. Ian B. Hickie is the Co-Director, Health and Policy at the Brain and Mind Centre (BMC) University of Sydney, Australia. The BMC operates an early-intervention youth services at Camperdown under contract to headspace. Professor Hickie has previously led community-based and pharmaceutical industry-supported (Wyeth, Eli Lily, Servier, Pfizer, AstraZeneca, Janssen Cilag) projects focused on the identification and better management of anxiety and depression. He is the Chief Scientific Advisor to, and a 3.2% equity shareholder in, InnoWell Pty Ltd which aims to transform mental health services through the use of innovative technologies. Benjamin M. Neale is a member of the scientific advisory board at Deep Genomics and Neumora. Christopher Pittenger consults and/or receives research support from Biohaven Pharmaceuticals, Freedom Biosciences, Ceruvia Lifesciences, Transcend Therapeutics, UCB BioPharma, and F-Prime Capital Partners. He owns equity in Alco Therapeutics. These relationships are not related to the current work. Dan J. Stein has received consultancy honoraria from Discovery Vitality, Johnson & Johnson, Kanna, L’Oreal, Lundbeck, Orion, Sanofi, Servier, Takeda and Vistagen. Eric A. Storch reports receiving research funding to his institution from the Ream Foundation, International OCD Foundation, and NIH. He was formerly a consultant for Brainsway and Biohaven Pharmaceuticals in the past 12 months. He owns stock less than $5000 in NView/Proem for distribution related to the YBOCS scales. He receives book royalties from Elsevier, Wiley, Oxford, American Psychological Association, Guildford, Springer, Routledge, and Jessica Kingsley. Ole A. Andreasson reports to be a consultant to Cortechs.ai, Precision Health AS, speakers honorarium from Otsuka, Lundbeck, Sunovion, Janssen. Anders D. Børglum has received speaker fee from Lundbeck. David Mataix-Cols receives royalties for contributing articles to UpToDate, Wolters Kluwer Health, and personal fees for editorial work from Elsevier, all unrelated to the current work. Murray B. Stein has in the past 3 years received consulting income from Acadia Pharmaceuticals, BigHealth, Biogen, Bionomics, Boehringer Ingelheim, Clexio, Eisai, EmpowerPharm, Engrail Therapeutics, Janssen, Jazz Pharmaceuticals, NeuroTrauma Sciences, Otsuka, PureTech Health, Sage Therapeutics, Sumitomo Pharma, and Roche/Genentech. Dr. Stein has stock options in Oxeia Biopharmaceuticals and EpiVario. He has been paid for his editorial work on Depression and Anxiety (Editor-in-Chief), Biological Psychiatry (Deputy Editor), and UpToDate (Co-Editor-in-Chief for Psychiatry). Joel Gelernter is paid for editorial work by the journal Complex Psychiatry. Pino Alonso has received funding from Biohaven, Boston Scientific, Medtronic. All other authors report no conflicts of interest.

Published

2024

14. Clinical characteristics of probands with obsessive-compulsive disorder from simplex and multiplex families.

Author

Lima MO, Saraiva LC, Ramos VR, Oliveira MC, Costa DLC, Fernandez TV, Crowley JJ, Storch EA, Shavitt RG, Miguel EC, and Cappi C

Subjects

Humans, Comorbidity, Compulsive Personality Disorder, Brazil epidemiology, Sexual Behavior, Obsessive-Compulsive Disorder epidemiology, Obsessive-Compulsive Disorder genetics, Obsessive-Compulsive Disorder diagnosis

Abstract

Genetic and non-genetic factors contribute to obsessive-compulsive disorder (OCD), with strong evidence of familial clustering. Genomic studies in psychiatry have used the concepts of families that are "simplex" (one affected) versus "multiplex" (multiple affected). Our study compares demographic and clinical data from OCD probands in simplex and multiplex families to uncover potential differences. We analyzed 994 OCD probands (501 multiplex, 493 simplex) from the Brazilian Research Consortium on Obsessive-Compulsive Spectrum Disorders (C-TOC). Clinicians administered the Structured Clinical Interview for DSM-IV (SCID-IV) to diagnose, Yale-Brown Obsessive-Compulsive Scale (Y-BOCS) to assess severity, and Dimensional Yale-Brown Obsessive-Compulsive Scale (DY-BOCS) to assess symptom dimensionality. Demographics, clinical history, and family data were collected. Compared to simplex probands, multiplex probands had earlier onset, higher sexual/religious and hoarding dimensions severity, increased comorbidity with other obsessive-compulsive-related disorders (OCRD), and higher family history of psychiatric disorders. These comparisons provide the first insights into demographic and clinical differences between Latin American simplex and multiplex families with OCD. Distinct clinical patterns may suggest diverse genetic and environmental influences. Further research is needed to clarify these differences, which have implications for symptom monitoring and management., Competing Interests: Declaration of Competing Interest Dr. Shavitt reports receiving research funding to her institution from the Brazilian National Council for Scientific and Technological Development (CNPq) and the Sao Paulo Research Foundation (FAPESP). Dr. Storch reports receiving research funding to his institution from the Ream Foundation, International OCD Foundation, and NIH. He was a consultant for Brainsway and Biohaven Pharmaceuticals (past 12 months). He owns stock less than $5000 in NView (for distribution of the Y-BOCS and CY-BOCS). He receives book royalties from Elsevier, Wiley, Oxford, American Psychological Association, Guildford, Springer, Routledge, and Jessica Kingsley. Dr. Fernandez reports receiving research funding to his institution from the National Institute of Mental Health (NIMH) and from the New Venture Fund., (Copyright © 2023. Published by Elsevier B.V.)

Published

2024

15. Rare X-linked variants carry predominantly male risk in autism, Tourette syndrome, and ADHD.

Author

Wang S, Wang B, Drury V, Drake S, Sun N, Alkhairo H, Arbelaez J, Duhn C, Bal VH, Langley K, Martin J, Hoekstra PJ, Dietrich A, Xing J, Heiman GA, Tischfield JA, Fernandez TV, Owen MJ, O'Donovan MC, Thapar A, State MW, and Willsey AJ

Subjects

Humans, Male, Female, Attention Deficit Disorder with Hyperactivity genetics, Tourette Syndrome genetics, Autistic Disorder genetics, Autism Spectrum Disorder genetics, Neurodevelopmental Disorders

Abstract

Autism spectrum disorder (ASD), Tourette syndrome (TS), and attention-deficit/hyperactivity disorder (ADHD) display strong male sex bias, due to a combination of genetic and biological factors, as well as selective ascertainment. While the hemizygous nature of chromosome X (Chr X) in males has long been postulated as a key point of "male vulnerability", rare genetic variation on this chromosome has not been systematically characterized in large-scale whole exome sequencing studies of "idiopathic" ASD, TS, and ADHD. Here, we take advantage of informative recombinations in simplex ASD families to pinpoint risk-enriched regions on Chr X, within which rare maternally-inherited damaging variants carry substantial risk in males with ASD. We then apply a modified transmission disequilibrium test to 13,052 ASD probands and identify a novel high confidence ASD risk gene at exome-wide significance (MAGEC3). Finally, we observe that rare damaging variants within these risk regions carry similar effect sizes in males with TS or ADHD, further clarifying genetic mechanisms underlying male vulnerability in multiple neurodevelopmental disorders that can be exploited for systematic gene discovery., (© 2023. The Author(s).)

Published

2023

16. Protocol description for a randomized controlled trial of fMRI neurofeedback for tics in adolescents with Tourette Syndrome.

Author

Awasthi J, Harris-Starling C, Kalvin C, Pittman B, Park H, Bloch M, Fernandez TV, Sukhodolsky DG, and Hampson M

Subjects

Humans, Adolescent, Magnetic Resonance Imaging methods, Randomized Controlled Trials as Topic, Tourette Syndrome diagnostic imaging, Tourette Syndrome therapy, Tics diagnostic imaging, Tics therapy, Neurofeedback methods, Tic Disorders

Abstract

This article describes the protocol for a randomized, controlled clinical trial of a neurofeedback (NF) intervention for Tourette Syndrome (TS) and chronic tic disorder. The intervention involves using functional magnetic resonance imaging (fMRI) to provide feedback regarding activity in the supplementary motor area: participants practice controlling this brain area while using the feedback as a training signal. The previous version of this NF protocol was tested in a small study (n = 21) training adolescents with TS that yielded clinically promising results. Therefore, we plan a larger trial. Here we describe the background literature that motivated this work, the design of our original neurofeedback study protocol, and adaptations of the research study protocol for the new trial. We focus on those ideas incorporated into our protocol that may be of interest to others designing and running NF studies. For example, we highlight our approach for defining an unrelated brain region to be trained in the control group that is based on identifying a region with low functional connectivity to the target area. Consistent with a desire for transparency and open science, the new protocol is described in detail here prior to conducting the trial., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

17. Primary complex motor stereotypies are associated with de novo damaging DNA coding mutations that identify KDM5B as a risk gene.

Author

Fernandez TV, Williams ZP, Kline T, Rajendran S, Augustine F, Wright N, Sullivan CAW, Olfson E, Abdallah SB, Liu W, Hoffman EJ, Gupta AR, and Singer HS

Subjects

Humans, DNA, Exome Sequencing, Mutation, Genetic Predisposition to Disease, Nuclear Proteins genetics, Repressor Proteins genetics, Jumonji Domain-Containing Histone Demethylases genetics, Autism Spectrum Disorder genetics, Tourette Syndrome

Abstract

Motor stereotypies are common in children with autism spectrum disorder (ASD), intellectual disability, or sensory deprivation, as well as in typically developing children ("primary" stereotypies, pCMS). The precise pathophysiological mechanism for motor stereotypies is unknown, although genetic etiologies have been suggested. In this study, we perform whole-exome DNA sequencing in 129 parent-child trios with pCMS and 853 control trios (118 cases and 750 controls after quality control). We report an increased rate of de novo predicted-damaging DNA coding variants in pCMS versus controls, identifying KDM5B as a high-confidence risk gene and estimating 184 genes conferring risk. Genes harboring de novo damaging variants in pCMS probands show significant overlap with those in Tourette syndrome, ASD, and those in ASD probands with high versus low stereotypy scores. An exploratory analysis of these pCMS gene expression patterns finds clustering within the cortex and striatum during early mid-fetal development. Exploratory gene ontology and network analyses highlight functional convergence in calcium ion transport, demethylation, cell signaling, cell cycle and development. Continued sequencing of pCMS trios will identify additional risk genes and provide greater insights into biological mechanisms of stereotypies across diagnostic boundaries., Competing Interests: I have read the journal’s policy, and the authors of this manuscript have the following competing interests: Dr. Fernandez receives research/grant support from the National Institutes of Mental Health. Dr. Olfson receives research support from the National Institutes of Mental Health, the Alan B. Slifka Foundation through the Riva Ariella Ritvo endowment, and the International Obsessive-Compulsive Disorder Foundation. Dr. Singer serves as a consultant for Abide Therapeutics, Inc; Cello Health BioConsulting; ClearView Healthcare Partners; Teva Pharmaceutical Industries Ltd; and Trinity Partners, LLC. Dr. Singer receives publishing royalties from Elsevier and research/grant support from the Tourette Association of America. Other authors declare no potential conflicts. This does not alter our adherence to PLOS ONE policies on sharing data and materials., (Copyright: © 2023 Fernandez et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

18. Efficient reconstruction of cell lineage trees for cell ancestry and cancer.

Author

Jang Y, Fasching L, Bae T, Tomasini L, Schreiner J, Szekely A, Fernandez TV, Leckman JF, Vaccarino FM, and Abyzov A

Subjects

Humans, Germ Cells, Mutation, Cell Lineage, Neoplasms pathology, Software

Abstract

Mosaic mutations can be used to track cell ancestries and reconstruct high-resolution lineage trees during cancer progression and during development, starting from the first cell divisions of the zygote. However, this approach requires sampling and analyzing the genomes of multiple cells, which can be redundant in lineage representation, limiting the scalability of the approach. We describe a strategy for cost- and time-efficient lineage reconstruction using clonal induced pluripotent stem cell lines from human skin fibroblasts. The approach leverages shallow sequencing coverage to assess the clonality of the lines, clusters redundant lines and sums their coverage to accurately discover mutations in the corresponding lineages. Only a fraction of lines needs to be sequenced to high coverage. We demonstrate the effectiveness of this approach for reconstructing lineage trees during development and in hematologic malignancies. We discuss and propose an optimal experimental design for reconstructing lineage trees., (© The Author(s) 2023. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2023

19. Characteristics of trichotillomania and excoriation disorder across the lifespan.

Author

Lin A, Farhat LC, Flores JM, Levine JLS, Fernandez TV, Bloch MH, and Olfson E

Subjects

Adolescent, Humans, Child, Preschool, Child, Young Adult, Adult, Middle Aged, Aged, Longevity, Cross-Sectional Studies, Trichotillomania diagnosis, Self-Injurious Behavior diagnosis, Obsessive-Compulsive Disorder diagnosis

Abstract

Trichotillomania (hair-pulling disorder) and excoriation (skin-picking) disorder are body-focused repetitive behaviors, which often first present in adolescence and cause distress and impairment into adulthood. Few studies have examined the clinical characteristics of the co-occurrence of these conditions across the lifespan. We examined cross-sectional survey responses collected from April 2018-February 2020 to evaluate the relationship between trichotillomania, excoriation disorder, and their co-occurrence. Responses from individuals with trichotillomania (n = 50), excoriation disorder (n = 52), and both conditions (n = 50) ages 4-67 years old were compared for co-occurring conditions and current symptoms. Self-report measures of hair-pulling and skin-picking severity and subtypes were assessed. Gender, race, and co-occurring conditions were generally similarly distributed across the three groups with high rates of self-reported anxiety (63-82%), depression (34-50%), obsessive-compulsive disorder (16-29%), and attention-deficit/hyperactivity disorder (12-32%). Among individuals with both trichotillomania and excoriation disorder, significant positive correlations were observed between hair-pulling and skin-picking severity scores as well as hair-pulling and skin-picking subtypes. Hair-pulling and skin-picking severity peaked at the transition from adolescence to adulthood and hair-pulling/skin-picking styles appeared to shift across the lifespan. Our results support several similarities between trichotillomania and excoriation disorder, providing new insight into the clinical characteristics of these conditions., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest. M.H.B. has received grant or research support from Therapix Biosciences, Emalex Biosciences, Neurocrine Biosciences, Janssen Pharmaceuticals, Biohaven Pharmaceuticals, NIH, National Alliance for Research on Schizophrenia and Depression (NARSAD), Lesbian Health Fund, Yale Foundation for Lesbian and Gay Studies (FLAGS), and Patterson Foundation. He has served on the advisory board/data monitoring and safety board of Therapix Biosciences. He serves as associate editor of Journal of Child Psychology and Psychiatry and on the editorial boards of Journal of Child and Adolescent Psychopharmacology and Depression & Anxiety. He has received royalties from Wolters Kluwer for Lewis's Child and Adolescent Psychiatry: A Comprehensive Textbook, Fifth Edition. He has received moonlighting pay from the Veteran's Administration., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

20. Whole-exome DNA sequencing in childhood anxiety disorders identifies rare de novo damaging coding variants.

Author

Olfson E, Lebowitz ER, Hommel G, Pashankar N, Silverman WK, and Fernandez TV

Subjects

Anxiety Disorders genetics, Genetic Predisposition to Disease genetics, Humans, Sequence Analysis, DNA, Biological Products, Exome genetics

Abstract

Background: Genetic factors contribute to the development of anxiety disorders, yet few risk genes have been previously identified. One genomic approach that has achieved success in identifying risk genes in related childhood neuropsychiatric conditions is investigations of de novo variants, which has yet to be leveraged in childhood anxiety disorders., Methods: We performed whole-exome DNA sequencing in 76 parent-child trios (68 trios after quality control) recruited from a childhood anxiety disorder clinic and compared rates of rare and ultra-rare de novo variants with 790 previously sequenced control trios (783 trios after quality control). We then explored overlap with risk genes for other neuropsychiatric conditions and enrichment in biologic pathways., Results: Rare and ultra-rare de novo likely gene disrupting and predicted damaging missense genetic variants are enriched in anxiety disorder probands compared with controls (rare variant rate ratio 1.97, 95% confidence interval [CI]: 1.11-3.34, p = .03; ultra-rare variant rate ratio 2.59, 95% CI: 1.35-4.70, p = .008). These de novo damaging variants occur in individuals with a variety of childhood anxiety disorders and impact genes that have been associated with other neuropsychiatric conditions. Exploratory network analyses reveal enrichment of deleterious variants in canonical biological pathways., Conclusions: These findings provide a path for identifying risk genes and promising biologic pathways in childhood anxiety disorders by de novo genetic variant detection. Our results suggest the discovery potential of applying this approach in larger anxiety disorder cohorts to advance our understanding of the underlying biology of these common and debilitating conditions., (© 2022 Wiley Periodicals LLC.)

Published

2022

21. Investigation of gene-environment interactions in relation to tic severity.

Author

Abdulkadir M, Yu D, Osiecki L, King RA, Fernandez TV, Brown LW, Cheon KA, Coffey BJ, Garcia-Delgar B, Gilbert DL, Grice DE, Hagstrøm J, Hedderly T, Heyman I, Hong HJ, Huyser C, Ibanez-Gomez L, Kim YK, Kim YS, Koh YJ, Kook S, Kuperman S, Leventhal B, Madruga-Garrido M, Maras A, Mir P, Morer A, Münchau A, Plessen KJ, Roessner V, Shin EY, Song DH, Song J, Visscher F, Zinner SH, Mathews CA, Scharf JM, Tischfield JA, Heiman GA, Dietrich A, and Hoekstra PJ

Subjects

Female, Gene-Environment Interaction, Genome-Wide Association Study, Humans, Pregnancy, Severity of Illness Index, Attention Deficit Disorder with Hyperactivity genetics, Autism Spectrum Disorder genetics, Tics, Tourette Syndrome

Abstract

Tourette syndrome (TS) is a neuropsychiatric disorder with involvement of genetic and environmental factors. We investigated genetic loci previously implicated in Tourette syndrome and associated disorders in interaction with pre- and perinatal adversity in relation to tic severity using a case-only (N = 518) design. We assessed 98 single-nucleotide polymorphisms (SNPs) selected from (I) top SNPs from genome-wide association studies (GWASs) of TS; (II) top SNPs from GWASs of obsessive-compulsive disorder (OCD), attention-deficit/hyperactivity disorder (ADHD), and autism spectrum disorder (ASD); (III) SNPs previously implicated in candidate-gene studies of TS; (IV) SNPs previously implicated in OCD or ASD; and (V) tagging SNPs in neurotransmitter-related candidate genes. Linear regression models were used to examine the main effects of the SNPs on tic severity, and the interaction effect of these SNPs with a cumulative pre- and perinatal adversity score. Replication was sought for SNPs that met the threshold of significance (after correcting for multiple testing) in a replication sample (N = 678). One SNP (rs7123010), previously implicated in a TS meta-analysis, was significantly related to higher tic severity. We found a gene-environment interaction for rs6539267, another top TS GWAS SNP. These findings were not independently replicated. Our study highlights the future potential of TS GWAS top hits in gene-environment studies., (© 2021. The Author(s).)

Published

2021

22. Whole-exome sequencing identifies genes associated with Tourette's disorder in multiplex families.

Author

Cao X, Zhang Y, Abdulkadir M, Deng L, Fernandez TV, Garcia-Delgar B, Hagstrøm J, Hoekstra PJ, King RA, Koesterich J, Kuperman S, Morer A, Nasello C, Plessen KJ, Thackray JK, Zhou L, Dietrich A, Tischfield JA, Heiman GA, and Xing J

Subjects

Cadherin Related Proteins, Family, Genetic Predisposition to Disease genetics, Humans, Nerve Tissue Proteins genetics, Pedigree, Serine Endopeptidases, Exome Sequencing, Tourette Syndrome genetics

Abstract

Tourette's Disorder (TD) is a neurodevelopmental disorder (NDD) that affects about 0.7% of the population and is one of the most heritable NDDs. Nevertheless, because of its polygenic nature and genetic heterogeneity, the genetic etiology of TD is not well understood. In this study, we combined the segregation information in 13 TD multiplex families with high-throughput sequencing and genotyping to identify genes associated with TD. Using whole-exome sequencing and genotyping array data, we identified both small and large genetic variants within the individuals. We then combined multiple types of evidence to prioritize candidate genes for TD, including variant segregation pattern, variant function prediction, candidate gene expression, protein-protein interaction network, candidate genes from previous studies, etc. From the 13 families, 71 strong candidate genes were identified, including both known genes for NDDs and novel genes, such as HtrA Serine Peptidase 3 (HTRA3), Cadherin-Related Family Member 1 (CDHR1), and Zinc Finger DHHC-Type Palmitoyltransferase 17 (ZDHHC17). The candidate genes are enriched in several Gene Ontology categories, such as dynein complex and synaptic membrane. Candidate genes and pathways identified in this study provide biological insight into TD etiology and potential targets for future studies., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2021

23. Leveraging aggression risk gene expression in the developing and adult human brain to guide future precision interventions.

Author

Kim A, Rader SL, Fernandez TV, Vandekar SN, and Lewis AS

Subjects

Adult, Gene Expression, Humans, Aggression, Brain

Published

2021

24. Early developmental asymmetries in cell lineage trees in living individuals.

Author

Fasching L, Jang Y, Tomasi S, Schreiner J, Tomasini L, Brady MV, Bae T, Sarangi V, Vasmatzis N, Wang Y, Szekely A, Fernandez TV, Leckman JF, Abyzov A, and Vaccarino FM

Subjects

Adult, Aged, Blastocyst cytology, Blood Cells, Cell Differentiation, Cell Line, DNA Repair, Female, Fetus cytology, Genetic Variation, Genome, Human, Humans, INDEL Mutation, Induced Pluripotent Stem Cells cytology, Male, Neural Stem Cells cytology, Polymorphism, Single Nucleotide, Blastomeres cytology, Cell Division, Cell Lineage, Embryonic Development

Abstract

Mosaic mutations can be used to track cell lineages in humans. We used cell cloning to analyze embryonic cell lineages in two living individuals and a postmortem human specimen. Of 10 reconstructed postzygotic divisions, none resulted in balanced contributions of daughter lineages to tissues. In both living individuals, one of two lineages from the first cleavage was dominant across tissues, with 90% frequency in blood. We propose that the efficiency of DNA repair contributes to lineage imbalance. Allocation of lineages in postmortem brain correlated with anterior-posterior axis, associating lineage history with cell fate choices in embryos. We establish a minimally invasive framework for defining cell lineages in any living individual, which paves the way for studying their relevance in health and disease., (Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2021

25. Synaptic processes and immune-related pathways implicated in Tourette syndrome.

Author

Tsetsos F, Yu D, Sul JH, Huang AY, Illmann C, Osiecki L, Darrow SM, Hirschtritt ME, Greenberg E, Muller-Vahl KR, Stuhrmann M, Dion Y, Rouleau GA, Aschauer H, Stamenkovic M, Schlögelhofer M, Sandor P, Barr CL, Grados MA, Singer HS, Nöthen MM, Hebebrand J, Hinney A, King RA, Fernandez TV, Barta C, Tarnok Z, Nagy P, Depienne C, Worbe Y, Hartmann A, Budman CL, Rizzo R, Lyon GJ, McMahon WM, Batterson JR, Cath DC, Malaty IA, Okun MS, Berlin C, Woods DW, Lee PC, Jankovic J, Robertson MM, Gilbert DL, Brown LW, Coffey BJ, Dietrich A, Hoekstra PJ, Kuperman S, Zinner SH, Wagner M, Knowles JA, Jeremy Willsey A, Tischfield JA, Heiman GA, Cox NJ, Freimer NB, Neale BM, Davis LK, Coppola G, Mathews CA, Scharf JM, Paschou P, Barr CL, Batterson JR, Berlin C, Budman CL, Cath DC, Coppola G, Cox NJ, Darrow S, Davis LK, Dion Y, Freimer NB, Grados MA, Greenberg E, Hirschtritt ME, Huang AY, Illmann C, King RA, Kurlan R, Leckman JF, Lyon GJ, Malaty IA, Mathews CA, McMahon WM, Neale BM, Okun MS, Osiecki L, Robertson MM, Rouleau GA, Sandor P, Scharf JM, Singer HS, Smit JH, Sul JH, Yu D, Aschauer HAH, Barta C, Budman CL, Cath DC, Depienne C, Hartmann A, Hebebrand J, Konstantinidis A, Mathews CA, Müller-Vahl K, Nagy P, Nöthen MM, Paschou P, Rizzo R, Rouleau GA, Sandor P, Scharf JM, Schlögelhofer M, Stamenkovic M, Stuhrmann M, Tsetsos F, Tarnok Z, Wolanczyk T, Worbe Y, Brown L, Cheon KA, Coffey BJ, Dietrich A, Fernandez TV, Garcia-Delgar B, Gilbert D, Grice DE, Hagstrøm J, Hedderly T, Heiman GA, Heyman I, Hoekstra PJ, Huyser C, Kim YK, Kim YS, King RA, Koh YJ, Kook S, Kuperman S, Leventhal BL, Madruga-Garrido M, Mir P, Morer A, Münchau A, Plessen KJ, Roessner V, Shin EY, Song DH, Song J, Tischfield JA, Willsey AJ, Zinner S, Aschauer H, Barr CL, Barta C, Batterson JR, Berlin C, Brown L, Budman CL, Cath DC, Coffey BJ, Coppola G, Cox NJ, Darrow S, Davis LK, Depienne C, Dietrich A, Dion Y, Fernandez T, Freimer NB, Gilbert D, Grados MA, Greenberg E, Hartmann A, Hebebrand J, Heiman G, Hirschtritt ME, Hoekstra P, Huang AY, Illmann C, Jankovic J, King RA, Kuperman S, Lee PC, Lyon GJ, Malaty IA, Mathews CA, McMahon WM, Müller-Vahl K, Nagy P, Neale BM, Nöthen MM, Okun MS, Osiecki L, Paschou P, Rizzo R, Robertson MM, Rouleau GA, Sandor P, Scharf JM, Schlögelhofer M, Singer HS, Stamenkovic M, Stuhrmann M, Sul JH, Tarnok Z, Tischfield J, Tsetsos F, Willsey AJ, Woods D, Worbe Y, Yu D, and Zinner S

Subjects

Genome-Wide Association Study, Genotype, Humans, Neurons, Tourette Syndrome genetics

Abstract

Tourette syndrome (TS) is a neuropsychiatric disorder of complex genetic architecture involving multiple interacting genes. Here, we sought to elucidate the pathways that underlie the neurobiology of the disorder through genome-wide analysis. We analyzed genome-wide genotypic data of 3581 individuals with TS and 7682 ancestry-matched controls and investigated associations of TS with sets of genes that are expressed in particular cell types and operate in specific neuronal and glial functions. We employed a self-contained, set-based association method (SBA) as well as a competitive gene set method (MAGMA) using individual-level genotype data to perform a comprehensive investigation of the biological background of TS. Our SBA analysis identified three significant gene sets after Bonferroni correction, implicating ligand-gated ion channel signaling, lymphocytic, and cell adhesion and transsynaptic signaling processes. MAGMA analysis further supported the involvement of the cell adhesion and trans-synaptic signaling gene set. The lymphocytic gene set was driven by variants in FLT3, raising an intriguing hypothesis for the involvement of a neuroinflammatory element in TS pathogenesis. The indications of involvement of ligand-gated ion channel signaling reinforce the role of GABA in TS, while the association of cell adhesion and trans-synaptic signaling gene set provides additional support for the role of adhesion molecules in neuropsychiatric disorders. This study reinforces previous findings but also provides new insights into the neurobiology of TS.

Published

2021

26. Empiric Recurrence Risk Estimates for Chronic Tic Disorders: Implications for Genetic Counseling.

Author

Heiman GA, Rispoli J, Seymour C, Leckman JF, King RA, and Fernandez TV

Abstract

Background: Tourette disorder (TD) and other chronic tic disorders are neurodevelopmental/neuropsychiatric disorders characterized by motor and/or vocal tics. Family studies indicate that TD strongly aggregates within families and that other chronic tic disorders are biologically related such that studies typically combine them into any chronic tic disorder (CTD). Because of stigma, bullying, and comorbidity with other neuropsychiatric disorders, CTDs can severely impact the quality of life of individuals with these disorders. Objectives: The genetic architecture of CTDs is complex and heterogeneous, involving a myriad of genetic variants. Thus, providing familial recurrence risks is based on empirical recurrence risk estimates rather than genetic testing. Because empiric recurrence risks for CTDs have not been published, the purpose of this study is to calculate and report these recurrence risks estimates. Methods: Based on population prevalence and increased risk to different relatives from a large population-based family study, we calculated the empiric recurrent risk estimate for each relative type (full sibling, parents, offspring, all first-degree, and all second-degree). Results: The recurrence risk estimate for CTDs in first-degree relatives is 29.9% [95% confidence interval (CI) = 23.2-38.5%]. The risk is higher in males, 33.7% (95% CI = 26.2-43.3%), than females, 24.3% (95% CI = 18.9-31.3%). Conclusions: Given the complex, heterogeneous genetic architecture of CTDs, individuals concerned about recurrence risk should be referred to genetic counseling. Such counseling should include discussion of the derivation and limitations of these empiric recurrence risk estimates, including the upper and lower limits of the range of risk., (Copyright © 2020 Heiman, Rispoli, Seymour, Leckman, King and Fernandez.)

Published

2020

27. De Novo Damaging DNA Coding Mutations Are Associated With Obsessive-Compulsive Disorder and Overlap With Tourette's Disorder and Autism.

Author

Cappi C, Oliphant ME, Péter Z, Zai G, Conceição do Rosário M, Sullivan CAW, Gupta AR, Hoffman EJ, Virdee M, Olfson E, Abdallah SB, Willsey AJ, Shavitt RG, Miguel EC, Kennedy JL, Richter MA, and Fernandez TV

Subjects

Calcium-Binding Proteins, Child, DNA, DNA-Binding Proteins genetics, Humans, Mutation, Transcription Factors genetics, Autism Spectrum Disorder genetics, Autistic Disorder, Obsessive-Compulsive Disorder genetics, Tourette Syndrome genetics

Abstract

Background: Obsessive-compulsive disorder (OCD) is a debilitating neuropsychiatric disorder with a genetic risk component, yet identification of high-confidence risk genes has been challenging. In recent years, risk gene discovery in other complex psychiatric disorders has been achieved by studying rare de novo (DN) coding variants., Methods: We performed whole-exome sequencing in 222 OCD parent-child trios (184 trios after quality control), comparing DN variant frequencies with 777 previously sequenced unaffected trios. We estimated the contribution of DN mutations to OCD risk and the number of genes involved. Finally, we looked for gene enrichment in other datasets and canonical pathways., Results: DN likely gene disrupting and predicted damaging missense variants are enriched in OCD probands (rate ratio, 1.52; p = .0005) and contribute to risk. We identified 2 high-confidence risk genes, each containing 2 DN damaging variants in unrelated probands: CHD8 and SCUBE1. We estimate that 34% of DN damaging variants in OCD contribute to risk and that DN damaging variants in approximately 335 genes contribute to risk in 22% of OCD cases. Furthermore, genes harboring DN damaging variants in OCD are enriched for those reported in neurodevelopmental disorders, particularly Tourette's disorder and autism spectrum disorder. An exploratory network analysis reveals significant functional connectivity and enrichment in canonical pathways, biological processes, and disease networks., Conclusions: Our findings show a pathway toward systematic gene discovery in OCD via identification of DN damaging variants. Sequencing larger cohorts of OCD parent-child trios will reveal more OCD risk genes and will provide needed insights into underlying disease biology., (Copyright © 2019 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2020

28. Interrogating the Genetic Determinants of Tourette's Syndrome and Other Tic Disorders Through Genome-Wide Association Studies.

Author

Yu D, Sul JH, Tsetsos F, Nawaz MS, Huang AY, Zelaya I, Illmann C, Osiecki L, Darrow SM, Hirschtritt ME, Greenberg E, Muller-Vahl KR, Stuhrmann M, Dion Y, Rouleau G, Aschauer H, Stamenkovic M, Schlögelhofer M, Sandor P, Barr CL, Grados M, Singer HS, Nöthen MM, Hebebrand J, Hinney A, King RA, Fernandez TV, Barta C, Tarnok Z, Nagy P, Depienne C, Worbe Y, Hartmann A, Budman CL, Rizzo R, Lyon GJ, McMahon WM, Batterson JR, Cath DC, Malaty IA, Okun MS, Berlin C, Woods DW, Lee PC, Jankovic J, Robertson MM, Gilbert DL, Brown LW, Coffey BJ, Dietrich A, Hoekstra PJ, Kuperman S, Zinner SH, Luðvigsson P, Sæmundsen E, Thorarensen Ó, Atzmon G, Barzilai N, Wagner M, Moessner R, Ophoff R, Pato CN, Pato MT, Knowles JA, Roffman JL, Smoller JW, Buckner RL, Willsey AJ, Tischfield JA, Heiman GA, Stefansson H, Stefansson K, Posthuma D, Cox NJ, Pauls DL, Freimer NB, Neale BM, Davis LK, Paschou P, Coppola G, Mathews CA, and Scharf JM

Subjects

Case-Control Studies, Genetic Predisposition to Disease genetics, Genome-Wide Association Study, Humans, Multifactorial Inheritance genetics, Polymorphism, Single Nucleotide genetics, Risk Factors, Severity of Illness Index, fms-Like Tyrosine Kinase 3 genetics, Tic Disorders genetics, Tourette Syndrome genetics

Abstract

Objective: Tourette's syndrome is polygenic and highly heritable. Genome-wide association study (GWAS) approaches are useful for interrogating the genetic architecture and determinants of Tourette's syndrome and other tic disorders. The authors conducted a GWAS meta-analysis and probed aggregated Tourette's syndrome polygenic risk to test whether Tourette's and related tic disorders have an underlying shared genetic etiology and whether Tourette's polygenic risk scores correlate with worst-ever tic severity and may represent a potential predictor of disease severity., Methods: GWAS meta-analysis, gene-based association, and genetic enrichment analyses were conducted in 4,819 Tourette's syndrome case subjects and 9,488 control subjects. Replication of top loci was conducted in an independent population-based sample (706 case subjects, 6,068 control subjects). Relationships between Tourette's polygenic risk scores (PRSs), other tic disorders, ascertainment, and tic severity were examined., Results: GWAS and gene-based analyses identified one genome-wide significant locus within FLT3 on chromosome 13, rs2504235, although this association was not replicated in the population-based sample. Genetic variants spanning evolutionarily conserved regions significantly explained 92.4% of Tourette's syndrome heritability. Tourette's-associated genes were significantly preferentially expressed in dorsolateral prefrontal cortex. Tourette's PRS significantly predicted both Tourette's syndrome and tic spectrum disorders status in the population-based sample. Tourette's PRS also significantly correlated with worst-ever tic severity and was higher in case subjects with a family history of tics than in simplex case subjects., Conclusions: Modulation of gene expression through noncoding variants, particularly within cortico-striatal circuits, is implicated as a fundamental mechanism in Tourette's syndrome pathogenesis. At a genetic level, tic disorders represent a continuous spectrum of disease, supporting the unification of Tourette's syndrome and other tic disorders in future diagnostic schemata. Tourette's PRSs derived from sufficiently large samples may be useful in the future for predicting conversion of transient tics to chronic tic disorders, as well as tic persistence and lifetime tic severity.

Published

2019

29. De Novo Sequence and Copy Number Variants Are Strongly Associated with Tourette Disorder and Implicate Cell Polarity in Pathogenesis.

Author

Wang S, Mandell JD, Kumar Y, Sun N, Morris MT, Arbelaez J, Nasello C, Dong S, Duhn C, Zhao X, Yang Z, Padmanabhuni SS, Yu D, King RA, Dietrich A, Khalifa N, Dahl N, Huang AY, Neale BM, Coppola G, Mathews CA, Scharf JM, Fernandez TV, Buxbaum JD, De Rubeis S, Grice DE, Xing J, Heiman GA, Tischfield JA, Paschou P, Willsey AJ, and State MW

Published

2018

30. Genetic Insights Into ADHD Biology.

Author

Hayman V and Fernandez TV

Abstract

ADHD is a neurobiological disorder with a large worldwide prevalence causing significant impairment in children, adolescents, and adults. While there is general agreement about genetic contributions toward the disorder, progress in leveraging genetics to learn more about the biology and risk factors for ADHD has been limited. In this perspective, we identified 105 genes from the literature showing at least nominal statistical significance in association with ADHD. We analyzed these genes for enrichment in biological pathways and in known interacting biological networks. We also analyzed the expression patterns of candidate genes across brain regions and across periods of human development. From our analysis, we identify 14 genes that cluster within an interactive gene network, with enrichment in nitric oxide synthase and alpha-1 adrenergic pathways. Furthermore, these genes show enrichment for expression in the cerebellum during childhood through young adulthood, and in the cortex in adolescence and young adulthood. Gene discovery holds great potential for elucidating the unknown biological underpinnings of ADHD. Genome-wide sequencing efforts are underway and are likely to provide important insights that can be leveraged for new treatments and interventions.

Published

2018

31. Investigation of previously implicated genetic variants in chronic tic disorders: a transmission disequilibrium test approach.

Author

Abdulkadir M, Londono D, Gordon D, Fernandez TV, Brown LW, Cheon KA, Coffey BJ, Elzerman L, Fremer C, Fründt O, Garcia-Delgar B, Gilbert DL, Grice DE, Hedderly T, Heyman I, Hong HJ, Huyser C, Ibanez-Gomez L, Jakubovski E, Kim YK, Kim YS, Koh YJ, Kook S, Kuperman S, Leventhal B, Ludolph AG, Madruga-Garrido M, Maras A, Mir P, Morer A, Müller-Vahl K, Münchau A, Murphy TL, Plessen KJ, Roessner V, Shin EY, Song DH, Song J, Tübing J, van den Ban E, Visscher F, Wanderer S, Woods M, Zinner SH, King RA, Tischfield JA, Heiman GA, Hoekstra PJ, and Dietrich A

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Genome-Wide Association Study, Genotype, Humans, Linkage Disequilibrium, Male, Microtubule-Associated Proteins genetics, Middle Aged, Severity of Illness Index, Tryptophan Hydroxylase genetics, Young Adult, Family Health, Polymorphism, Single Nucleotide genetics, Tic Disorders genetics

Abstract

Genetic studies in Tourette syndrome (TS) are characterized by scattered and poorly replicated findings. We aimed to replicate findings from candidate gene and genome-wide association studies (GWAS). Our cohort included 465 probands with chronic tic disorder (93% TS) and both parents from 412 families (some probands were siblings). We assessed 75 single nucleotide polymorphisms (SNPs) in 465 parent-child trios; 117 additional SNPs in 211 trios; and 4 additional SNPs in 254 trios. We performed SNP and gene-based transmission disequilibrium tests and compared nominally significant SNP results with those from a large independent case-control cohort. After quality control 71 SNPs were available in 371 trios; 112 SNPs in 179 trios; and 3 SNPs in 192 trios. 17 were candidate SNPs implicated in TS and 2 were implicated in obsessive-compulsive disorder (OCD) or autism spectrum disorder (ASD); 142 were tagging SNPs from eight monoamine neurotransmitter-related genes (including dopamine and serotonin); 10 were top SNPs from TS GWAS; and 13 top SNPs from attention-deficit/hyperactivity disorder, OCD, or ASD GWAS. None of the SNPs or genes reached significance after adjustment for multiple testing. We observed nominal significance for the candidate SNPs rs3744161 (TBCD) and rs4565946 (TPH2) and for five tagging SNPs; none of these showed significance in the independent cohort. Also, SLC1A1 in our gene-based analysis and two TS GWAS SNPs showed nominal significance, rs11603305 (intergenic) and rs621942 (PICALM). We found no convincing support for previously implicated genetic polymorphisms. Targeted re-sequencing should fully appreciate the relevance of candidate genes.

Published

2018

32. Tourette disorder and other tic disorders.

Author

Fernandez TV, State MW, and Pittenger C

Subjects

Gene-Environment Interaction, Histidine Decarboxylase, Humans, Membrane Proteins genetics, Nerve Tissue Proteins genetics, Tic Disorders genetics, Tourette Syndrome genetics, Tic Disorders etiology, Tourette Syndrome etiology

Abstract

Tourette disorder is a developmental neuropsychiatric condition characterized by vocal and motor tics that can range in severity from mild to disabling. It represents one end of a spectrum of tic disorders and is estimated to affect 0.5-0.7% of the population. Accumulated evidence supports a substantial genetic contribution to disease risk, but the identification of genetic variants that confer risk has been challenging. Positive findings in candidate gene association studies have not replicated, and genomewide association studies have not generated signals of genomewide significance, in large part because of inadequate sample sizes. Rare mutations in several genes have been identified, but their causality is difficult to establish. As in other complex neuropsychiatric disorders, it is likely that Tourette disorder risk involves a combination of common, low-effect and rare, larger-effect variants in multiple genes acting together with environmental factors. With the ongoing collection of larger patient cohorts and the emergence of affordable high-throughput genomewide sequencing, progress is expected to accelerate in coming years., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

33. Genetic susceptibility in obsessive-compulsive disorder.

Author

Fernandez TV, Leckman JF, and Pittenger C

Subjects

Animals, Disease Models, Animal, Glutamic Acid genetics, Glutamic Acid metabolism, Humans, Mice, Signal Transduction genetics, DNA Copy Number Variations genetics, Genetic Predisposition to Disease genetics, Obsessive-Compulsive Disorder genetics

Abstract

Obsessive-compulsive disorder (OCD) is present in 1.5-2.5% of the population and can result in substantial lifelong disability. It is characterized by intrusive thoughts, sensations, and urges and by repetitive behaviors that are difficult to control despite, in most cases, preserved insight as to their excessive or irrational nature. The causes and underlying pathophysiology of OCD are not well understood, which has limited the development of new treatments and interventions. Despite evidence for a substantial genetic contribution to disease risk, identification and replication of genetic variants associated with OCD have been challenging. Decades of candidate gene association studies have provided little insight. They are now being supplanted by modern genomewide approaches to discover both common and rare sequence and structural variants. Studies to date suggest potential novel therapeutic avenues such as modulators of glutamatergic and immune pathways; however, individual genetic findings are not yet statistically robust or replicated. Further efforts are clearly needed to identify specific risk variants and to confirm vulnerable pathways by studying much larger cohorts of patients with comprehensive variant discovery approaches. Mouse knockout models have already made notable inroads into our understanding of OCD pathology; their utility will only increase as specific risk alleles are identified., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

34. Extended-Release Guanfacine Does Not Show a Large Effect on Tic Severity in Children with Chronic Tic Disorders.

Author

Murphy TK, Fernandez TV, Coffey BJ, Rahman O, Gavaletz A, Hanks CE, Tillberg CS, Gomez LI, Sukhodolsky DG, Katsovich L, and Scahill L

Subjects

Adolescent, Child, Double-Blind Method, Female, Humans, Male, Psychiatric Status Rating Scales, Severity of Illness Index, Treatment Outcome, Adrenergic alpha-2 Receptor Agonists therapeutic use, Guanfacine therapeutic use, Tic Disorders drug therapy

Abstract

Objective: To evaluate the tolerability, safety, and preliminary efficacy of extended-release guanfacine in children with chronic tic disorders, including Tourette's disorder (collectively referred to as CTD)., Methods: This was a multisite, 8-week, randomized, double-blind, placebo-controlled trial. The primary outcome measure was the Yale Global Tic Severity Scale (YGTSS) total score. Key secondary outcomes included the Improvement item of Clinical Global Impressions-Improvement (CGI-I) scale and the Tic Symptom Self-report (TSSR). Adverse events were monitored at each visit., Results: Thirty-four subjects (23 boys and 11 girls) of ages 6 to 17 years (mean = 11.1 ± 3.1) with CTD were randomly assigned to extended-release guanfacine (n = 16) or placebo (n = 18). At baseline, the mean YGTSS total score was 26.3 ± 6.6 for the guanfacine group versus 27.7 ± 8.7 for the placebo group. Within the guanfacine group (mean final daily dose of 2.6 ± 1.1 mg, n = 14), the mean YGTSS total score declined to 23.6 ± 6.42 [t(15) = 1.84, p = 0.08; effect size = 0.35]. The results were similar in the placebo group with a score of 24.7 ± 10.54 at week 8 [t(17) = 1.83, p = 0.08; effect size = 0.38]. There was no significant difference in the rate of positive response on the CGI-I between the guanfacine group and placebo (19% [3/16] vs. 22% [4/18], p = 1.0). The most common adverse events were fatigue, drowsiness, dry mouth, headache, and irritability. Two subjects in the guanfacine group discontinued early-one because of an adverse event (depressed mood) and one because of lack of efficacy; two subjects in the placebo group discontinued because of lack of efficacy., Conclusions: This pilot study did not confirm a clinically meaningful effect size within the guanfacine group. These results do not support the launch of a larger efficacy trial for tics in children and adolescents with CTD.

Published

2017

35. De Novo Coding Variants Are Strongly Associated with Tourette Disorder.

Author

Willsey AJ, Fernandez TV, Yu D, King RA, Dietrich A, Xing J, Sanders SJ, Mandell JD, Huang AY, Richer P, Smith L, Dong S, Samocha KE, Neale BM, Coppola G, Mathews CA, Tischfield JA, Scharf JM, State MW, and Heiman GA

Subjects

Adult, Cell Cycle Proteins, Child, Cohort Studies, Female, Genetic Predisposition to Disease, Genetic Variation, Humans, Male, Mutation, Odds Ratio, Parents, Sequence Analysis, DNA, Cadherins genetics, Fibronectins genetics, Intracellular Signaling Peptides and Proteins genetics, Phosphoproteins genetics, Proteins genetics, Receptors, Cell Surface genetics, Tourette Syndrome genetics

Abstract

Whole-exome sequencing (WES) and de novo variant detection have proven a powerful approach to gene discovery in complex neurodevelopmental disorders. We have completed WES of 325 Tourette disorder trios from the Tourette International Collaborative Genetics cohort and a replication sample of 186 trios from the Tourette Syndrome Association International Consortium on Genetics (511 total). We observe strong and consistent evidence for the contribution of de novo likely gene-disrupting (LGD) variants (rate ratio [RR] 2.32, p = 0.002). Additionally, de novo damaging variants (LGD and probably damaging missense) are overrepresented in probands (RR 1.37, p = 0.003). We identify four likely risk genes with multiple de novo damaging variants in unrelated probands: WWC1 (WW and C2 domain containing 1), CELSR3 (Cadherin EGF LAG seven-pass G-type receptor 3), NIPBL (Nipped-B-like), and FN1 (fibronectin 1). Overall, we estimate that de novo damaging variants in approximately 400 genes contribute risk in 12% of clinical cases. VIDEO ABSTRACT., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

36. Neurogenetic analysis of childhood disintegrative disorder.

Author

Gupta AR, Westphal A, Yang DYJ, Sullivan CAW, Eilbott J, Zaidi S, Voos A, Vander Wyk BC, Ventola P, Waqar Z, Fernandez TV, Ercan-Sencicek AG, Walker MF, Choi M, Schneider A, Hedderly T, Baird G, Friedman H, Cordeaux C, Ristow A, Shic F, Volkmar FR, and Pelphrey KA

Subjects

Adaptor Proteins, Signal Transducing genetics, Autism Spectrum Disorder diagnostic imaging, Autism Spectrum Disorder physiopathology, Basic Helix-Loop-Helix Transcription Factors genetics, Brain diagnostic imaging, Brain metabolism, Brain Mapping, Case-Control Studies, Child, Child, Preschool, DNA Copy Number Variations, Disease Progression, Female, Gene Expression, Humans, Intellectual Disability diagnostic imaging, Intellectual Disability physiopathology, Magnetic Resonance Imaging, Male, Maternal Inheritance, Nuclear Proteins genetics, Phenotype, Polymorphism, Genetic, Severity of Illness Index, Siblings, Transcription Factors genetics, Exome Sequencing, Autism Spectrum Disorder genetics, Brain physiopathology, Chromosomes, Human, X chemistry, Intellectual Disability genetics, Transcriptome

Abstract

Background: Childhood disintegrative disorder (CDD) is a rare form of autism spectrum disorder (ASD) of unknown etiology. It is characterized by late-onset regression leading to significant intellectual disability (ID) and severe autism. Although there are phenotypic differences between CDD and other forms of ASD, it is unclear if there are neurobiological differences., Methods: We pursued a multidisciplinary study of CDD ( n  = 17) and three comparison groups: low-functioning ASD ( n  = 12), high-functioning ASD ( n  = 50), and typically developing ( n  = 26) individuals. We performed whole-exome sequencing (WES), copy number variant (CNV), and gene expression analyses of CDD and, on subsets of each cohort, non-sedated functional magnetic resonance imaging (fMRI) while viewing socioemotional (faces) and non-socioemotional (houses) stimuli and eye tracking while viewing emotional faces., Results: We observed potential differences between CDD and other forms of ASD. WES and CNV analyses identified one or more rare de novo, homozygous, and/or hemizygous (mother-to-son transmission on chrX) variants for most probands that were not shared by unaffected sibling controls. There were no clearly deleterious variants or highly recurrent candidate genes. Candidate genes that were found to be most conserved at variant position and most intolerant of variation, such as TRRAP , ZNF236 , and KIAA2018 , play a role or may be involved in transcription. Using the human BrainSpan transcriptome dataset, CDD candidate genes were found to be more highly expressed in non-neocortical regions than neocortical regions. This expression profile was similar to that of an independent cohort of ASD probands with regression. The non-neocortical regions overlapped with those identified by fMRI as abnormally hyperactive in response to viewing faces, such as the thalamus, cerebellum, caudate, and hippocampus. Eye-tracking analysis showed that, among individuals with ASD, subjects with CDD focused on eyes the most when shown pictures of faces., Conclusions: Given that cohort sizes were limited by the rarity of CDD, and the challenges of conducting non-sedated fMRI and eye tracking in subjects with ASD and significant ID, this is an exploratory study designed to investigate the neurobiological features of CDD. In addition to reporting the first multimodal analysis of CDD, a combination of fMRI and eye-tracking analyses are being presented for the first time for low-functioning individuals with ASD. Our results suggest differences between CDD and other forms of ASD on the neurobiological as well as clinical level.

Published

2017

37. Motor Stereotypies: A Pathophysiological Review.

Author

Péter Z, Oliphant ME, and Fernandez TV

Abstract

Motor stereotypies are common, repetitive, rhythmic movements with typical onset in early childhood. While most often described in children with autism spectrum disorder (ASD) and intellectual disability (ID), stereotypies can also present without developmental delay and persist into adulthood. Stereotypies are often disruptive and harmful, both physically and socially, and effective evidence-based treatments are lacking. This can be attributed, in part, to our incomplete knowledge of the underlying biological and environmental risk. Several studies implicate various neurotransmitters, brain circuits, anatomical loci, and pre- and post-natal environmental influences in stereotypy onset and symptom severity. However, there are few points of convergence among a relatively small number of studies, indicating that more research is needed to confirm the underlying bases of risk. Of particular note is the lack of published genetic studies of stereotypies, despite evidence for Mendelian inheritance patterns in some families. Focusing future studies on typically-developing children with primary motor stereotypies may be a useful approach to minimize potential biological, environmental, and genetic heterogeneity that could theoretically hinder consistent findings. Ultimately, a deeper understanding of the underlying biology and risk factors for motor stereotypies will lead us closer to more effective targeted therapies that will alleviate suffering in affected children.

Published

2017

38. Prenatal and Perinatal Risk Factors and the Promise of Birth Cohort Studies: Origins of Obsessive-Compulsive Disorder.

Author

Fernandez TV and Leckman JF

Subjects

Cohort Studies, Female, Humans, Pregnancy, Risk Factors, Obsessive-Compulsive Disorder, Parturition

Abstract

Competing Interests: Dr. Fernandez reported no biomedical financial interests or potential conflicts of interest.

Published

2016

39. Pre- and perinatal complications in relation to Tourette syndrome and co-occurring obsessive-compulsive disorder and attention-deficit/hyperactivity disorder.

Author

Abdulkadir M, Tischfield JA, King RA, Fernandez TV, Brown LW, Cheon KA, Coffey BJ, de Bruijn SF, Elzerman L, Garcia-Delgar B, Gilbert DL, Grice DE, Hagstrøm J, Hedderly T, Heyman I, Hong HJ, Huyser C, Ibanez-Gomez L, Kim YK, Kim YS, Koh YJ, Kook S, Kuperman S, Lamerz A, Leventhal B, Ludolph AG, Madruga-Garrido M, Maras A, Messchendorp MD, Mir P, Morer A, Münchau A, Murphy TL, Openneer TJ, Plessen KJ, Rath JJ, Roessner V, Fründt O, Shin EY, Sival DA, Song DH, Song J, Stolte AM, Tübing J, van den Ban E, Visscher F, Wanderer S, Woods M, Zinner SH, State MW, Heiman GA, Hoekstra PJ, and Dietrich A

Subjects

Adolescent, Adult, Age Factors, Aged, Aged, 80 and over, Attention Deficit Disorder with Hyperactivity diagnosis, Case-Control Studies, Child, Child, Preschool, Europe, Female, Humans, Male, Middle Aged, Obsessive-Compulsive Disorder diagnosis, Parent-Child Relations, Pregnancy, Psychiatric Status Rating Scales, Republic of Korea, Retrospective Studies, Severity of Illness Index, Sex Factors, Tic Disorders, United States, Young Adult, Attention Deficit Disorder with Hyperactivity epidemiology, Obsessive-Compulsive Disorder epidemiology, Pregnancy Complications epidemiology, Pregnancy Complications physiopathology, Tourette Syndrome etiology

Abstract

Pre- and perinatal complications have been implicated in the onset and clinical expression of Tourette syndrome albeit with considerable inconsistencies across studies. Also, little is known about their role in co-occurring obsessive-compulsive disorder (OCD) and attention-deficit/hyperactivity disorder (ADHD) in individuals with a tic disorder. Therefore, we aimed to investigate the role of pre- and perinatal complications in relation to the presence and symptom severity of chronic tic disorder and co-occurring OCD and ADHD using data of 1113 participants from the Tourette International Collaborative Genetics study. This study included 586 participants with a chronic tic disorder and 527 unaffected family controls. We controlled for age and sex differences by creating propensity score matched subsamples for both case-control and within-case analyses. We found that premature birth (OR = 1.72) and morning sickness requiring medical attention (OR = 2.57) were associated with the presence of a chronic tic disorder. Also, the total number of pre- and perinatal complications was higher in those with a tic disorder (OR = 1.07). Furthermore, neonatal complications were related to the presence (OR = 1.46) and severity (b = 2.27) of co-occurring OCD and also to ADHD severity (b = 1.09). Delivery complications were only related to co-occurring OCD (OR = 1.49). We conclude that early exposure to adverse situations during pregnancy is related to the presence of chronic tic disorders. Exposure at a later stage, at birth or during the first weeks of life, appears to be associated with co-occurring OCD and ADHD., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

40. The Origins of Tourette Syndrome: Prenatal Risk Factors and the Promise of Birth Cohort Studies.

Author

Leckman JF and Fernandez TV

Subjects

Cohort Studies, Humans, Risk Factors, Gestational Age, Tourette Syndrome

Published

2016

41. Whole-exome sequencing in obsessive-compulsive disorder identifies rare mutations in immunological and neurodevelopmental pathways.

Author

Cappi C, Brentani H, Lima L, Sanders SJ, Zai G, Diniz BJ, Reis VN, Hounie AG, Conceição do Rosário M, Mariani D, Requena GL, Puga R, Souza-Duran FL, Shavitt RG, Pauls DL, Miguel EC, and Fernandez TV

Subjects

Adolescent, Case-Control Studies, Child, Family, Female, Humans, Male, Mutation, Nervous System growth & development, Pilot Projects, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Signal Transduction genetics, Exome genetics, Immune System Phenomena genetics, Nervous System embryology, Obsessive-Compulsive Disorder genetics, Protein Interaction Maps genetics

Abstract

Studies of rare genetic variation have identified molecular pathways conferring risk for developmental neuropsychiatric disorders. To date, no published whole-exome sequencing studies have been reported in obsessive-compulsive disorder (OCD). We sequenced all the genome coding regions in 20 sporadic OCD cases and their unaffected parents to identify rare de novo (DN) single-nucleotide variants (SNVs). The primary aim of this pilot study was to determine whether DN variation contributes to OCD risk. To this aim, we evaluated whether there is an elevated rate of DN mutations in OCD, which would justify this approach toward gene discovery in larger studies of the disorder. Furthermore, to explore functional molecular correlations among genes with nonsynonymous DN SNVs in OCD probands, a protein-protein interaction (PPI) network was generated based on databases of direct molecular interactions. We applied Degree-Aware Disease Gene Prioritization (DADA) to rank the PPI network genes based on their relatedness to a set of OCD candidate genes from two OCD genome-wide association studies (Stewart et al., 2013; Mattheisen et al., 2014). In addition, we performed a pathway analysis with genes from the PPI network. The rate of DN SNVs in OCD was 2.51 × 10(-8) per base per generation, significantly higher than a previous estimated rate in unaffected subjects using the same sequencing platform and analytic pipeline. Several genes harboring DN SNVs in OCD were highly interconnected in the PPI network and ranked high in the DADA analysis. Nearly all the DN SNVs in this study are in genes expressed in the human brain, and a pathway analysis revealed enrichment in immunological and central nervous system functioning and development. The results of this pilot study indicate that further investigation of DN variation in larger OCD cohorts is warranted to identify specific risk genes and to confirm our preliminary finding with regard to PPI network enrichment for particular biological pathways and functions.

Published

2016

42. Transcriptome Analysis of the Human Striatum in Tourette Syndrome.

Author

Lennington JB, Coppola G, Kataoka-Sasaki Y, Fernandez TV, Palejev D, Li Y, Huttner A, Pletikos M, Sestan N, Leckman JF, and Vaccarino FM

Subjects

Acetylcholine metabolism, Adult, Aged, Aged, 80 and over, DNA Copy Number Variations, Female, Gene Expression Profiling, Gene Regulatory Networks, Genome-Wide Association Study, Humans, Male, Middle Aged, Sequence Analysis, RNA, gamma-Aminobutyric Acid metabolism, Interneurons metabolism, Putamen metabolism, Tourette Syndrome genetics, Transcriptome

Abstract

Background: Genome-wide association studies have not revealed any risk-conferring common genetic variants in Tourette syndrome (TS), requiring the adoption of alternative approaches to investigate the pathophysiology of this disorder., Methods: We obtained the basal ganglia transcriptome by RNA sequencing in the caudate and putamen of nine TS and nine matched normal control subjects., Results: We found 309 downregulated and 822 upregulated genes in the caudate and putamen (striatum) of TS individuals. Using data-driven gene network analysis, we identified 17 gene coexpression modules associated with TS. The top-scoring downregulated module in TS was enriched in striatal interneuron transcripts, which was confirmed by decreased numbers of cholinergic and gamma-aminobutyric acidergic interneurons by immunohistochemistry in the same regions. The top-scoring upregulated module was enriched in immune-related genes, consistent with activation of microglia in patients' striatum. Genes implicated by copy number variants in TS were enriched in the interneuron module, as well as in a protocadherin module. Module clustering revealed that the interneuron module was correlated with a neuronal metabolism module., Conclusions: Convergence of differential expression, network analyses, and module clustering, together with copy number variants implicated in TS, strongly implicates disrupted interneuron signaling in the pathophysiology of severe TS and suggests that metabolic alterations may be linked to their death or dysfunction., (Copyright © 2016 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2016

43. What Makes You Tic? A New Lead in Tourette Syndrome Genetics.

Author

Fernandez TV

Subjects

Attention Deficit Disorder with Hyperactivity, Humans, Obsessive-Compulsive Disorder, Tics, Tourette Syndrome

Published

2016

44. Modeling non-syndromic autism and the impact of TRPC6 disruption in human neurons.

Author

Griesi-Oliveira K, Acab A, Gupta AR, Sunaga DY, Chailangkarn T, Nicol X, Nunez Y, Walker MF, Murdoch JD, Sanders SJ, Fernandez TV, Ji W, Lifton RP, Vadasz E, Dietrich A, Pradhan D, Song H, Ming GL, Gu X, Haddad G, Marchetto MC, Spitzer N, Passos-Bueno MR, State MW, and Muotri AR

Subjects

Animals, Antineoplastic Combined Chemotherapy Protocols metabolism, Autistic Disorder genetics, Autistic Disorder physiopathology, Carboplatin metabolism, Cell Differentiation genetics, Cell Line, Cell Proliferation genetics, Cells, Cultured, Child, Disease Models, Animal, Embryo, Mammalian, Etoposide metabolism, Gene Expression Regulation genetics, Humans, In Vitro Techniques, Induced Pluripotent Stem Cells physiology, Inhibitory Postsynaptic Potentials genetics, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Mitoxantrone metabolism, Mutation genetics, Neurons metabolism, Prednisolone metabolism, Signal Transduction genetics, TRPC Cation Channels genetics, TRPC6 Cation Channel, Autistic Disorder pathology, Neurons pathology, TRPC Cation Channels metabolism

Abstract

An increasing number of genetic variants have been implicated in autism spectrum disorders (ASDs), and the functional study of such variants will be critical for the elucidation of autism pathophysiology. Here, we report a de novo balanced translocation disruption of TRPC6, a cation channel, in a non-syndromic autistic individual. Using multiple models, such as dental pulp cells, induced pluripotent stem cell (iPSC)-derived neuronal cells and mouse models, we demonstrate that TRPC6 reduction or haploinsufficiency leads to altered neuronal development, morphology and function. The observed neuronal phenotypes could then be rescued by TRPC6 complementation and by treatment with insulin-like growth factor-1 or hyperforin, a TRPC6-specific agonist, suggesting that ASD individuals with alterations in this pathway may benefit from these drugs. We also demonstrate that methyl CpG binding protein-2 (MeCP2) levels affect TRPC6 expression. Mutations in MeCP2 cause Rett syndrome, revealing common pathways among ASDs. Genetic sequencing of TRPC6 in 1041 ASD individuals and 2872 controls revealed significantly more nonsynonymous mutations in the ASD population, and identified loss-of-function mutations with incomplete penetrance in two patients. Taken together, these findings suggest that TRPC6 is a novel predisposing gene for ASD that may act in a multiple-hit model. This is the first study to use iPSC-derived human neurons to model non-syndromic ASD and illustrate the potential of modeling genetically complex sporadic diseases using such cells.

Published

2015

45. Tourette Syndrome: Bridging the Gap between Genetics and Biology.

Author

Richer P and Fernandez TV

Abstract

Tourette syndrome is a childhood neuropsychiatric disorder, which presents with disruptive motor and vocal tics. The disease also has a high comorbidity with obsessive-compulsive disorder and attention deficit hyperactivity disorder, which may further increase the distress experienced by patients. Current treatments act with varying efficacies in alleviating symptoms, as the underlying biology of the disease is not fully understood to provide precise therapeutic targets. Moreover, the genetic complexity of the disorder presents a substantial challenge to the identification of genetic alterations that contribute to the Tourette's phenotype. Nevertheless, genetic studies have suggested involvement of dopaminergic, serotonergic, glutamatergic, and histaminergic pathways in the pathophysiology of at least some cases. In addition, genetic overlaps with other neuropsychiatric disorders may point toward a shared biology. The findings that are emerging from genetic studies will allow researchers to piece together the underlying components of the disease, in the hopes that a deeper understanding of Tourette's can lead to improved treatments for those affected by it.

Published

2015

46. The Tourette International Collaborative Genetics (TIC Genetics) study, finding the genes causing Tourette syndrome: objectives and methods.

Author

Dietrich A, Fernandez TV, King RA, State MW, Tischfield JA, Hoekstra PJ, and Heiman GA

Subjects

Attention Deficit Disorder with Hyperactivity psychology, Child, Cooperative Behavior, Female, Gene-Environment Interaction, Genetic Linkage, Genetic Predisposition to Disease, Genomics, Humans, Obsessive-Compulsive Disorder psychology, Pedigree, Tic Disorders psychology, Tics psychology, Tourette Syndrome psychology, Attention Deficit Disorder with Hyperactivity complications, Obsessive-Compulsive Disorder complications, Tic Disorders complications, Tics complications, Tourette Syndrome genetics

Abstract

Tourette syndrome (TS) is a neuropsychiatric disorder characterized by recurrent motor and vocal tics, often accompanied by obsessive-compulsive disorder and/or attention-deficit/hyperactivity disorder. While the evidence for a genetic contribution is strong, its exact nature has yet to be clarified fully. There is now mounting evidence that the genetic risks for TS include both common and rare variants and may involve complex multigenic inheritance or, in rare cases, a single major gene. Based on recent progress in many other common disorders with apparently similar genetic architectures, it is clear that large patient cohorts and open-access repositories will be essential to further advance the field. To that end, the large multicenter Tourette International Collaborative Genetics (TIC Genetics) study was established. The goal of the TIC Genetics study is to undertake a comprehensive gene discovery effort, focusing both on familial genetic variants with large effects within multiply affected pedigrees and on de novo mutations ascertained through the analysis of apparently simplex parent-child trios with non-familial tics. The clinical data and biomaterials (DNA, transformed cell lines, RNA) are part of a sharing repository located within the National Institute for Mental Health Center for Collaborative Genomics Research on Mental Disorders, USA, and will be made available to the broad scientific community. This resource will ultimately facilitate better understanding of the pathophysiology of TS and related disorders and the development of novel therapies. Here, we describe the objectives and methods of the TIC Genetics study as a reference for future studies from our group and to facilitate collaboration between genetics consortia in the field of TS.

Published

2015

47. No evidence for association of autism with rare heterozygous point mutations in Contactin-Associated Protein-Like 2 (CNTNAP2), or in Other Contactin-Associated Proteins or Contactins.

Author

Murdoch JD, Gupta AR, Sanders SJ, Walker MF, Keaney J, Fernandez TV, Murtha MT, Anyanwu S, Ober GT, Raubeson MJ, DiLullo NM, Villa N, Waqar Z, Sullivan C, Gonzalez L, Willsey AJ, Choe SY, Neale BM, Daly MJ, and State MW

Subjects

Autistic Disorder pathology, Codon, Nonsense, DNA Copy Number Variations, Genetic Predisposition to Disease, Humans, Point Mutation, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Sequence Deletion, Autistic Disorder genetics, Contactins genetics, Genetic Association Studies, Membrane Proteins genetics, Nerve Tissue Proteins genetics

Abstract

Contactins and Contactin-Associated Proteins, and Contactin-Associated Protein-Like 2 (CNTNAP2) in particular, have been widely cited as autism risk genes based on findings from homozygosity mapping, molecular cytogenetics, copy number variation analyses, and both common and rare single nucleotide association studies. However, data specifically with regard to the contribution of heterozygous single nucleotide variants (SNVs) have been inconsistent. In an effort to clarify the role of rare point mutations in CNTNAP2 and related gene families, we have conducted targeted next-generation sequencing and evaluated existing sequence data in cohorts totaling 2704 cases and 2747 controls. We find no evidence for statistically significant association of rare heterozygous mutations in any of the CNTN or CNTNAP genes, including CNTNAP2, placing marked limits on the scale of their plausible contribution to risk.

Published

2015

48. Tourette's syndrome and translational clinical science.

Author

Fernandez TV, King RA, and Pittenger C

Subjects

Adolescent, Adult, Animals, Child, Female, Humans, Male, Pedigree, Translational Research, Biomedical, Tourette Syndrome genetics, Tourette Syndrome physiopathology

Published

2015

49. The Inheritance of Tourette Disorder: A review.

Author

Pauls DL, Fernandez TV, Mathews CA, State MW, and Scharf JM

Abstract

Georges Gilles de la Tourette, in describing the syndrome that now bears his name, observed that the condition aggregated within families. Over the last three decades, numerous studies have confirmed this observation, and demonstrated that familial clustering is due in part to genetic factors. Recent studies are beginning to provide clues about the underlying genetic mechanisms important for the manifestation of some cases of Tourette Disorder (TD). Evidence has come from different study designs, such as nuclear families, twins, multigenerational families, and case-control samples, together examining the broad spectrum of genetic variation including cytogenetic abnormalities, copy number variants, genome-wide association of common variants, and sequencing studies targeting rare and/or de novo variation. Each of these classes of genetic variation holds promise for identifying the causative genes and biological pathways contributing to this paradigmatic neuropsychiatric disorder.

Published

2014

50. Rare deleterious mutations of the gene EFR3A in autism spectrum disorders.

Author

Gupta AR, Pirruccello M, Cheng F, Kang HJ, Fernandez TV, Baskin JM, Choi M, Liu L, Ercan-Sencicek AG, Murdoch JD, Klei L, Neale BM, Franjic D, Daly MJ, Lifton RP, De Camilli P, Zhao H, Sestan N, and State MW

Abstract

Background: Whole-exome sequencing studies in autism spectrum disorder (ASD) have identified de novo mutations in novel candidate genes, including the synaptic gene Eighty-five Requiring 3A (EFR3A). EFR3A is a critical component of a protein complex required for the synthesis of the phosphoinositide PtdIns4P, which has a variety of functions at the neural synapse. We hypothesized that deleterious mutations in EFR3A would be significantly associated with ASD., Methods: We conducted a large case/control association study by deep resequencing and analysis of whole-exome data for coding and splice site variants in EFR3A. We determined the potential impact of these variants on protein structure and function by a variety of conservation measures and analysis of the Saccharomyces cerevisiae Efr3 crystal structure. We also analyzed the expression pattern of EFR3A in human brain tissue., Results: Rare nonsynonymous mutations in EFR3A were more common among cases (16 / 2,196 = 0.73%) than matched controls (12 / 3,389 = 0.35%) and were statistically more common at conserved nucleotides based on an experiment-wide significance threshold (P = 0.0077, permutation test). Crystal structure analysis revealed that mutations likely to be deleterious were also statistically more common in cases than controls (P = 0.017, Fisher exact test). Furthermore, EFR3A is expressed in cortical neurons, including pyramidal neurons, during human fetal brain development in a pattern consistent with ASD-related genes, and it is strongly co-expressed (P < 2.2 × 10(-16), Wilcoxon test) with a module of genes significantly associated with ASD., Conclusions: Rare deleterious mutations in EFR3A were found to be associated with ASD using an experiment-wide significance threshold. Synaptic phosphoinositide metabolism has been strongly implicated in syndromic forms of ASD. These data for EFR3A strengthen the evidence for the involvement of this pathway in idiopathic autism.

Published

2014