Your search keyword '"Hoenicka J"' showing total 210 results

1. Characterization of an the ankyrin repeat and kinase domain containing 1 gene knock-out mouse model: insights on the ankyrin repeat and kinase domain containing 1 gene involvement in the sensitivity to aversive events

Author

Hoenicka, J., primary, Nguyen, C., additional, Sancho, A., additional, Balseca, J. Troya, additional, López, D., additional, Llop, E. Urquizu, additional, Garcia, J. Ferrer, additional, Lluis, H., additional, Fernandez, E., additional, Arnau, R. Lopez, additional, Rafa, E. Escubedo, additional, Palomo, T., additional, Fiering, S., additional, Gasull, X., additional, Artuch, R., additional, Rhodes, H., additional, Palau, F., additional, and Torroella, A. Giralt, additional

Published

2023

2. P.152 The novel ANXA11 variant p.Asp40Ile in a childhood-onset oculopharyngeal muscular dystrophy shows the pathogenic relevance of Asp40 in ANXA11 disorders

Author

Natera-de Benito, D., primary, Olival, J., additional, Garcia-Cabau, C., additional, Codina, A., additional, Roldan, M., additional, Expósito-Escudero, J., additional, Batlle, C., additional, Carrera-García, L., additional, Ortez, C., additional, Jou, C., additional, Salvatella, X., additional, Palau, F., additional, Nascimento, A., additional, and Hoenicka, J., additional

Published

2022

3. FP.36 Genetic variants in DTNA cause a mild dominantly inherited muscular dystrophy

Author

Nascimento, A., primary, Bruels, C., additional, Codina, A., additional, Milisenda, J., additional, Li, C., additional, Carrera-García, L., additional, Estrella, E., additional, Pijuan, J., additional, Expósito-Escudero, J., additional, Stafki, S., additional, Martorell, L., additional, Lidov, H., additional, Ortez, C., additional, Palau, F., additional, Darras, B., additional, Jou, C., additional, Kunkel, L., additional, Hoenicka, J., additional, Kang, P., additional, and Natera-de Benito, D., additional

Published

2022

4. Mitochondrial Dynamics and Mitochondria-Lysosome Contacts in Neurogenetic Diseases

Author

Pijuan J, Cantarero-Abad L, Natera-de Benito D, Altimir A, Altisent-Huguet A, Díaz-Osorio Y, Carrera-García L, Expósito-Escudero J, Ortez-Gonzalez CI, Nascimento-Osorio A, Hoenicka J, and Palau F

Subjects

mitochondria, neurogenetic diseases, lysosome, mitochondrial dynamics, membrane contact sites (MCSs)

Abstract

Mitochondrial network is constantly in a dynamic and regulated balance of fusion and fission processes, which is known as mitochondrial dynamics. Mitochondria make physical contacts with almost every other membrane in the cell thus impacting cellular functions. Mutations in mitochondrial dynamics genes are known to cause neurogenetic diseases. To better understand the consequences on the cellular phenotype and pathophysiology of neurogenetic diseases associated with defective mitochondrial dynamics, we have compared the fibroblasts phenotypes of (i) patients carrying pathogenic variants in genes involved in mitochondrial dynamics such as DRP1 (also known as DNM1L), GDAP1, OPA1, and MFN2, and (ii) patients carrying mutated genes that their dysfunction affects mitochondria or induces a mitochondrial phenotype, but that are not directly involved in mitochondrial dynamic network, such as FXN (encoding frataxin, located in the mitochondrial matrix), MED13 (hyperfission phenotype), and CHKB (enlarged mitochondria phenotype). We identified mitochondrial network alterations in all patients' fibroblasts except for CHKBQ198*/Q198*. Functionally, all fibroblasts showed mitochondrial oxidative stress, without membrane potential abnormalities. The lysosomal area and distribution were abnormal in GDAP1(W67L/W67L), DRP1(K75E/+), OPA1(F570L/+), and FXNR165C/GAA fibroblasts. These lysosomal alterations correlated with mitochondria-lysosome membrane contact sites (MCSs) defects in GDAP1(W67L/W67L) exclusively. The study of mitochondrial contacts in all samples further revealed a significant decrease in MFN2(R104W/+) fibroblasts. GDAP1 and MFN2 are outer mitochondrial membrane (OMM) proteins and both are related to Charcot-Marie Tooth neuropathy. Here we identified their constitutive interaction as well as MFN2 interaction with LAMP-1. Therefore MFN2 is a new mitochondria-lysosome MCSs protein. Interestingly, GDAP1(W67L/W67L) and MFN2(R104W/+) fibroblasts carry pathogenic changes that occur in their catalytic domains thus suggesting a functional role of GDAP1 and MFN2 in mitochondria-lysosome MCSs. Finally, we observed starvation-induced autophagy alterations in DRP1(K75E/+), GDAP1(W67L/W67L), OPA1(F570L/+), MFN2(R104W/+), and CHKBQ198*/Q198* fibroblasts. These genes are related to mitochondrial membrane structure or lipid composition, which would associate the OMM with starvation-induced autophagy. In conclusion, the study of mitochondrial dynamics and mitochondria-lysosome axis in a group of patients with different neurogenetic diseases has deciphered common and unique cellular phenotypes of degrading and non-degrading pathways that shed light on pathophysiological events, new biomarkers and pharmacological targets for these disorders.

Published

2022

5. Non-Motor Symptoms in PLA2G6-Associated Dystonia-Parkinsonism: A Case Report and Literature Review

Author

Vela-Desojo L, Urso D, Osuna-Lopez M, and Hoenicka J

Subjects

psychiatric symptoms, premotor, PLAN-DP, NMS, dementia

Abstract

PLA2G6-dystonia-parkinsonism (PLAN-DP) is characterized by levodopa responsive parkinsonism and dystonia. While neuropsychiatric symptoms and early cognitive decline are also common in this entity there is little information regarding other non-motor symptoms (NMS). Here, we describe a 26-year-old patient with PLAN-DP whose motor symptoms were preceded by mild cognitive impairment and anxiety, and who developed many other NMS as the disease evolved. Furthermore, we reviewed the NMS described in all the PLAN-DP patients published to date. A total of 50 patients with PLAN-DP were identified, 42 of whom developed NMS and in 23 of these cases, NMS preceded the motor symptoms of the disease. Neuropsychiatric symptoms dominated the premotor phase of this condition and cognitive impairment/dementia was the most prevalent NMS. Other NMS were reported infrequently like sleep disorders, autonomic symptoms, pain and hyposmia, and mostly as the disease evolved. NMS are very frequent in PLAN-DP and they may appear before diagnosis or during the course of the disease. Neuropsychiatric symptoms and cognitive decline are the most frequent NMS. The appearance of neuropsychiatric symptoms like depression, anxiety or personality changes prior to a diagnosis of parkinsonism in younger individuals might suggest the presence of PLA2G6 gene mutations.

Published

2022

6. The p.Glu787Lys variant in the GRIA3 gene causes developmental and epileptic encephalopathy mimicking structural epilepsy in a female patient

Author

Martinez-Esteve Melnikova A, Pijuan J, Aparicio J, Ramírez-Camacho A, Altisent-Huguet A, Vilanova-Adell A, Arzimanoglou Alexandros, Armstrong-Moron J, Palau F, Hoenicka J, and San Antonio-Arce MV

Subjects

X-linked, Epilepsy, flop, Flip, GRIA3, AMPA receptor, Synaptic transmission, Developmental epileptic encephalopathy

Abstract

The GRIA3 gene is located in the X chromosome and encodes for one of the subunits (iGluR3) of the alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR), an excitatory synaptic transmission receptor present in most parts of the brain. iGluR3 dysfunction has been associated with both abnormal memory for-mation and learning. It has been observed in patients with different neurological and cognitive disorders, including epilepsy. Three different de novo missense variants of GRIA3 have recently been reported in patients with Developmental and Epileptic Encephalopathy (DEE).We report on a female pediatric patient with DEE whose clinical picture mimicked structural epilepsy. We give a detailed description of our patient's most important electro-clinical features. Genetic analysis revealed that the patient carried a de novo missense variant in GRIA3 (c.2359G>A; p.Glu787Lys). The p.Glu787Lys variant had previously been reported in a male pediatric patient. Additionally, we studied iGluR3 expression in the patient and control fibroblasts. We found significantly lower iGluR3 expression in the patient's fibroblasts than in controls and different responses to glutamate treatment.In summary, our report expands knowledge of GRIA3 variants affecting boys and girls, describes functional studies of these variants, and provides an extensive review of the literature concerning GRIA3 genetic variants.

Published

2022

7. Author Correction: Regulatory rare variants of the dopaminergic gene ANKK1 as potential risk factors for Parkinson's disease

Author

Pérez-Santamarina E, García-Ruiz P, Martínez-Rubio D, Ezquerra M, Pla-Navarro I, Puente J, Martí MJ, Palau F, and Hoenicka J

Published

2022

8. Finding genetically-supported drug targets for Parkinson’s disease using Mendelian randomization of the druggable genome

Author

Storm, Catherine S., Kia, Demis A., Almramhi, Mona M., Bandres-Ciga, Sara, Finan, Chris, Noyce, A. J., Kaiyrzhanov, R., Middlehurst, B., Tan, M., Houlden, H., Morris, H. R., Plun-Favreau, H., Holmans, P., Hardy, J., Trabzuni, D., Quinn, J., Bubb, V., Mok, K. Y., Kinghorn, K. J., Lewis, P., Schreglmann, S. R., Lovering, R., R'Bibo, L., Manzoni, C., Rizig, M., Ryten, M., Guelfi, S., Escott-Price, V., Chelban, V., Foltynie, T., Williams, N., Morrison, K. E., Clarke, C., Harvey, K., Jacobs, B. M., Brice, Alexis, Danjou, F., Lesage, S., Corvol, J. C., Martinez, M., Schulte, C., Brockmann, K., Simón-Sánchez, J., Heutink, P., Rizzu, P., Sharma, M., Gasser, T., Schneider, S. A., Cookson, M. R., Blauwendraat, C., Craig, D. W., Billingsley, K., Makarious, M. B., Narendra, D. P., Faghri, F., Gibbs, J. R., Hernandez, D. G., Van Keuren-Jensen, K., Shulman, J. M., Iwaki, H., Leonard, H. L., Nalls, M. A., Robak, L., Bras, J., Guerreiro, R., Lubbe, S., Troycoco, T., Finkbeiner, S., Mencacci, N. E., Lungu, C., Singleton, A. B., Scholz, S. W., Reed, X., Uitti, R. J., Ross, O. A., Grenn, F. P., Moore, A., Alcalay, R. N., Wszolek, Z. K., Gan-Or, Z., Rouleau, G. A., Krohn, L., Mufti, K., van Hilten, J. J., Marinus, J., Adarmes-Gómez, A. D., Aguilar Barberà, Miquel, Álvarez Angulo, Iñaki, Alvarez, V., Barrero, F. J., Yarza, J. A. B., Bernal-Bernal, I., Blázquez Estrada, M, Bonilla-Toribio, M., Botía, J. A., Boungiorno, M. T., Buiza-Rueda, Dolores, Cámara, A., Carrillo, F., Carrión-Claro, M., Cerdan, D., Clarimón, Jordi, Compta, Y., Diez-Fairen, M., Dols-Icardo, Oriol, Duarte, J., Duran, R., Escamilla-Sevilla, F., Ezquerra, M., Feliz, C., Fernández, M., Fernández-Santiago, R., Garcia, C., García-Ruiz, P., Gómez-Garre, P., Heredia, M. J. G., Gonzalez-Aramburu, I., Pagola, A. G., Hoenicka, J., Infante, J., Jesús, S., Jimenez-Escrig, A., Kulisevsky, Jaime, Labrador-Espinosa, M. A., Lopez-Sendon, J. L., de Munain Arregui, A. L., Macias, D., Torres, I. M., Marín, J., Marti, M. J., Martínez-Castrillo, J. C., Méndez-del-Barrio, C., González, M. M., Mata, M., Mínguez, A., Mir, P., Rezola, E. M., Muñoz, E., Pagonabarraga, J., Pastor, P., Errazquin, F. P., Periñán-Tocino, T., Ruiz-Martínez, J., Ruz, C., Rodriguez, A. S., Sierra, M., Suarez-Sanmartin, E., Tabernero, C., Tartari, J. P., Tejera-Parrado, C., Tolosa, E., Valldeoriola, F., Vargas-González, L., Vela, Lydia, Vives, F., Zimprich, A., Pihlstrom, L., Toft, M., Taba, P., Koks, S., Hassin-Baer, S., Majamaa, K., Siitonen, A., Tienari, P., Okubadejo, N. U., Ojo, O. O., Shashkin, C., Zharkinbekova, N., Akhmetzhanov, V., Kaishybayeva, G., Karimova, A., Khaibullin, T., Lynch, T. L., Hingorani, Aroon, Wood, Nicholas W.., Universitat Autònoma de Barcelona, Rosetrees Trust, John Black Charitable Foundation, University College London, King Abdulaziz University, National Institute for Health Research (UK), Universidad de Cantabria, HUS Neurocenter, Department of Neurosciences, and Clinicum

Subjects

Aging, Science, Quantitative Trait Loci, General Physics and Astronomy, Neurodegenerative, 3124 Neurology and psychiatry, General Biochemistry, Genetics and Molecular Biology, Article, Cohort Studies, Risk Factors, Genetics research, Genetics, 2.1 Biological and endogenous factors, Humans, Genetic Predisposition to Disease, Aetiology, Multidisciplinary, Genome, Parkinson's Disease, Genome, Human, Prevention, 3112 Neurosciences, Neurosciences, Brain, Genetic Variation, Parkinson Disease, General Chemistry, Mendelian Randomization Analysis, International Parkinson’s Disease Genomics Consortium, Brain Disorders, Good Health and Well Being, Gene Expression Regulation, Neurology, 5.1 Pharmaceuticals, Case-Control Studies, Neurological, Disease Progression, Development of treatments and therapeutic interventions, Human, Biotechnology

Abstract

Parkinson’s disease is a neurodegenerative movement disorder that currently has no disease-modifying treatment, partly owing to inefficiencies in drug target identification and validation. We use Mendelian randomization to investigate over 3,000 genes that encode druggable proteins and predict their efficacy as drug targets for Parkinson’s disease. We use expression and protein quantitative trait loci to mimic exposure to medications, and we examine the causal effect on Parkinson’s disease risk (in two large cohorts), age at onset and progression. We propose 23 drug-targeting mechanisms for Parkinson’s disease, including four possible drug repurposing opportunities and two drugs which may increase Parkinson’s disease risk. Of these, we put forward six drug targets with the strongest Mendelian randomization evidence. There is remarkably little overlap between our drug targets to reduce Parkinson’s disease risk versus progression, suggesting different molecular mechanisms. Drugs with genetic support are considerably more likely to succeed in clinical trials, and we provide compelling genetic evidence and an analysis pipeline to prioritise Parkinson’s disease drug development., There is currently no disease-modifying treatment for Parkinson’s disease, a common neurodegenerative disorder. Here, the authors use genetic variation associated with gene and protein expression to find putative drug targets for Parkinson’s disease using Mendelian randomization of the druggable genome.

Published

2021

9. MITOCHONDRIAL DISEASES

Author

Carrera, L., primary, Cantarero, L., additional, Nolasco, G., additional, Pijuan, J., additional, Natera, D., additional, Estevez, B., additional, Expósito, J., additional, Colomer, J., additional, Ortez, C., additional, Palau, F., additional, Hoenicka, J., additional, and Nascimento, A., additional

Published

2021

10. alpha-Synuclein deficiency or overexpression induces neuroinflammatory responses in mice

Author

Juárez-Escoto E, Cantarero-Abad L, Hoenicka J, and Palau F

Published

2021

11. The Increasing Impact of Translational Research in the Molecular Diagnostics of Neuromuscular Diseases

Author

Yubero-Siles D, Natera-de Benito D, Pijuan J, Armstrong-Moron J, Martorell-Sampol L, Fernàndez G, Joan Maynou Fernández, Jou-Munoz C, Roldan M, Ortez-Gonzalez CI, Nascimento-Osorio A, Hoenicka J, and Palau F

Subjects

molecular diagnostics, translational research, neuromuscular diseases, genetic diagnostics, multi-omics, translational diagnostics

Abstract

The diagnosis of neuromuscular diseases (NMDs) has been progressively evolving from the grouping of clinical symptoms and signs towards the molecular definition. Optimal clinical, biochemical, electrophysiological, electrophysiological, and histopathological characterization is very helpful to achieve molecular diagnosis, which is essential for establishing prognosis, treatment and genetic counselling. Currently, the genetic approach includes both the gene-targeted analysis in specific clinically recognizable diseases, as well as genomic analysis based on next-generation sequencing, analyzing either the clinical exome/genome or the whole exome or genome. However, as of today, there are still many patients in whom the causative genetic variant cannot be definitely established and variants of uncertain significance are often found. In this review, we address these drawbacks by incorporating two additional biological omics approaches into the molecular diagnostic process of NMDs. First, functional genomics by introducing experimental cell and molecular biology to analyze and validate the variant for its biological effect in an in-house translational diagnostic program, and second, incorporating a multi-omics approach including RNA-seq, metabolomics, and proteomics in the molecular diagnosis of neuromuscular disease. Both translational diagnostics programs and omics are being implemented as part of the diagnostic process in academic centers and referral hospitals and, therefore, an increase in the proportion of neuromuscular patients with a molecular diagnosis is expected. This improvement in the process and diagnostic performance of patients will allow solving aspects of their health problems in a precise way and will allow them and their families to take a step forward in their lives.

Published

2021

12. Mitochondria-lysosome membrane contacts are defective in GDAP1-related Charcot-Marie-Tooth disease

Author

Cantarero-Abad L, Juárez-Escoto E, Civera-Tregon A, Rodriguez-Sanz, Maria, Roldan, Monica, Benítez R, Hoenicka J, and Palau F

Abstract

Mutations in the GDAP1 gene cause Charcot-Marie-Tooth (CMT) neuropathy. GDAP1 is an atypical glutathione S-transferase (GST) of the outer mitochondrial membrane and the mitochondrial membrane contacts with the endoplasmic reticulum (MAMs). Here, we investigate the role of this GST in the autophagic flux and the membrane contact sites (MCSs) between mitochondria and lysosomes in the cellular pathophysiology of GDAP1 deficiency. We demonstrate that GDAP1 participates in basal autophagy and that its depletion affects LC3 and PI3P biology in autophagosome biogenesis and membrane trafficking from MAMs. GDAP1 also contributes to the maturation of lysosome by interacting with PYKfyve kinase, a pH-dependent master lysosomal regulator. GDAP1 deficiency causes giant lysosomes with hydrolytic activity, a delay in the autophagic lysosome reformation, and TFEB activation. Notably, we found that GDAP1 interacts with LAMP-1, which supports that GDAP1-LAMP-1 is a new tethering pair of mitochondria and lysosome membrane contacts. We observed mitochondria-lysosome MCSs in soma and axons of cultured mouse embryonic motor neurons and human neuroblastoma cells. GDAP1 deficiency reduces the MCSs between these organelles, causes mitochondrial network abnormalities, and decreases levels of cellular glutathione (GSH). The supply of GSH-MEE suffices to rescue the lysosome membranes and the defects of the mitochondrial network, but not the interorganelle MCSs nor early autophagic events. Overall, we show that GDAP1 enables the proper function of mitochondrial MCSs in both degradative and nondegradative pathways, which could explain primary insults in GDAP1-related CMT pathophysiology, and highlights new redox-sensitive targets in axonopathies where mitochondria and lysosomes are involved.

Published

2021

13. Effective therapeutic strategies in a preclinical mouse model of Charcot-Marie-Tooth disease

Author

Nuevo-Tapioles C, Santacatterina F, Sánchez-Garrido B, Arenas CN, Robledo-Bérgamo A, Martínez-Valero P, Cantarero-Abad L, Pardo B, Hoenicka J, Murphy MP, Satrústegui J, Palau F, and Cuezva JM

Subjects

congenital, hereditary, and neonatal diseases and abnormalities

Abstract

Charcot-Marie-Tooth (CMT) disease is a neuropathy that lacks effective therapy. CMT patients show degeneration of peripheral nerves, leading to muscle weakness and loss of proprioception. Loss of mitochondrial oxidative phosphorylation proteins and enzymes of the antioxidant response accompany degeneration of nerves in skin biopsies of CMT patients. Herein, we followed a drug-repurposing approach to find drugs in a Food and Drug Administration-approved library that could prevent development of CMT disease in the Gdap1-null mouse model. We found that the antibiotic florfenicol is a mitochondrial uncoupler that prevents the production of reactive oxygen species and activates respiration in human GDAP1-knockdown neuroblastoma cells and in dorsal root ganglion neurons of Gdap1-null mice. Treatment of CMT-affected Gdap1-null mice with florfenicol has no beneficial effect in the course of the disease. However, administration of florfenicol, or the antioxidant MitoQ, to pre-symptomatic GDAP1-null mice prevented weight gain and ameliorated the motor coordination deficiencies that developed in the Gdap1-null mice. Interestingly, both florfenicol and MitoQ halted the decay in mitochondrial and redox proteins in sciatic nerves of Gdap1-null mice, supporting that oxidative damage is implicated in the etiology of the neuropathy. These findings support the development of clinical trials for translation of these drugs for treatment of CMT patients.

Published

2021

14. Mitochondria and calcium defects correlate with axonal dysfunction in GDAP1-related Charcot-Marie-Tooth mouse model

Author

Civera-Tregon A, Dominguez-Brezosa L, Martínez-Valero P, Serrano C, Vallmitjana A, Benítez R, Hoenicka J, Satrústegui J, and Palau F

Subjects

Calcium, Mitochondria, nervous system, Embryonic motor neurons, Axon, Bioenergetics, Charcot-Marie-Tooth disease, GDAP1

Abstract

Ganglioside-induced differentiation associated protein 1 (GDAP1) gene encodes a protein of the mitochondrial outer membrane and of the mitochondrial membrane contacts with the endoplasmic reticulum (MAMs) and lysosomes. Since mutations in GDAP1 cause Charcot-Marie-Tooth, an inherited motor and sensory neuropathy, its function is essential for peripheral nerve physiology. Our previous studies showed structural and functional defects in mitochondria and their contacts when GDAP1 is depleted. Nevertheless, the underlying axonal pathophysiological events remain unclear. Here, we have used embryonic motor neurons (eMNs) cultures from Gdap1 knockout (Gdap1(-/-)) mice to investigate in vivo mitochondria and calcium homeostasis in the axons. We imaged mitochondrial axonal transport and we found a defective pattern in the Gdap1(-/-) eMNs. We also detected pathological and functional mitochondria membrane abnormalities with a drop in ATP production and a deteriorated bioenergetic status. Another consequence of the loss of GDAP1 in the soma and axons of eMNs was the in vivo increase calcium levels in both basal conditions and during recovery after neuronal stimulation with glutamate. Further, we found that glutamate-stimulation of respiration was lower in Gdap1(-/-) eMNs showing that the basal bioenergetics failure jeopardizes a full respiratory response and prevents a rapid return of calcium to basal levels. Together, our results demonstrate that the loss of GDAP1 critically compromises the morphology and function of mitochondria and its relationship with calcium homeostasis in the soma and axons, offering important insight into the cellular mechanisms associated with axonal degeneration of GDAP1-related CMT neuropathies and the relevance that axon length may have.

Published

2021

15. Human-lineage-specific genomic elements are associated with neurodegenerative disease and APOE transcript usage

Author

Chen, Z., Zhang, D., Reynolds, R.H., Gustavsson, E.K., García-Ruiz, S., D'Sa, K., Fairbrother-Browne, A., Vandrovcova, J., Noyce, A.J., Kaiyrzhanov, R., Middlehurst, B., Kia, D.A., Tan, M., Morris, H.R., Plun-Favreau, H., Holmans, P., Trabzuni, D., Bras, J., Quinn, J., Mok, K.Y., Kinghorn, K.J., Billingsley, K., Wood, N.W., Lewis, P., Schreglmann, S., Guerreiro, Rita, Lovering, R., R'Bibo, L., Manzoni, C., Rizig, M., Guelfi, S., Escott-Price, V., Chelban, V., Foltynie, T., Williams, N., Brice, A., Danjou, F., Lesage, S., Corvol, Jean-Christophe, Martinez, M., Schulte, C., Brockmann, K., Simón-Sánchez, J., Heutink, P., Rizzu, P., Sharma, M., Gasser, T., Nicolas, A., Cookson, M. R, Bandres-Ciga, S., Blauwendraat, Cornelis, Craig, David W, Faghri, F., Gibbs, J.R., Hernandez, D.G., Van Keuren-Jensen, K., Shulman, J.M., Leonard, H.L., Nalls, M.A., Robak, L., Lubbe, S., Finkbeiner, S., Mencacci, N.E., Lungu, C., Singleton, A. B., Scholz, S.W., Reed, X., Alcalay, Roy N, Gan-Or, Z., Rouleau, G.A., Krohn, L., van Hilten, J.J., Marinus, J., Adarmes-Gómez, A.D, Aguilar Barberà, Miquel, Alvarez, Ignacio, Alvarez, V., Barrero, F. J, Yarza, J.A.B., Bernal-Bernal, I., Blazquez, M., Bonilla-Toribio, Marta, Botía, J., Boungiorno, M.T., Buiza-Rueda, Dolores, Cámara, Ana, Carrillo, F., Carrión-Claro, M., Cerdan, D., Clarimón, Jordi, Compta, Yaroslau, Diez-Fairen, M., Dols Icardo, Oriol, Duarte, J., Duran, Raquel, Escamilla-Sevilla, F., Ezquerra, M., Feliz, C., Fernández, M., Fernández-Santiago, R., Garcia, C., García-Ruiz, P., Gómez-Garre, P., Heredia, M.J.G., Gonzalez-Aramburu, I., Pagola, A.G., Hoenicka, J., Infante, J., Jesús, S., Jimenez-Escrig, A., Kulisevsky, Jaime, Labrador-Espinosa, Miguel A, Lopez-Sendon, J.L., de Munain Arregui, A.L., Macias, D., Torres, I.M., Marín, J., Marti, M.J., Martínez-Castrillo, J.C., Méndez-del-Barrio, C., González, M.M., Mata, M., Mínguez, A., Mir, P., Rezola, E.M., Muñoz, E., Pagonabarraga Mora, Javier, Pastor, P., Errazquin, F.P., Periñán-Tocino, T., Ruiz-Martínez, J., Ruz, C., Rodriguez, A.S., Sierra, M., Suarez-Sanmartin, E., Tabernero, C., Tartari, J. P., Tejera-Parrado, C., Tolosa, E., Valldeoriola, F., Vargas-González, L., Vela, L., Vives, F., Zimprich, Alexander, Pihlstrom, L., Toft, M., Koks, S., Taba, P., Hassin-Baer, S., Hardy, J., Houlden, Henry, Gagliano Taliun, S. A., Ryten, M., Universitat Autònoma de Barcelona, Universidad de Cantabria, Lord Leonard and Lady Estelle Wolfson Foundation, Medical Research Council (UK), Dementia Research Institute (UK), Alzheimer Society, Alzheimer's Research UK, Wellcome Trust, Dolby Family Fund, National Institute for Health Research (UK), NIHR Biomedical Research Centre (UK), Agencia Estatal de Investigación (España), Fundación Séneca, and Gobierno de la Región de Murcia

Subjects

0301 basic medicine, Apolipoprotein E, Aging, Messenger, General Physics and Astronomy, Neurodegenerative, Alzheimer's Disease, Genome, Linkage Disequilibrium, Negative selection, 0302 clinical medicine, 2.1 Biological and endogenous factors, Aetiology, health care economics and organizations, Conserved Sequence, Phylogeny, Multidisciplinary, Brain, Neurodegenerative Diseases, Single Nucleotide, Alzheimer's disease, Phenotype, International Parkinson’s Disease Genomics Consortium, Neurological, Regression Analysis, Long Noncoding, DNA, Intergenic, RNA, Long Noncoding, Human, Biotechnology, Lineage (genetic), Science, 1.1 Normal biological development and functioning, Computational biology, Biology, Polymorphism, Single Nucleotide, Article, General Biochemistry, Genetics and Molecular Biology, Chromosomes, 03 medical and health sciences, Apolipoproteins E, Underpinning research, Alzheimer Disease, Genetic variation, Genetics, Acquired Cognitive Impairment, Humans, RNA, Messenger, Polymorphism, Gene, Whole genome sequencing, Intergenic, Pair 19, Genome, Human, Human Genome, Neurosciences, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Molecular Sequence Annotation, General Chemistry, DNA, Introns, Brain Disorders, 030104 developmental biology, Gene Ontology, RNA, Dementia, Chromosomes, Human, Pair 19, 030217 neurology & neurosurgery

Abstract

Knowledge of genomic features specific to the human lineage may provide insights into brain-related diseases. We leverage high-depth whole genome sequencing data to generate a combined annotation identifying regions simultaneously depleted for genetic variation (constrained regions) and poorly conserved across primates. We propose that these constrained, non-conserved regions (CNCRs) have been subject to human-specific purifying selection and are enriched for brain-specific elements. We find that CNCRs are depleted from protein-coding genes but enriched within lncRNAs. We demonstrate that per-SNP heritability of a range of brain-relevant phenotypes are enriched within CNCRs. We find that genes implicated in neurological diseases have high CNCR density, including APOE, highlighting an unannotated intron-3 retention event. Using human brain RNA-sequencing data, we show the intron-3-retaining transcript to be more abundant in Alzheimer’s disease with more severe tau and amyloid pathological burden. Thus, we demonstrate potential association of human-lineage-specific sequences in brain development and neurological disease., Knowledge of genomic features specific to humans may be important for understanding disease. Here the authors demonstrate a potential role for these human-lineage-specific sequences in brain development and neurological disease.

Published

2021

16. PLXNA2 and LRRC40 as candidate genes in autism spectrum disorder

Author

Pijuan J, Ortigoza-Escobar JD, Juan Jairo Ortiz Guerra, Alcalá A, Calvo MJ, Cubells M, Hernando-Davalillo C, Palau F, and Hoenicka J

Subjects

diagnosis, LRRC40, mental disorders, PLXNA2, neurodevelopmental disorders, autism spectrum disorder

Abstract

Autism spectrum disorder (ASD) is a neurodevelopmental disability with high heritability yet the genetic etiology remains elusive. Therefore, it is necessary to elucidate new genotype-phenotype relationships for ASD to improve both the etiological knowledge and diagnosis. In this work, a copy-number variant and whole-exome sequencing analysis were performed in an ASD patient with a complex neurobehavioral phenotype with epilepsy and attention deficit hyperactivity disorder. We identified rare recessive single nucleotide variants in the two genes, PLXNA2 encoding Plexin A2 that participates in neurodevelopment, and LRRC40, which encodes Leucine-rich repeat containing protein 40, a protein of unknown function. PLXNA2 showed the heterozygous missense variants c.614G>A (p.Arg205Gln) and c.4904G>A (p.Arg1635Gln) while LRRC40 presented the homozygous missense variant c.1461G>T (p.Leu487Phe). In silico analysis predicted that these variants could be pathogenic. We studied PLXNA2 and LRRC40 mRNA and proteins in fibroblasts from the patient and controls. We observed a significant PlxnA2 subcellular delocalization and very low levels of LRRC40 in the patient. Moreover, we found a novel interaction between PlxnA2 and LRRC40 suggesting that participate in a common neural pathway. This interaction was significant decreased in the patient's fibroblasts. In conclusion, our results identified PLXNA2 and LRRC40 genes as candidates in ASD providing novel clues for the pathogenesis. Further attention to these genes is warranted in genetic studies of patients with neurodevelopmental disorders, particularly ASD. LAY SUMMARY: Genomics is improving the knowledge and diagnosis of patients with autism spectrum disorder (ASD) yet the genetic etiology remains elusive. Here, using genomic analysis together with experimental functional studies, we identified in an ASD complex patient the PLXNA2 and LRRC40 recessive genes as ASD candidates. Furthermore, we found that the proteins of these genes interact in a common neural network. Therefore, more attention to these genes is warranted in genetic studies of patients with neurodevelopmental disorders, particularly ASD.

Published

2021

17. Investigation of Autosomal Genetic Sex Differences in Parkinson's Disease

Author

Leonard H, Lake J, Kim JJ, Gibbs JR, Ruskey JA, Pihlstrøm L, Eerola-Rautio J, Tienari PJ, Grosset DG, Wood N, Noyce AJ, Middlehurst B, Kia DA, Tan M, Houlden H, Storm CS, Morris HR, Plun-Favreau H, Holmans P, Hardy J, Trabzuni D, Quinn J, Bubb V, Mok KY, Kinghorn KJ, Wood NW, Lewis P, Schreglmann SR, Lovering R, R'Bibo L, Manzoni C, Rizig M, Ryten M, Guelfi S, Escott-Price V, Chelban V, Foltynie T, Williams N, Morrison KE, Clarke C, Harvey K, Jacobs BM, Brice A, Danjou F, Lesage S, Corvol JC, Martinez M, Schulte C, Brockmann K, Simón-Sánchez J, Heutink P, Rizzu P, Sharma M, Gasser T, Schneider SA, Cookson MR, Bandres-Ciga S, Blauwendraat C, Craig DW, Billingsley K, Makarious MB, Narendra DP, Faghri F, Hernandez DG, Van Keuren-Jensen K, Shulman JM, Iwaki H, Leonard HL, Nalls MA, Robak L, Bras J, Guerreiro R, Lubbe S, Troycoco T, Finkbeiner S, Mencacci NE, Lungu C, Singleton AB, Scholz SW, Reed X, Uitti RJ, Ross OA, Grenn FP, Moore A, Alcalay RN, Wszolek ZK, Gan-Or Z, Rouleau GA, Krohn L, Mufti K, van Hilten JJ, Marinus J, Adarmes-Gómez AD, Aguilar M, Alvarez I, Alvarez V, Barrero FJ, Yarza JAB, Bernal-Bernal I, Blazquez M, Bonilla-Toribio M, Botía JA, Boungiorno MT, Buiza-Rueda D, Cámara A, Carrillo F, Carrión-Claro M, Cerdan D, Clarimón J, Compta Y, Diez-Fairen M, Dols-Icardo O, Duarte J, Duran R, Escamilla-Sevilla F, Ezquerra M, Feliz C, Fernández M, Fernández-Santiago R, Garcia C, García-Ruiz P, Gómez-Garre P, Heredia MJG, Gonzalez-Aramburu I, Pagola AG, Hoenicka J, Infante J, Jesús S, Jimenez-Escrig A, Kulisevsky J, Labrador-Espinosa MA, Lopez-Sendon JL, de Munain Arregui AL, Macias D, Torres IM, Marín J, Marti MJ, Martínez-Castrillo JC, Méndez-Del-Barrio C, González MM, Mata M, Mínguez A, Mir P, Rezola EM, Muñoz E, Pagonabarraga J, Pastor P, Errazquin FP, Periñán-Tocino T, Ruiz-Martínez J, Ruz C, Rodriguez AS, Sierra M, Suarez-Sanmartin E, Tabernero C, Tartari JP, Tejera-Parrado C, Tolosa E, Valldeoriola F, Vargas-González L, Vela L, Vives F, Zimprich A, Pihlstrom L, Toft M, Taba P, Koks S, Hassin-Baer S, Majamaa K, Siitonen A, Tienari P, Okubadejo NU, Ojo OO, Kaiyrzhanov R, Shashkin C, Zharkinbekova N, Akhmetzhanov V, Kaishybayeva G, Karimova A, Khaibullin T, Lynch TL, and International Parkinson's Disease Genomics Consortium (IPDGC)

Abstract

OBJECTIVE: Parkinson's disease (PD) is a complex neurodegenerative disorder. Men are on average ~ 1.5 times more likely to develop PD compared to women with European ancestry. Over the years, genomewide association studies (GWAS) have identified numerous genetic risk factors for PD, however, it is unclear whether genetics contribute to disease etiology in a sex-specific manner. METHODS: In an effort to study sex-specific genetic factors associated with PD, we explored 2 large genetic datasets from the International Parkinson's Disease Genomics Consortium and the UK Biobank consisting of 13,020 male PD cases, 7,936 paternal proxy cases, 89,660 male controls, 7,947 female PD cases, 5,473 maternal proxy cases, and 90,662 female controls. We performed GWAS meta-analyses to identify distinct patterns of genetic risk contributing to disease in male versus female PD cases. RESULTS: In total, 19 genomewide significant regions were identified and no sex-specific effects were observed. A high genetic correlation between the male and female PD GWAS were identified (rg = 0.877) and heritability estimates were identical between male and female PD cases (~ 20%). INTERPRETATION: We did not detect any significant genetic differences between male or female PD cases. Our study does not support the notion that common genetic variation on the autosomes could explain the difference in prevalence of PD between males and females cases at least when considering the current sample size under study. Further studies are warranted to investigate the genetic architecture of PD explained by X and Y chromosomes and further evaluate environmental effects that could potentially contribute to PD etiology in male versus female patients. ANN NEUROL 2021;90:41-48.

Published

2021

18. Translational Diagnostics: An In-House Pipeline to Validate Genetic Variants in Children with Undiagnosed and Rare Diseases

Author

Pijuan J, Rodríguez-Sanz M, Natera-de Benito D, Ortez-Gonzalez CI, Altimir A, Osuna-Lopez M, Roura-Llerda M, Ugalde M, Van de Vondel L, Reina-Castillon J, Fons-Estupina C, Benítez R, Nascimento-Osorio A, Hoenicka J, and Palau F

Abstract

Diagnosis is essential for the management and treatment of patients with rare diseases. In a group of patients, the genetic study identifies variants of uncertain significance or inconsistent with the phenotype; therefore, it is urgent to develop novel strategies to reach the definitive diagnosis. Herein, we develop the in-house Translational Diagnostics Program (TDP) to validate genetic variants as part of the diagnostic process with the close collaboration of physicians, clinical scientists, and research scientists. The first 7 of 33 consecutive patients for whom exome-based tests were not diagnostic were investigated. The TDP pipeline includes four steps: (i) phenotype assessment, (ii) literature review and prediction of in silico pathogenicity, (iii) experimental functional studies, and (iv) diagnostic decision-making. Re-evaluation of the phenotype and re-analysis of the exome allowed the diagnosis in one patient. In the remaining patients, the studies included either cDNA cloning or PCR-amplified genomic DNA, or the use of patients' fibroblasts. A comparative computational analysis of confocal microscopy images and studies related to the protein function was performed. In five of these six patients, evidence of pathogenicity of the genetic variant was found, which was validated by physicians. The current research demonstrates the feasibility of the TDP to support and resolve intramural medical problems when the clinical significance of the patient variant is unknown or inconsistent with the phenotype.

Published

2021

19. Finding genetically-supported drug targets for Parkinson’s disease using Mendelian randomization of the druggable genome

Author

Storm, C.S., Kia, D.A., Almramhi, M.M., Bandrés-Ciga, S., Finan, C., Noyce, A.J., Kaiyrzhanov, R., Middlehurst, B., Tan, M., Houlden, H., Morris, H.R., Plun-Favreau, H., Holmans, P., Hardy, J., Trabzuni, D., Quinn, J., Bubb, V., Mok, K.Y., Kinghorn, K.J., Lewis, P., Schreglmann, S.R., Lovering, R., R’Bibo, L., Manzoni, C., Rizig, M., Ryten, M., Guelfi, S., Escott-Price, V., Chelban, V., Foltynie, T., Williams, N., Morrison, K.E., Clarke, C., Harvey, K., Jacobs, B.M., Brice, A., Danjou, F., Lesage, S., Corvol, J-C, Martinez, M., Schulte, C., Brockmann, K., Simón-Sánchez, J., Heutink, P., Rizzu, P., Sharma, M., Gasser, T., Schneider, S.A., Cookson, M.R., Blauwendraat, C., Craig, D.W., Billingsley, K., Makarious, M.B., Narendra, D.P., Faghri, F., Gibbs, J.R., Hernandez, D.G., Van Keuren-Jensen, K., Shulman, J.M., Iwaki, H., Leonard, H.L., Nalls, M.A., Robak, L., Bras, J., Guerreiro, R., Lubbe, S., Troycoco, T., Finkbeiner, S., Mencacci, N.E., Lungu, C., Singleton, A.B., Scholz, S.W., Reed, X., Uitti, R.J., Ross, O.A., Grenn, F.P., Moore, A., Alcalay, R.N., Wszolek, Z.K., Gan-Or, Z., Rouleau, G.A., Krohn, L., Mufti, K., van Hilten, J.J., Marinus, J., Adarmes-Gómez, A.D., Aguilar, M., Alvarez, I., Alvarez, V., Barrero, F.J., Yarza, J.A.B., Bernal-Bernal, I., Blazquez, M., Bonilla-Toribio, M., Botía, J.A., Boungiorno, M.T., Buiza-Rueda, D., Cámara, A., Carrillo, F., Carrión-Claro, M., Cerdan, D., Clarimón, J., Compta, Y., Diez-Fairen, M., Dols-Icardo, O., Duarte, J., Duran, R., Escamilla-Sevilla, F., Ezquerra, M., Feliz, C., Fernández, M., Fernández-Santiago, R., Garcia, C., García-Ruiz, P., Gómez-Garre, P., Heredia, M.J.G., Gonzalez-Aramburu, I., Pagola, A.G., Hoenicka, J., Infante, J., Jesús, S., Jimenez-Escrig, A., Kulisevsky, J., Labrador-Espinosa, M.A., Lopez-Sendon, J.L., de Munain Arregui, A.L., Macias, D., Torres, I.M., Marín, J., Marti, M.J., Martínez-Castrillo, J.C., Méndez-del-Barrio, C., González, M.M., Mata, M., Mínguez, A., Mir, P., Rezola, E.M., Muñoz, E., Pagonabarraga, J., Pastor, P., Errazquin, F.P., Periñán-Tocino, T., Ruiz-Martínez, J., Ruz, C., Rodriguez, A.S., Sierra, M., Suarez-Sanmartin, E., Tabernero, C., Tartari, J.P., Tejera-Parrado, C., Tolosa, E., Valldeoriola, F., Vargas-González, L., Vela, L., Vives, F., Zimprich, A., Pihlstrom, L., Toft, M., Taba, P., Kõks, S., Hassin-Baer, S., Majamaa, K., Siitonen, A., Tienari, P., Okubadejo, N.U., Ojo, O.O., Shashkin, C., Zharkinbekova, N., Akhmetzhanov, V., Kaishybayeva, G., Karimova, A., Khaibullin, T., Lynch, T.L., Hingorani, A.D., Wood, N.W., Storm, C.S., Kia, D.A., Almramhi, M.M., Bandrés-Ciga, S., Finan, C., Noyce, A.J., Kaiyrzhanov, R., Middlehurst, B., Tan, M., Houlden, H., Morris, H.R., Plun-Favreau, H., Holmans, P., Hardy, J., Trabzuni, D., Quinn, J., Bubb, V., Mok, K.Y., Kinghorn, K.J., Lewis, P., Schreglmann, S.R., Lovering, R., R’Bibo, L., Manzoni, C., Rizig, M., Ryten, M., Guelfi, S., Escott-Price, V., Chelban, V., Foltynie, T., Williams, N., Morrison, K.E., Clarke, C., Harvey, K., Jacobs, B.M., Brice, A., Danjou, F., Lesage, S., Corvol, J-C, Martinez, M., Schulte, C., Brockmann, K., Simón-Sánchez, J., Heutink, P., Rizzu, P., Sharma, M., Gasser, T., Schneider, S.A., Cookson, M.R., Blauwendraat, C., Craig, D.W., Billingsley, K., Makarious, M.B., Narendra, D.P., Faghri, F., Gibbs, J.R., Hernandez, D.G., Van Keuren-Jensen, K., Shulman, J.M., Iwaki, H., Leonard, H.L., Nalls, M.A., Robak, L., Bras, J., Guerreiro, R., Lubbe, S., Troycoco, T., Finkbeiner, S., Mencacci, N.E., Lungu, C., Singleton, A.B., Scholz, S.W., Reed, X., Uitti, R.J., Ross, O.A., Grenn, F.P., Moore, A., Alcalay, R.N., Wszolek, Z.K., Gan-Or, Z., Rouleau, G.A., Krohn, L., Mufti, K., van Hilten, J.J., Marinus, J., Adarmes-Gómez, A.D., Aguilar, M., Alvarez, I., Alvarez, V., Barrero, F.J., Yarza, J.A.B., Bernal-Bernal, I., Blazquez, M., Bonilla-Toribio, M., Botía, J.A., Boungiorno, M.T., Buiza-Rueda, D., Cámara, A., Carrillo, F., Carrión-Claro, M., Cerdan, D., Clarimón, J., Compta, Y., Diez-Fairen, M., Dols-Icardo, O., Duarte, J., Duran, R., Escamilla-Sevilla, F., Ezquerra, M., Feliz, C., Fernández, M., Fernández-Santiago, R., Garcia, C., García-Ruiz, P., Gómez-Garre, P., Heredia, M.J.G., Gonzalez-Aramburu, I., Pagola, A.G., Hoenicka, J., Infante, J., Jesús, S., Jimenez-Escrig, A., Kulisevsky, J., Labrador-Espinosa, M.A., Lopez-Sendon, J.L., de Munain Arregui, A.L., Macias, D., Torres, I.M., Marín, J., Marti, M.J., Martínez-Castrillo, J.C., Méndez-del-Barrio, C., González, M.M., Mata, M., Mínguez, A., Mir, P., Rezola, E.M., Muñoz, E., Pagonabarraga, J., Pastor, P., Errazquin, F.P., Periñán-Tocino, T., Ruiz-Martínez, J., Ruz, C., Rodriguez, A.S., Sierra, M., Suarez-Sanmartin, E., Tabernero, C., Tartari, J.P., Tejera-Parrado, C., Tolosa, E., Valldeoriola, F., Vargas-González, L., Vela, L., Vives, F., Zimprich, A., Pihlstrom, L., Toft, M., Taba, P., Kõks, S., Hassin-Baer, S., Majamaa, K., Siitonen, A., Tienari, P., Okubadejo, N.U., Ojo, O.O., Shashkin, C., Zharkinbekova, N., Akhmetzhanov, V., Kaishybayeva, G., Karimova, A., Khaibullin, T., Lynch, T.L., Hingorani, A.D., and Wood, N.W.

Abstract

Parkinson’s disease is a neurodegenerative movement disorder that currently has no disease-modifying treatment, partly owing to inefficiencies in drug target identification and validation. We use Mendelian randomization to investigate over 3,000 genes that encode druggable proteins and predict their efficacy as drug targets for Parkinson’s disease. We use expression and protein quantitative trait loci to mimic exposure to medications, and we examine the causal effect on Parkinson’s disease risk (in two large cohorts), age at onset and progression. We propose 23 drug-targeting mechanisms for Parkinson’s disease, including four possible drug repurposing opportunities and two drugs which may increase Parkinson’s disease risk. Of these, we put forward six drug targets with the strongest Mendelian randomization evidence. There is remarkably little overlap between our drug targets to reduce Parkinson’s disease risk versus progression, suggesting different molecular mechanisms. Drugs with genetic support are considerably more likely to succeed in clinical trials, and we provide compelling genetic evidence and an analysis pipeline to prioritise Parkinson’s disease drug development.

Published

2021

20. The ANKK1 Protein Associated with Addictions has Nuclear and Cytoplasmic Localization and Shows a Differential Response of Ala239Thr to Apomorphine

Author

Garrido, E., Palomo, T., Ponce, G., García-Consuegra, I., Jiménez-Arriero, M. A., and Hoenicka, J.

Published

2011

21. Ankyrin Repeat and Kinase Domain Containing 1 Gene, and Addiction Vulnerability

Author

Koeneke A, Ponce G, Troya-Balseca J, Palomo T, and Hoenicka J

Subjects

neurodevelopment, DRD2, TaqIA, dopamine, ANKK1, addictions

Abstract

The TaqIA single nucleotide variant (SNV) has been tested for association with addictions in a huge number of studies. TaqIA is located in the ankyrin repeat and kinase domain containing 1 gene (ANKK1) that codes for a receptor interacting protein kinase. ANKK1 maps on the NTAD cluster along with the dopamine receptor D2 (DRD2), the tetratricopeptide repeat domain 12 (TTC12) and the neural cell adhesion molecule 1 (NCAM1) genes. The four genes have been associated with addictions, although TTC12 and ANKK1 showed the strongest associations. In silico and in vitro studies revealed that ANKK1 is functionally related to the dopaminergic system, in particular with DRD2. In antisocial alcoholism, epistasis between ANKK1 TaqIA and DRD2 C957T SNVs has been described. This clinical finding has been supported by the study of ANKK1 expression in peripheral blood mononuclear cells of alcoholic patients and controls. Regarding the ANKK1 protein, there is direct evidence of its location in adult and developing central nervous system. Together, these findings of the ANKK1 gene and its protein suggest that the TaqIA SNV is a marker of brain differences, both in structure and in dopaminergic function, that increase individual risk to addiction development.

Published

2020

22. Regulatory sites for splicing in human basal ganglia are enriched for disease-relevant information

Author

Guelfi S., D’Sa K., Botía J.A., Vandrovcova J., Reynolds R.H., Zhang D., Trabzuni D., Collado-Torres L., Thomason A., Quijada Leyton P., Gagliano Taliun S.A., Nalls M.A., Noyce A.J., Nicolas A., Cookson M.R., Bandres-Ciga S., Gibbs J.R., Hernandez D.G., Singleton A.B., Reed X., Leonard H., Blauwendraat C., Faghri F., Bras J., Guerreiro R., Tucci A., Kia D.A., Houlden H., Plun-Favreau H., Mok K.Y., Wood N.W., Lovering R., R’Bibo L., Rizig M., Chelban V., Tan M., Morris H.R., Middlehurst B., Quinn J., Billingsley K., Holmans P., Kinghorn K.J., Lewis P., Escott-Price V., Williams N., Foltynie T., Brice A., Danjou F., Lesage S., Corvol J.-C., Martinez M., Giri A., Schulte C., Brockmann K., Simón-Sánchez J., Heutink P., Gasser T., Rizzu P., Sharma M., Shulman J.M., Robak L., Lubbe S., Mencacci N.E., Finkbeiner S., Lungu C., Scholz S.W., Gan-Or Z., Rouleau G.A., Krohan L., van Hilten J.J., Marinus J., Adarmes-Gómez A.D., Bernal-Bernal I., Bonilla-Toribio M., Buiza-Rueda D., Carrillo F., Carrión-Claro M., Mir P., Gómez-Garre P., Jesús S., Labrador-Espinosa M.A., Macias D., Vargas-González L., Méndez-del-Barrio C., Periñán-Tocino T., Tejera-Parrado C., Diez-Fairen M., Aguilar M., Alvarez I., Boungiorno M.T., Carcel M., Pastor P., Tartari J.P., Alvarez V., González M.M., Blazquez M., Garcia C., Suarez-Sanmartin E., Barrero F.J., Rezola E.M., Yarza J.A.B., Pagola A.G., Arregui A.L.M., Ruiz-Martínez J., Cerdan D., Duarte J., Clarimón J., Dols-Icardo O., Infante J., Marín J., Kulisevsky J., Pagonabarraga J., Gonzalez-Aramburu I., Rodriguez A.S., Sierra M., Duran R., Ruz C., Vives F., Escamilla-Sevilla F., Mínguez A., Cámara A., Compta Y., Ezquerra M., Marti M.J., Fernández M., Muñoz E., Fernández-Santiago R., Tolosa E., Valldeoriola F., García-Ruiz P., Heredia M.J.G., Errazquin F.P., Hoenicka J., Jimenez-Escrig A., Martínez-Castrillo J.C., Lopez-Sendon J.L., Torres I.M., Tabernero C., Vela L., Zimprich A., Pihlstrom L., Koks S., Taba P., Majamaa K., Siitonen A., Okubadejo N.U., Ojo O.O., Forabosco P., Walker R., Small K.S., Smith C., Ramasamy A., Hardy J., Weale M.E., and Ryten M.

Subjects

medicine, RNA splicing, phenotype, brain, genotype, Quantitative Trait Loci, genetic analysis, Polymorphism, Single Nucleotide, Article, genetic regulation, mental disease, transcriptomics, quantitative trait locus, expression quantitative trait locus, single nucleotide polymorphism, Humans, genetics, human, reproducibility, Alleles, Neurons, genome-wide association study, human cell, allele, Putamen, Reproducibility of Results, RNA sequencing, Parkinson Disease, gene expression regulation, cell, cohort analysis, neurologic disease, human tissue, schizophrenia, Substantia Nigra, disease incidence, physiology, gene expression, RNA, physiological response, Nervous System Diseases, nerve cell, Transcriptome, nervous system disorder, basal ganglion

Abstract

Genome-wide association studies have generated an increasing number of common genetic variants associated with neurological and psychiatric disease risk. An improved understanding of the genetic control of gene expression in human brain is vital considering this is the likely modus operandum for many causal variants. However, human brain sampling complexities limit the explanatory power of brain-related expression quantitative trait loci (eQTL) and allele-specific expression (ASE) signals. We address this, using paired genomic and transcriptomic data from putamen and substantia nigra from 117 human brains, interrogating regulation at different RNA processing stages and uncovering novel transcripts. We identify disease-relevant regulatory loci, find that splicing eQTLs are enriched for regulatory information of neuron-specific genes, that ASEs provide cell-specific regulatory information with evidence for cellular specificity, and that incomplete annotation of the brain transcriptome limits interpretation of risk loci for neuropsychiatric disease. This resource of regulatory data is accessible through our web server, http://braineacv2.inf.um.es/. © 2020, The Author(s).

Published

2020

23. Impulsivity and Sustained Attention in Pathological Gamblers: Influence of Childhood ADHD History

Author

Rodriguez-Jimenez, R., Avila, C., Jimenez-Arriero, M. A., Ponce, G., Monasor, R., Jimenez, M., Aragües, M., Hoenicka, J., Rubio, G., and Palomo, T.

Published

2006

24. The ANKK1 Protein Associated with Addictions has Nuclear and Cytoplasmic Localization and Shows a Differential Response of Ala239Thr to Apomorphine

Author

Garrido, E., primary, Palomo, T., additional, Ponce, G., additional, García-Consuegra, I., additional, Jiménez-Arriero, M. A., additional, and Hoenicka, J., additional

Published

2013

25. Depression in Parkinson's disease is related to a genetic polymorphism of the cannabinoid receptor gene (CNR1)

Author

Barrero, F J, Ampuero, I, Morales, B, Vives, F, de Dios Luna del Castillo, J, Hoenicka, J, and García Yébenes, J

Published

2005

26. DRD2 TaqIA polymorphism is associated with urinary homovanillic acid levels in a sample of spanish male alcoholic patients

Author

Ponce, G., Hoenicka, J., Rodríguez-jiménez, R., Gozalo, A., Jimenéz, M., Monasor, R., Aragüés, M., Rubio, G., Jiménez-arriero, M. A., Ramos, J. A., and Palomo, T.

Published

2004

27. HEREDITARY NEUROPATHIES & ALS

Author

Natera, D., primary, Sola, A., additional, Boronat, S., additional, Sousa, P. Rego, additional, Ortez, C., additional, Arsmtrong, J., additional, Jou, C., additional, Carrera, L., additional, Exposito, J., additional, Codina, A., additional, Colomer, J., additional, Jimenez-Mallebrera, C., additional, Hoenicka, J., additional, Palau, F., additional, and Nascimento, A., additional

Published

2020

28. The D2 dopamine receptor gene variant C957T affects human fear conditioning and aversive priming

Author

Huertas, E., Ponce, G., Koeneke, M. A., Poch, C., España-Serrano, L., Palomo, T., Jiménez-Arriero, M. Á., and Hoenicka, J.

Published

2010

29. DRD2 and ANKK1 genotype in alcohol-dependent patients with psychopathic traits: association and interaction study

Author

Ponce, G., Hoenicka, J., Jiménez-Arriero, M. A., Rodríguez-Jiménez, R., Aragüés, M., Martín-Suñé, N., Huertas, E., and Palomo, T.

Published

2008

30. Mitochondria function associated genes contribute to Parkinson’s Disease risk and later age at onset

Author

Billingsley, Kimberley J, Barbosa, Ines A, Bandres-Ciga, Sara, Quinn, John P, Bubb, Vivien J, Deshpande, Charu, Botia, Juan A, Reynolds, Regina H, Zhang, David, Simpson, Michael A, Blauwendraat, Cornelis, Gan-Or, Ziv, Gibbs, J Raphael, Nalls, Mike A, Singleton, Andrew, Ryten, Mina, Koks, Sulev, Noyce, A, Tucci, A, Middlehurst, B, Kia, D, Tan, M, Houlden, H, Morris, HR, Plun-Favreau, H, Holmans, P, Hardy, J, Trabzuni, D, Bras, J, Mok, K, Kinghorn, K, Wood, N, Lewis, P, Guerreiro, R, Loverin, R, R'Bibo, L, Rizig, M, Escott-Price, V, Chelban, V, Foltynie, T, Williams, N, Brice, A, Danjou, F, Lesage, S, Martinez, M, Giri, A, Schulte, C, Brockmann, K, Simon-Sanchez, J, Heutink, P, Rizzu, P, Sharma, M, Gasser, T, Nicolas, A, Cookson, M, Faghri, F, Hernandez, D, Shulman, J, Robak, L, Lubbe, S, Finkbeiner, S, Mencacci, N, Lungu, C, Scholz, S, Reed, X, Leonard, H, Rouleau, G, Krohan, L, van Hilten, J, Marinus, J, Adarmes-Gomez, A, Aguilar, M, Alvarez, I, Alvarez, V, Javier Barrero, F, Bergareche Yarza, J, Bernal-Bernal, I, Blazquez, M, Bonilla-Toribio Bernal, M, Boungiorne, M, Buiza-Rueda, Dolores, Camara, A, Carcel, M, Carrillo, F, Carrion-Claro, M, Cerdan, D, Clarimon, J, Compta, Y, Diez-Fairen, M, Dols-Icardo, O, Duarte, J, Duran, RI, Escamilla-Sevilla, F, Ezquerra, M, Fernandez, M, Fernandez-Santiago, R, Garcia, C, Garcia-Ruiz, P, Gomez-Garre, P, Gomez Heredia, M, Gonzalez-Aramburu, I, Gorostidi Pagola, A, Hoenicka, J, Infante, J, Jesus, S, Jimenez-Escrig, A, Kulisevsky, J, Labrador-Espinosa, M, Lopez-Sendon, J, de Munain Arregui, A Lopez, Macias, D, Martinez Torres, I, Marin, J, Jose Marti, M, Martinez-Castrillo, J, Mendez-del-Barrio, C, Menendez Gonzalez, M, Minguez, A, Mir, P, Mondragon Rezola, E, Munoz, E, Pagonabarraga, J, Pastor, P, Perez Errazquin, F, Perinan-Tocino, T, Ruiz-Martinez, J, Ruz, C, Sanchez Rodriguez, A, Sierra, M, Suarez-Sanmartin, E, Tabernero, C, Pablo Tartari, J, Tejera-Parrado, C, Tolosa, E, Valldeoriola, F, Vargas-Gonzalez, L, Vela, L, Vives, F, Zimprich, A, Pihlstrom, L, Taba, P, Majamaa, K, Siitonen, A, Okubadejo, N, Ojo, O, IPDGC, and Universidad de Cantabria

Subjects

0301 basic medicine, Mitochondrial DNA, medicine.medical_specialty, Aging, Parkinson's disease, Mitochondrial disease, Mitochondrion, Biology, Neurodegenerative, Bioinformatics, lcsh:RC346-429, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Mendelian randomization, Mitophagy, medicine, Genetics, 2.1 Biological and endogenous factors, Aetiology, lcsh:Neurology. Diseases of the nervous system, Parkinson's Disease, Medical genetics, Neurosciences, medicine.disease, Brain Disorders, International Parkinson’s Disease Genomics Consortium, 030104 developmental biology, Proteostasis, Neurology, Risk factors, Neurological, Neurology (clinical), Medical genetic, 030217 neurology & neurosurgery

Abstract

Mitochondrial dysfunction has been implicated in the etiology of monogenic Parkinson’s disease (PD). Yet the role that mitochondrial processes play in the most common form of the disease; sporadic PD, is yet to be fully established. Here, we comprehensively assessed the role of mitochondrial function-associated genes in sporadic PD by leveraging improvements in the scale and analysis of PD GWAS data with recent advances in our understanding of the genetics of mitochondrial disease. We calculated a mitochondrial-specific polygenic risk score (PRS) and showed that cumulative small effect variants within both our primary and secondary gene lists are significantly associated with increased PD risk. We further reported that the PRS of the secondary mitochondrial gene list was significantly associated with later age at onset. Finally, to identify possible functional genomic associations we implemented Mendelian randomization, which showed that 14 of these mitochondrial functionassociated genes showed functional consequence associated with PD risk. Further analysis suggested that the 14 identified genes are not only involved in mitophagy, but implicate new mitochondrial processes. Our data suggests that therapeutics targeting mitochondrial bioenergetics and proteostasis pathways distinct from mitophagy could be beneficial to treating the early stage of PD., This work was supported in part by the Intramural Research Program of the National Institute on Aging, National Institutes of Health, Department of Health and Human Services; project ZO1 AG000949

Published

2019

31. Moving beyond neurons: the role of cell type-specific gene regulation in Parkinson's disease heritability

Author

Reynolds, R.H., Botia, J., Nalls, M.A., Hardy, J., Taliun, S.A.G., Ryten, M., Noyce, A.J., Nicolas, A., Cookson, M.R., Bandres-Ciga, S., Gibbs, J.R., Hernandez, D.G., Singleton, A.B., Reed, X., Leonard, H., Blauwendraat, C., Faghri, F., Bras, J., Guerreiro, R., Tucci, A., Kia, D.A., Houlden, H., Plun-Favreau, H., Mok, K.Y., Wood, N.W., Lovering, R., R'Bibo, L., Rizig, M., Chelban, V., Trabzuni, D., Tan, M., Morris, H.R., Middlehurst, B., Quinn, J., Billingsley, K., Holmans, P., Kinghorn, K.J., Lewis, P., Escott-Price, V., Williams, N., Foltynie, T., Brice, A., Danjou, F., Lesage, S., Corvol, J.C., Martinez, M., Giri, A., Schulte, C., Brockmann, K., Simon-Sanchez, J., Heutink, P., Gasser, T., Rizzu, P., Sharma, M., Shulman, J.M., Robak, L., Lubbe, S., Mencacci, N.E., Finkbeiner, S., Lungu, C., Scholz, S.W., Gan-Or, Z., Rouleau, G.A., Krohan, L., Hilten, J.J. van, Marinus, J., Adarmes-Gomez, A.D., Bernal-Bernal, I., Bonilla-Toribio, M., Buiza-Rueda, D., Carrillo, F., Carrion-Claro, M., Mir, P., Gomez-Garre, P., Jesus, S., Labrador-Espinosa, M.A., Macias, D., Vargas-Gonzalez, L., Mendez-del-Barrio, C., Perinan-Tocino, T., Tejera-Parrado, C., Diez-Fairen, M., Aguilar, M., Alvarez, I., Boungiorno, M.T., Carcel, M., Pastor, P., Tartari, J.P., Alvarez, V., Gonzalez, M.M., Blazquez, M., Garcia, C., Suarez-Sanmartin, E., Barrero, F.J., Rezola, E.M., Yarza, J.A.B., Pagola, A.G., Arregui, A.L.D., Ruiz-Martinez, J., Cerdan, D., Duarte, J., Clarimon, J., Dols-Icardo, O., Infante, J., Marin, J., Kulisevsky, J., Pagonabarraga, J., Gonzalez-Aramburu, I., Rodriguez, A.S., Sierra, M., Duran, R., Ruz, C., Vives, F., Escamilla-Sevilla, F., Minguez, A., Camara, A., Compta, Y., Ezquerra, M., Marti, M.J., Fernandez, M., Munoz, E., Fernandez-Santiago, R., Tolosa, E., Valldeoriola, F., Garcia-Ruiz, P., Heredia, M.J.G., Errazquin, F.P., Hoenicka, J., Jimenez-Escrig, A., Martinez-Castrillo, J.C., Lopez-Sendon, J.L., Torres, I.M., Tabernero, C., Vela, L., Zimprich, A., Pihlstrom, L., Koks, S., Taba, P., Majamaa, K., Siitonen, A., Okubadejo, N.U., Ojo, O.O., Pitcher, T., Anderson, T., Bentley, S., Fowdar, J., Mellick, G., Dalrymple-Alford, J., Henders, A.K., Kassam, I., Montgomery, G., Sidorenko, J., Zhang, F.T., Xue, A.L., Vallerga, C.L., Wallace, L., Wray, N.R., Yang, J., Visscher, P.M., Gratten, J., Silburn, P.A., Halliday, G., Hickie, I., Kwok, J., Lewis, S., Kennedy, M., Pearson, J., Int Parkinsons Dis Genomics, and Syst Genomics Parkinsons Dis

Published

2019

32. SNCA and mTOR Pathway Single Nucleotide Polymorphisms Interact to Modulate the Age at Onset of Parkinson's Disease

Author

Fernandez-Santiago, R., Martin-Flores, N., Antonelli, F., Cerquera, C., Moreno, V., Bandres-Ciga, S., Manduchi, E., Tolosa, E., Singleton, A.B., Moore, J.H., Noyce, A.J., Kaiyrzhanov, R., Middlehurst, B., Kia, D.A., Tan, M., Houlden, H., Morris, H.R., Plun-Favreau, H., Holmans, P., Hardy, J., Trabzuni, D., Bras, J., Quinn, J., Mok, K.Y., Kinghorn, K.J., Billingsley, K., Wood, N.W., Lewis, P., Schreglmann, S., Guerreiro, R., Lovering, R., R'Bibo, L., Manzoni, C., Rizig, M., Ryten, M., Guelfi, S., Escott-Price, V., Chelban, V., Foltynie, T., Williams, N., Morrison, K.E., Clarke, C., Brice, A., Danjou, F., Lesage, S., Corvol, J.C., Martinez, M., Schulte, C., Brockmann, K., Simoon-Saanchez, J., Heutink, P., Rizzu, P., Sharma, M., Gasser, T., Nicolas, A., Cookson, M.R., Blauwendraat, C., Craig, D.W., Faghri, F., Gibbs, J.R., Hernandez, D.G., Keuren-Jensen, K. van, Shulman, J.M., Iwaki, H., Leonard, H.L., Nalls, M.A., Robak, L., Lubbe, S., Finkbeiner, S., Mencacci, N.E., Lungu, C., Scholz, S.W., Reed, X., Alcalay, R.N., Gan-Or, Z., Rouleau, G.A., Krohn, L., Hilten, J.J. van, Marinus, J., Adarmes-Goomez, A.D., Aguilar, I., Alvarez, I., Alvarez, V., Barrero, F.J., Yarza, J.A.B., Bernal-Bernal, I., Blazquez, M., Bonilla-Toribio, M., Botia, J.A., Boungiorno, M.T., Buiza-Rueda, D., Camara, A., Carrillo, F., Carrion-Claro, M., Cerdan, D., Clarimon, J., Compta, Y., Casa, B. de la, Diez-Fairen, M., Dols-Icardo, O., Duarte, J., Duran, R., Escamilla-Sevilla, F., Ezquerra, M., Feliz, C., Fernandez, M., Garcia, C., Garcia-Ruiz, P., Gomez-Garre, P., Heredia, M.J.G., Gonzalez-Aramburu, I., Pagola, A.G., Hoenicka, J., Infante, J., Jesus, S., Jimenez-Escrig, A., Kulisevsky, J., Labrador-Espinosa, M.A., Lopez-Sendon, J.L., Arregui, A.L.D., Macias, D., Torres, I.M., Marin, J., Marti, M.J., Martinez-Castrillo, C., Mendez-del-Barrio, C., Gonzalez, M.M., Mata, M., Minguez, A., Mir, P., Rezola, E.M., Munoz, E., Pagonabarraga, J., Pascual-Sedano, B., Pastor, P., Errazquin, F.P., Perinan-Tocino, T., Ruiz-Martinez, J., Ruz, C., Rodriguez, A.S., Sierra, M., Suarez-Sanmartin, E., Tabernero, C., Tartari, J.P., Tejera-Parrado, C., Valldeoriola, F., Vargas-Gonzalez, L., Vela, L., Vives, F., Zimprich, A., Pihlstrom, L., Toft, M., Koks, S., Taba, P., Hassin-Baer, S., Malagelada, C., Int Parkinson's Dis Genomics Conso, Fundació La Marató de TV3, Michael J. Fox Foundation for Parkinson's Research, National Institutes of Health (US), Ministerio de Economía y Competitividad (España), Agencia Estatal de Investigación (España), and Ministerio de Ciencia, Innovación y Universidades (España)

Subjects

0301 basic medicine, epistasis, Male, Parkinson's disease, very elderly, alpha-synuclein, Alpha‐synuclein, regulatory associated protein of mTOR, Cohort Studies, 0302 clinical medicine, single nucleotide polymorphism, genetics, Age of Onset, Genetics, Aged, 80 and over, Polymorphism, Single Nucleoti, biology, TOR Serine-Threonine Kinases, target of rapamycin kinase, fchsd1 gene, Age at onset, Chromosome Mapping, glycogen synthase kinase 3beta, Parkinson Disease, Middle Aged, cohort analysis, LRRK2, priority journal, Neurology, chromosomal mapping, neuromodulation, mTOR, alpha-Synuclein, Female, age at onset, Signal Transduction, onset age, Adult, MTOR protein, human, protein kinase LKB1, gene locus, Genotype, multifactor dimensionality reduction, SNP, Single-nucleotide polymorphism, rps6ka2 gene, Polymorphism, Single Nucleotide, Risk Assessment, Article, brain function, 03 medical and health sciences, alpha synuclein, medicine, Humans, controlled study, Genetic Predisposition to Disease, human, ddc:610, SNCA protein, human, gene, Mechanistic target of rapamycin, PI3K/AKT/mTOR pathway, mammalian target of rapamycin, Aged, RPTOR, Epistasis, Genetic, Odds ratio, medicine.disease, major clinical study, nervous system diseases, 030104 developmental biology, mTOR signaling, biology.protein, Epistasis, pathology, Neurology (clinical), genetic predisposition, 030217 neurology & neurosurgery

Abstract

Special Issue: Focused Ultrasound in Parkinson's Disease., [Background] Single nucleotide polymorphisms (SNPs) in the α‐synuclein (SNCA ) gene are associated with differential risk and age at onset (AAO) of both idiopathic and Leucine‐rich repeat kinase 2 (LRRK2)‐associated Parkinson's disease (PD). Yet potential combinatory or synergistic effects among several modulatory SNPs for PD risk or AAO remain largely underexplored., [Objectives] The mechanistic target of rapamycin (mTOR ) signaling pathway is functionally impaired in PD. Here we explored whether SNPs in the mTOR pathway, alone or by epistatic interaction with known susceptibility factors, can modulate PD risk and AAO., [Methods] Based on functional relevance, we selected a total of 64 SNPs mapping to a total of 57 genes from the mTOR pathway and genotyped a discovery series cohort encompassing 898 PD patients and 921 controls. As a replication series, we screened 4170 PD and 3014 controls available from the International Parkinson's Disease Genomics Consortium., [Results] In the discovery series cohort, we found a 4‐loci interaction involving STK11 rs8111699, FCHSD1 rs456998, GSK3B rs1732170, and SNCA rs356219, which was associated with an increased risk of PD (odds ratio = 2.59, P, [Conclusions] These findings indicate that genetic variability in the mTOR pathway contributes to SNCA effects in a nonlinear epistatic manner to modulate differential AAO in PD, unraveling the contribution of this cascade in the pathogenesis of the disease. © 2019 International Parkinson and Movement Disorder Society, Funding Information; Fundació la Marató de TV3. Grant Number: 60510; Michael J. Fox Foundation for Parkinson's Research. Grant Numbers: Dyskinesia Challenge 2014, MJF_PPMI_10_001, PI044024; National Institutes of Health. Grant Number: LM010098; Secretaría de Estado de Investigación, Desarrollo e Innovación. Grant Number: SAF2014‐57160R and SAF2017‐88812R.

Published

2019

33. SNCA and mTOR Pathway Single Nucleotide Polymorphisms Interact to Modulate the Age at Onset of Parkinson's Disease

Author

Martin-Flores, N, Antonelli, F, Cerquera, C, Moreno, V, Manduchi, E, Moore, JH, Noyce, AJ, Kaiyrzhanov, R, Middlehurst, B, Kia, DA, Tan, M, Houlden, H, Morris, HR, Plun-Favreau, H, Holmans, P, Hardy, J, Trabzuni, D, Bras, J, Quinn, J, Mok, KY, Kinghorn, KJ, Billingsley, K, Wood, NW, Lewis, P, Schreglmann, S, Guerreiro, R, Lovering, R, R'Bibo, L, Manzoni, C, Rizig, M, Ryten, M, Guelfi, S, Escott-Price, V, Chelban, V, Foltynie, T, Williams, N, Morrison, KE, Clarke, C, Brice, A, Danjou, F, Lesage, S, Corvol, JC, Martinez, M, Schulte, C, Brockmann, K, Simoon-Saanchez, J, Heutink, P, Rizzu, P, Sharma, M, Gasser, T, Nicolas, A, Cookson, MR, Bandres-Ciga, S, Blauwendraat, C, Craig, DW, Faghri, F, Gibbs, JR, Hernandez, DG, Van Keuren-Jensen, K, Shulman, JM, Iwaki, H, Leonard, HL, Nalls, MA, Robak, L, Lubbe, S, Finkbeiner, S, Mencacci, NE, Lungu, C, Singleton, AB, Scholz, SW, Reed, X, Alcalay, RN, Gan-Or, Z, Rouleau, GA, Krohn, L, van Hilten, JJ, Marinus, J, Adarmes-Goomez, AD, Aguilar, I, Alvarez, I, Alvarez, V, Barrero, FJ, Yarza, JAB, Bernal-Bernal, I, Blazquez, M, Bonilla-Toribio, M, Botia, JA, Boungiorno, MT, Buiza-Rueda, D, Camara, A, Carrillo, F, Carrion-Claro, M, Cerdan, D, Clarimon, J, Compta, Y, de la Casa, B, Diez-Fairen, M, Dols-Icardo, O, Duarte, J, Duran, R, Escamilla-Sevilla, F, Feliz, C, Fernandez, M, Fernandez-Santiago, R, Garcia, C, Garcia-Ruiz, P, Gomez-Garre, P, Heredia, MJG, Gonzalez-Aramburu, I, Pagola, AG, Hoenicka, J, Infante, J, Jesus, S, Jimenez-Escrig, A, Kulisevsky, J, Labrador-Espinosa, MA, Lopez-Sendon, JL, Arregui, ALD, Macias, D, Torres, IM, Marin, J, Marti, MJ, Martinez-Castrillo, C, Mendez-del-Barrio, C, Gonzalez, MM, Mata, M, Minguez, A, Mir, P, Rezola, EM, Munoz, E, Pagonabarraga, J, Pascual-Sedano, B, Pastor, P, Errazquin, FP, Perinan-Tocino, T, Ruiz-Martinez, J, Ruz, C, Rodriguez, AS, Sierra, M, Suarez-Sanmartin, E, Tabernero, C, Tartari, JP, Tejera-Parrado, C, Tolosa, E, Valldeoriola, F, Vargas-Gonzalez, L, Vela, L, Vives, F, Zimprich, A, Pihlstrom, L, Toft, M, Koks, S, Taba, P, Hassin-Baer, S, Ezquerra, M, Malagelada, C, and Int Parkinson's Dis Genomics Conso

Subjects

epistasis, alpha-synuclein, Parkinson's disease, mTOR, SNP, age at onset

Abstract

Background Single nucleotide polymorphisms (SNPs) in the alpha-synuclein (SNCA) gene are associated with differential risk and age at onset (AAO) of both idiopathic and Leucine-rich repeat kinase 2 (LRRK2)-associated Parkinson's disease (PD). Yet potential combinatory or synergistic effects among several modulatory SNPs for PD risk or AAO remain largely underexplored. Objectives The mechanistic target of rapamycin (mTOR) signaling pathway is functionally impaired in PD. Here we explored whether SNPs in the mTOR pathway, alone or by epistatic interaction with known susceptibility factors, can modulate PD risk and AAO. Methods Based on functional relevance, we selected a total of 64 SNPs mapping to a total of 57 genes from the mTOR pathway and genotyped a discovery series cohort encompassing 898 PD patients and 921 controls. As a replication series, we screened 4170 PD and 3014 controls available from the International Parkinson's Disease Genomics Consortium. Results In the discovery series cohort, we found a 4-loci interaction involving STK11 rs8111699, FCHSD1 rs456998, GSK3B rs1732170, and SNCA rs356219, which was associated with an increased risk of PD (odds ratio = 2.59, P < .001). In addition, we also found a 3-loci epistatic combination of RPTOR rs11868112 and RPS6KA2 rs6456121 with SNCA rs356219, which was associated (odds ratio = 2.89; P < .0001) with differential AAO. The latter was further validated (odds ratio = 1.56; P = 0.046-0.047) in the International Parkinson's Disease Genomics Consortium cohort. Conclusions These findings indicate that genetic variability in the mTOR pathway contributes to SNCA effects in a nonlinear epistatic manner to modulate differential AAO in PD, unraveling the contribution of this cascade in the pathogenesis of the disease. (c) 2019 International Parkinson and Movement Disorder Society

Published

2019

34. Moving beyond neurons : the role of cell type-specific gene regulation in Parkinson's disease heritability

Author

Reynolds, R. H., Botía, J., Nalls, M. A., Noyce, A. J., Nicolas, A., Cookson, M. R., Bandres-Ciga, S., Gibbs, J. R., Hernandez, D. G., Singleton, A. B., Reed, X., Leonard, H., Blauwendraat, Cornelis, Faghri, F., Bras, J., Guerreiro, Rita, Tucci, A., Kia, Demis A, Houlden, Henry, Plun-Favreau, H., Mok, K. Y., Wood, N. W., Lovering, R., R'Bibo, L., Rizig, M., Chelban, Viorica, Trabzuni, D., Tan, M., Morris, H. R., Middlehurst, B., Quinn, J., Billingsley, K., Holmans, Peter, Kinghorn, K. J., Lewis, P., Escott-Price, Valentina, Williams, N., Foltynie, T., Brice, Alexis, Danjou, F., Lesage, S., Corvol, Jean-Christophe, Martinez, M., Giri, A., Schulte, C., Brockmann, K., Simón-Sánchez, J., Heutink, Peter, Gasser, Thomas, Rizzu, P., Sharma, M., Shulman, J. M., Robak, L., Lubbe, S., Mencacci, N. E., Finkbeiner, S., Lungu, C., Scholz, S. W., Gan-Or, Z., Rouleau, G. A., Krohan, L., van Hilten, J. J., Marinus, J., Adarmes-Gómez, A.D, Bernal-Bernal, I., Bonilla-Toribio, Marta, Buiza-Rueda, Dolores, Carrillo, F., Carrión-Claro, M., Mir, P., Gómez-Garre, P., Jesús, S., Labrador-Espinosa, Miguel A, Macías-García, Daniel, Vargas-González, L., Méndez-del-Barrio, C., Periñán-Tocino, T., Tejera-Parrado, C., Diez-Fairen, Monica., Aguilar Barberà, Miquel, Alvarez, Ignacio, Boungiorno, M. T., Carcel, M., Pastor, Pau, Tartari, J. P., Alvarez, V., González, M. M., Blázquez Estrada, Marta, Garcia, C.., Suarez-Sanmartin, E., Barrero, F. J., Rezola, E. M., Yarza, J. A. B., Pagola, A. G., de Munain Arregui, A. L., Ruiz-Martínez, J., Cerdan, Debora, Duarte, J., Clarimón, Jordi, Dols Icardo, Oriol, Infante, J., Marín, J., Kulisevsky, Jaime, Pagonabarraga Mora, Javier, Gonzalez-Aramburu, Isabel, Rodriguez, A. S., Sierra, M., Duran, Raquel, Ruz, C., Vives, F., Escamilla-Sevilla, F., Mínguez, A., Cámara, Ana, Compta, Yaroslau, Ezquerra, M., Marti, M. J., Fernández, M., Muñoz García, José Esteban, Fernández Santiago, Rubén, Tolosa, E., Valldeoriola, F., García-Ruiz, P., Heredia, M. J. G., Errazquin, F. P., Hoenicka, J., Jimenez-Escrig, A., Martínez-Castrillo, J. C., Lopez-Sendon, J. L., Torres, I. M., Tabernero, C., Vela, Lydia, Zimprich, Alexander, Pihlstrom, L., Koks, S., Taba, P., Majamaa, K., Siitonen, A., Okubadejo, N. U., Ojo, O. O., Pitcher, T., Anderson, T., Bentley, S., Fowdar, J., Mellick, G., Dalrymple-Alford, J., Henders, Anjali K, Kassam, I., Montgomery, G., Sidorenko, J., Zhang, F., Xue, A., Vallerga, C. L., Wallace, Leanne, Wray, N. R., Yang, J., Visscher, P. M., Gratten, J., Silburn, P. A., Halliday, G., Hickie, Ian B, Kwok, J., Lewis, S., Kennedy, M., Pearson, J., Hardy, J., Gagliano Taliun, S. A., Ryten, Mina, and Universitat Autònoma de Barcelona

Abstract

Parkinson's disease (PD), with its characteristic loss of nigrostriatal dopaminergic neurons and deposition of α-synuclein in neurons, is often considered a neuronal disorder. However, in recent years substantial evidence has emerged to implicate glial cell types, such as astrocytes and microglia. In this study, we used stratified LD score regression and expression-weighted cell-type enrichment together with several brain-related and cell-type-specific genomic annotations to connect human genomic PD findings to specific brain cell types. We found that PD heritability attributable to common variation does not enrich in global and regional brain annotations or brain-related cell-type-specific annotations. Likewise, we found no enrichment of PD susceptibility genes in brain-related cell types. In contrast, we demonstrated a significant enrichment of PD heritability in a curated lysosomal gene set highly expressed in astrocytic, microglial, and oligodendrocyte subtypes, and in LoF-intolerant genes, which were found highly expressed in almost all tested cellular subtypes. Our results suggest that PD risk loci do not lie in specific cell types or individual brain regions, but rather in global cellular processes detectable across several cell types.

Published

2019

35. C957T DRD2 polymorphism is associated with schizophrenia in Spanish patients

Author

Hoenicka, J., Aragüés, M., Rodríguez-Jiménez, R., Ponce, G., Martínez, I., Rubio, G., Jiménez-Arriero, M. A., and Palomo, T.

Published

2006

36. CLINICAL PREDICTORS OF RESPONSE TO NALTREXONE IN ALCOHOLIC PATIENTS: WHO BENEFITS MOST FROM TREATMENT WITH NALTREXONE?

Author

Rubio, G., Ponce, G., Rodriguez-Jiménez, R., Jiménez-Arriero, M. A., Hoenicka, J., and Palomo, T.

Published

2005

37. Moving beyond neurons:the role of cell type-specific gene regulation in Parkinson’s disease heritability

Author

Reynolds, R. H. (Regina H.), Botia, J. (Juan), Nalls, M. A. (Mike A.), Hardy, J. (John), Taliun, S. A. (Sarah A. Gagliano), Ryten, M. (Mina), Noyce, A. J. (Alastair J.), Nicolas, A. (Aude), Cookson, M. R. (Mark R.), Bandres-Ciga, S. (Sara), Gibbs, J. R. (J. Raphael), Hernandez, D. G. (Dena G.), Singleton, A. B. (Andrew B.), Reed, X. (Xylena), Leonard, H. (Hampton), Blauwendraat, C. (Cornelis), Faghri, F. (Faraz), Bras, J. (Jose), Guerreiro, R. (Rita), Tucci, A. (Arianna), Kia, D. A. (Demis A.), Houlden, H. (Henry), Plun-Favreau, H. (Helene), Mok, K. Y. (Kin Y.), Wood, N. W. (Nicholas W.), Lovering, R. (Ruth), R'Bibo, L. (Lea), Rizig, M. (Mie), Chelban, V. (Viorica), Trabzuni, D. (Daniah), Tan, M. (Manuela), Morris, H. R. (Huw R.), Middlehurst, B. (Ben), Quinn, J. (John), Billingsley, K. (Kimberley), Holmans, P. (Peter), Kinghorn, K. J. (Kerri J.), Lewis, P. (Patrick), Escott-Price, V. (Valentina), Williams, N. (Nigel), Foltynie, T. (Thomas), Brice, A. (Alexis), Danjou, F. (Fabrice), Lesage, S. (Suzanne), Corvol, J.-C. (Jean-Christophe), Martinez, M. (Maria), Giri, A. (Anamika), Schulte, C. (Claudia), Brockmann, K. (Kathrin), Simon-Sanchez, J. (Javier), Heutink, P. (Peter), Gasser, T. (Thomas), Rizzu, P. (Patrizia), Sharma, M. (Manu), Shulman, J. M. (Joshua M.), Robak, L. (Laurie), Lubbe, S. (Steven), Mencacci, N. E. (Niccolo E.), Finkbeiner, S. (Steven), Lungu, C. (Codrin), Scholz, S. W. (Sonja W.), Gan-Or, Z. (Ziv), Rouleau, G. A. (Guy A.), Krohan, L. (Lynne), van Hilten, J. J. (Jacobus J.), Marinus, J. (Johan), Adarmes-Gomez, A. D. (Astrid D.), Bernal-Bernal, I. (Inmaculada), Bonilla-Toribio, M. (Marta), Buiza-Rueda, D. (Dolores), Carrillo, F. (Fatima), Carrion-Claro, M. (Mario), Mir, P. (Pablo), Gomez-Garre, P. (Pilar), Jesus, S. (Silvia), Labrador-Espinosa, M. A. (Miguel A.), Macias, D. (Daniel), Vargas-Gonzalez, L. (Laura), Mendez-del-Barrio, C. (Carlota), Perinan-Tocino, T. (Teresa), Tejera-Parrado, C. (Cristina), Diez-Fairen, M. (Monica), Aguilar, M. (Miquel), Alvarez, I. (Ignacio), Teresa Boungiorno, M. (Mara), Carcel, M. (Maria), Pastor, P. (Pau), Pablo Tartari, J. (Juan), Alvarez, V. (Victoria), Menendez Gonzalez, M. (Manuel), Blazquez, M. (Marta), Garcia, C. (Ciara), Suarez-Sanmartin, E. (Esther), Javier Barrero, F. (Francisco), Mondragon Rezola, E. (Elisabet), Bergareche Yarza, J. A. (Jesus Alberto), Gorostidi Pagola, A. (Ana), de Munain Arregui, A. L. (Adolfo Lopez), Ruiz-Martinez, J. (Javier), Cerdan, D. (Debora), Duarte, J. (Jacinto), Clarimon, J. (Jordi), Dols-Icardo, O. (Oriol), Infante, J. (Jon), Marin, J. (Juan), Kulisevsky, J. (Jaime), Pagonabarraga, J. (Javier), Gonzalez-Aramburu, I. (Isabel), Sanchez Rodriguez, A. (Antonio), Sierra, M. (Mara), Duran, R. (Raquel), Ruz, C. (Clara), Vives, F. (Francisco), Escamilla-Sevilla, F. (Francisco), Minguez, A. (Adolfo), Camara, A. (Ana), Compta, Y. (Yaroslau), Ezquerra, M. (Mario), Jose Marti, M. (Maria), Fernandez, M. (Manel), Munoz, E. (Esteban), Fernandez-Santiago, R. (Ruben), Tolosa, E. (Eduard), Valldeoriola, F. (Francesc), Garcia-Ruiz, P. (Pedro), Gomez Heredia, M. J. (Maria Jose), Perez Errazquin, F. (Francisco), Hoenicka, J. (Janet), Jimenez-Escrig, A. (Adriano), Carlos Martinez-Castrillo, J. (Juan), Luis Lopez-Sendon, J. (Jose), Martinez Torres, I. (Irene), Tabernero, C. (Cesar), Vela, L. (Lydia), Zimprich, A. (Alexander), Pihlstrom, L. (Lasse), Koks, S. (Sulev), Taba, P. (Pille), Majamaa, K. (Kari), Siitonen, A. (Ari), Okubadejo, N. U. (Njideka U.), Ojo, O. O. (Oluwadamilola O.), Pitcher, T. (Toni), Anderson, T. (Tim), Bentley, S. (Steven), Fowdar, J. (Javed), Mellick, G. (George), Dalrymple-Alford, J. (John), Henders, A. K. (Anjali K.), Kassam, I. (Irfahan), Montgomery, G. (Grant), Sidorenko, J. (Julia), Zhang, F. (Futao), Xue, A. (Angli), Vallerga, C. L. (Costanza L.), Wallace, L. (Leanne), Wray, N. R. (Naomi R.), Yang, J. (Jian), Visscher, P. M. (Peter M.), Gratten, J. (Jacob), Silburn, P. A. (Peter A.), Halliday, G. (Glenda), Hickie, I. (Ian), Kwok, J. (John), Lewis, S. (Simon), Kennedy, M. (Martin), Pearson, J. (John), Reynolds, R. H. (Regina H.), Botia, J. (Juan), Nalls, M. A. (Mike A.), Hardy, J. (John), Taliun, S. A. (Sarah A. Gagliano), Ryten, M. (Mina), Noyce, A. J. (Alastair J.), Nicolas, A. (Aude), Cookson, M. R. (Mark R.), Bandres-Ciga, S. (Sara), Gibbs, J. R. (J. Raphael), Hernandez, D. G. (Dena G.), Singleton, A. B. (Andrew B.), Reed, X. (Xylena), Leonard, H. (Hampton), Blauwendraat, C. (Cornelis), Faghri, F. (Faraz), Bras, J. (Jose), Guerreiro, R. (Rita), Tucci, A. (Arianna), Kia, D. A. (Demis A.), Houlden, H. (Henry), Plun-Favreau, H. (Helene), Mok, K. Y. (Kin Y.), Wood, N. W. (Nicholas W.), Lovering, R. (Ruth), R'Bibo, L. (Lea), Rizig, M. (Mie), Chelban, V. (Viorica), Trabzuni, D. (Daniah), Tan, M. (Manuela), Morris, H. R. (Huw R.), Middlehurst, B. (Ben), Quinn, J. (John), Billingsley, K. (Kimberley), Holmans, P. (Peter), Kinghorn, K. J. (Kerri J.), Lewis, P. (Patrick), Escott-Price, V. (Valentina), Williams, N. (Nigel), Foltynie, T. (Thomas), Brice, A. (Alexis), Danjou, F. (Fabrice), Lesage, S. (Suzanne), Corvol, J.-C. (Jean-Christophe), Martinez, M. (Maria), Giri, A. (Anamika), Schulte, C. (Claudia), Brockmann, K. (Kathrin), Simon-Sanchez, J. (Javier), Heutink, P. (Peter), Gasser, T. (Thomas), Rizzu, P. (Patrizia), Sharma, M. (Manu), Shulman, J. M. (Joshua M.), Robak, L. (Laurie), Lubbe, S. (Steven), Mencacci, N. E. (Niccolo E.), Finkbeiner, S. (Steven), Lungu, C. (Codrin), Scholz, S. W. (Sonja W.), Gan-Or, Z. (Ziv), Rouleau, G. A. (Guy A.), Krohan, L. (Lynne), van Hilten, J. J. (Jacobus J.), Marinus, J. (Johan), Adarmes-Gomez, A. D. (Astrid D.), Bernal-Bernal, I. (Inmaculada), Bonilla-Toribio, M. (Marta), Buiza-Rueda, D. (Dolores), Carrillo, F. (Fatima), Carrion-Claro, M. (Mario), Mir, P. (Pablo), Gomez-Garre, P. (Pilar), Jesus, S. (Silvia), Labrador-Espinosa, M. A. (Miguel A.), Macias, D. (Daniel), Vargas-Gonzalez, L. (Laura), Mendez-del-Barrio, C. (Carlota), Perinan-Tocino, T. (Teresa), Tejera-Parrado, C. (Cristina), Diez-Fairen, M. (Monica), Aguilar, M. (Miquel), Alvarez, I. (Ignacio), Teresa Boungiorno, M. (Mara), Carcel, M. (Maria), Pastor, P. (Pau), Pablo Tartari, J. (Juan), Alvarez, V. (Victoria), Menendez Gonzalez, M. (Manuel), Blazquez, M. (Marta), Garcia, C. (Ciara), Suarez-Sanmartin, E. (Esther), Javier Barrero, F. (Francisco), Mondragon Rezola, E. (Elisabet), Bergareche Yarza, J. A. (Jesus Alberto), Gorostidi Pagola, A. (Ana), de Munain Arregui, A. L. (Adolfo Lopez), Ruiz-Martinez, J. (Javier), Cerdan, D. (Debora), Duarte, J. (Jacinto), Clarimon, J. (Jordi), Dols-Icardo, O. (Oriol), Infante, J. (Jon), Marin, J. (Juan), Kulisevsky, J. (Jaime), Pagonabarraga, J. (Javier), Gonzalez-Aramburu, I. (Isabel), Sanchez Rodriguez, A. (Antonio), Sierra, M. (Mara), Duran, R. (Raquel), Ruz, C. (Clara), Vives, F. (Francisco), Escamilla-Sevilla, F. (Francisco), Minguez, A. (Adolfo), Camara, A. (Ana), Compta, Y. (Yaroslau), Ezquerra, M. (Mario), Jose Marti, M. (Maria), Fernandez, M. (Manel), Munoz, E. (Esteban), Fernandez-Santiago, R. (Ruben), Tolosa, E. (Eduard), Valldeoriola, F. (Francesc), Garcia-Ruiz, P. (Pedro), Gomez Heredia, M. J. (Maria Jose), Perez Errazquin, F. (Francisco), Hoenicka, J. (Janet), Jimenez-Escrig, A. (Adriano), Carlos Martinez-Castrillo, J. (Juan), Luis Lopez-Sendon, J. (Jose), Martinez Torres, I. (Irene), Tabernero, C. (Cesar), Vela, L. (Lydia), Zimprich, A. (Alexander), Pihlstrom, L. (Lasse), Koks, S. (Sulev), Taba, P. (Pille), Majamaa, K. (Kari), Siitonen, A. (Ari), Okubadejo, N. U. (Njideka U.), Ojo, O. O. (Oluwadamilola O.), Pitcher, T. (Toni), Anderson, T. (Tim), Bentley, S. (Steven), Fowdar, J. (Javed), Mellick, G. (George), Dalrymple-Alford, J. (John), Henders, A. K. (Anjali K.), Kassam, I. (Irfahan), Montgomery, G. (Grant), Sidorenko, J. (Julia), Zhang, F. (Futao), Xue, A. (Angli), Vallerga, C. L. (Costanza L.), Wallace, L. (Leanne), Wray, N. R. (Naomi R.), Yang, J. (Jian), Visscher, P. M. (Peter M.), Gratten, J. (Jacob), Silburn, P. A. (Peter A.), Halliday, G. (Glenda), Hickie, I. (Ian), Kwok, J. (John), Lewis, S. (Simon), Kennedy, M. (Martin), and Pearson, J. (John)

Abstract

Parkinson’s disease (PD), with its characteristic loss of nigrostriatal dopaminergic neurons and deposition of α-synuclein in neurons, is often considered a neuronal disorder. However, in recent years substantial evidence has emerged to implicate glial cell types, such as astrocytes and microglia. In this study, we used stratified LD score regression and expression-weighted cell-type enrichment together with several brain-related and cell-type-specific genomic annotations to connect human genomic PD findings to specific brain cell types. We found that PD heritability attributable to common variation does not enrich in global and regional brain annotations or brain-related cell-type-specific annotations. Likewise, we found no enrichment of PD susceptibility genes in brain-related cell types. In contrast, we demonstrated a significant enrichment of PD heritability in a curated lysosomal gene set highly expressed in astrocytic, microglial, and oligodendrocyte subtypes, and in LoF-intolerant genes, which were found highly expressed in almost all tested cellular subtypes. Our results suggest that PD risk loci do not lie in specific cell types or individual brain regions, but rather in global cellular processes detectable across several cell types.

Published

2019

38. Unique origin and low penetrance of the 946delGAG mutation in Valencian DYT1 families

Author

Carmona, J, Burguera, J A, Mollà, B, Mulas, F, Smeyers, P, Carratalà, F, de Yebenes, J G, Hoenicka, J, and Palau, F

Published

2003

39. Association between cannabinoid receptor gene (CNR1) and childhood attention deficit/hyperactivity disorder in Spanish male alcoholic patients

Author

Ponce, G, Hoenicka, J, Rubio, G, Ampuero, I, Jiménez-Arriero, M A, Rodríguez-Jiménez, R, Palomo, T., and Ramos, J A

Published

2003

40. The complete DNA sequence of yeast chromosome III

Author

Oliver, S.G., van der Aart, Q.J.M., Agostoni-Carbone, M.L., Aigle, M., Alberghina, L., Alexandraki, D., Antoine, G., Anwar, R., Ballesta, J.P.G., Benit, P., Berben, G., Bergantino, E., Biteau, N., Bolle, P.A., Bolotin-Fukuhara, M., Brown, A., Brown, A.J.P., Buhler, J.M., Carcano, C., Carignani, G., Cederberg, H., Chanet, R., Contreras, R., Crouzet, M., Daignan-Fornier, B., Defoor, E., Delgado, M., Demolder, J., Doira, C., Dubois, E., Dujon, B., Dusterhoft, A., Erdmann, D., Esteban, M., Fabre, F., Fairhead, C., Faye, G., Feldmann, H., Fiers, W., Francingues-Gaillard, M.C., Franco, L., Frontali, L., Fukuhara, H., Fuller, L.J., Galland, P., Gent, M.E., Gigot, D., Gilliquet, V., Glansdorff, N., Goffeau, A., Grenson, M., Grisanti, P., Grivell, L.A., de Haan, M., Haasemann, M., Hatat, D., Hoenicka, J., Hegemann, J., Herbert, C.J., Hilger, F., Hohmann, S., Hollenberg, C.P., Huse, K., Iborra, F., Indge, K.J., Isono, K., Jacq, C., Jacquet, M., James, C.M., Jauniaux, J.C., Jia, Y., Jimenez, A., Kelly, A., Kleinhans, U., Kreisl, P., Lanfranchi, G., Lewis, C., van der Linden, C.G., Lucchini, G., Lutzenkirchen, K., Maat, M.J., Mallet, L., Mannhaupt, G., Martegani, E., Mathieu, A., Maurer, C.T.C., McConnell, D., McKee, R.A., Messenguy, F., Mewes, H.W., Molemans, F., Montague, M.A., Muzi Falconi, M., Navas, L., Newlon, C.S., Noone, D., Pallier, C., Panzeri, L., Pearson, B.M., Perea, J., Philippsen, P., Pierard, A., Planta, R.J., Plevani, P., Poetsch, B., Pohl, F., Purnelle, B., Ramezani Rad, M., Rasmussen, S.W., Raynal, A., Remacha, M., Richterich, P., Roberts, A.B., Rodriguez, F., Sanz, E., Schaaff-Gerstenschlager, I., Scherens, B., Schweitzer, B., Shu, Y., Skala, J., Slonimski, P.P., Sor, F., Soustelle, C., Spiegelberg, R., Stateva, L.I., Steensma, H.Y., Steiner, S., Thierry, A., Thireos, G., Tzermia, M., Urrestarazu, L.A., Valle, G., Vetter, I., van Vliet-Reedijk, J.C., Voet, M., Volckaert, G., Vreken, P., Wang, H., Warmington, J.R., von Wettstein, D., Wicksteed, B.L., Wilson, C., Wurst, H., Xu, G., Yoshikawa, A., Zimmermann, F.K., and Sgouros, J.G.

Subjects

Saccharomyces -- Genetic aspects, Nucleotide sequence -- Research, Plant chromosomes -- Research, Genomes -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Published

1992

41. Aspectos genéticos del alcoholismo

Author

Hoenicka, J., Ampuero, I., and Ramos atance, J.A.

Published

2003

42. The A1 allele of the DRD2 gene (TaqI A polymorphisms) is associated with antisocial personality in a sample of alcohol-dependent patients

Author

Ponce, G, Jimenez-Arriero, M.A, Rubio, G, Hoenicka, J, Ampuero, I, Ramos, J.A, and Palomo, T

Published

2003

43. An unusual late-onset case of propionic acidaemia: biochemical investigations, neuroradiological findings and mutation analysis

Author

Pérez-Cerdá, C., Merinero, B., Martí, M., Cabrera, J. C., Peña, L., García, M. J., Gangoiti, J., Sanz, P., Rodríguez-Pombo, P., Hoenicka, J., Richard, E., Muro, S., and Ugarte, M.

Published

1998

44. Correction: ANKK1 is found in myogenic precursors and muscle fibers subtypes with glycolytic metabolism

Author

Rubio-Solsona E, Martí S, Vílchez JJ, Palau F, and Hoenicka J

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0197254.].

Published

2018

45. LIPID MYOPATHIES

Author

Natera-de Benito, D., primary, Carrera, L., additional, Ortez, C., additional, Juliá, N., additional, O´Callaghan, M., additional, Delgadillo, V., additional, Eiris, J., additional, Garcia, A., additional, Jou, C., additional, Jiemenez-Mallebrera, C., additional, Codina, A., additional, Pijuan, J., additional, Colomer, J., additional, Martorell, L., additional, Exposito, J., additional, Yubero, D., additional, Hoenicka, J., additional, Arjona, C., additional, Palau, F., additional, and Nascimento, A., additional

Published

2019

46. MITOCHONDRIAL DISEASES: EP.214 Early onset hereditary neuropathies related to mitochondrial dynamics in pediatric patients

Author

Carrera, L., Cantarero, L., Nolasco, G., Pijuan, J., Natera, D., Estevez, B., Expósito, J., Colomer, J., Ortez, C., Palau, F., Hoenicka, J., and Nascimento, A.

Published

2021

47. The new mutation, E46K, of alpha-synuclein causes Parkinson and Lewy body dementia

Author

Zarranz, JJ, Alegre, J, Gómez-Esteban, JC, Lezcano, E, Ros, R, Ampuero, I, Vidal, L, Hoenicka, J, Rodriguez, O, Atarés, B, Llorens, V, Gomez Tortosa, E, del Ser, T, Muñoz, DG, and de Yebenes, JG

Subjects

nervous system

Abstract

Familial parkinsonism and dementia with cortical and subcortical Lewy bodies is uncommon, and no genetic defect has been reported in the previously described sibships. We present a Spanish family with autosomal dominant parkinsonism, dementia, and visual hallucinations of variable severity. The postmortem examination showed atrophy of the substantia nigra, lack of Alzheimer pathology, and numerous Lewy bodies which were immunoreactive to alpha-synuclein and ubiquitin in cortical and subcortical areas. Sequencing of the alpha-synuclein gene showed a novel, nonconservative E46K mutation in heterozygosis. The E46K mutation was present in all affected family members and in three young asymptomatic subjects, but it was absent in healthy and pathological controls. The novel mutation, that substitutes a dicarboxylic amino acid, glutamic acid, with a basic amino acid such as lysine in a much conserved area of the protein, is likely to produce severe disturbance of protein function. Our data show that, in addition to the previously described hereditary alpha-synucleinopathies, dementia with Lewy bodies is related to mutation of alpha-synuclein.

Published

2016

48. The Addiction-Related Gene Ankk1 is Oppositely Regulated by D1R- and D2R-Like Dopamine Receptors

Author

Ponce G, Quiñones-Lombraña A, Martín-Palanco NG, Rubio-Solsona E, Jiménez-Arriero MÁ, Palomo T, and Hoenicka J

Subjects

Drd3, Ankk1/Drd2, Drd1, Addiction, TaqIA

Abstract

The ankyrin repeat and kinase domain containing 1 (ANKK1) TaqIA polymorphism has been extensively studied as a marker of the gene for dopamine receptor D2 (DRD2) in addictions and other dopamine-associated traits. In vitro mRNA and protein studies have shown a potential connection between ANKK1 and the dopaminergic system functioning. Here, we have investigated whether Ankk1 expression in the brain is regulated by treatment with dopaminergic agonists. We used quantitative RT-PCR of total brain and Western blots of specific brain areas to study Ankk1 in murine brain after dopaminergic treatments. We found that Ankk1 mRNA was upregulated after activation of D1R-like dopamine receptors with SKF38393 (2.660 ± 1.035-fold; t: 4.066, df: 11, P = 0.002) and apomorphine (2.043 ± 0.595-fold; t: 3.782, df: 8, P = 0.005). The D2R-like agonist quinelorane has no effect upon Ankk1 mRNA (1.004 ± 0.580-fold; t: 0.015, df: 10, P = 0.9885). In contrast, mice treatment with the D2R-like agonists 7-OH-DPAT and aripiprazole caused a significant Ankk1 mRNA downregulation (0.606 ± 0.057-fold; t: 2.786, df: 10, P = 0.02 and 0.588 ± 0.130-fold; t: 2.394, df: 11, P = 0.036, respectively). With respect the Ankk1 proteins profile, no effects were found after SKF38393 (t: 0.54, df: 2, P = 0.643) and Quinelorane (t: 0.286, df: 8, P = 0.782) treatments. In contrast, the D2R-like agonist 7-OH-DPAT (±) caused a significant increment of Ankk1 in the striatum (t: 2.718, df: 7; P = 0.03) when compared to the prefrontal cortex. The activation of D1R-like and D2-R-like leads to opposite transcriptional regulation of Ankk1 by specific pathways.

Published

2016

49. Motion estimation of subcellular structures from fluorescence microscopy images

Author

Vallmitjana, A., primary, Civera-Tregon, A., additional, Hoenicka, J., additional, Palau, F., additional, and Benitez, R., additional

Published

2017

50. The Yeast Genome Directory

Author

Goffeau, A., Aert, R., Agostini-Carbone, M. L., Ahmed, A., Aigle, M., Alberghina, L., Albermann, K., Albers, M., Aldea, M., Alexandraki, D., Aljinovic, G., Allen, E., Alt-Mörbe, J., André, B., Andrews, S., Ansorge, W., Antoine, G., Anwar, R., Aparicio, A., Araujo, R., Arino, J., Arnold, F., Arroyo, J., Aviles, E., Backes, U., Baclet, M. C., Badcock, K., Bahr, A., Baladron, V., Ballesta, J. P. G., Bankier, A. T., Banrevi, A., Bargues, M., Baron, L., Barreiros, T., Barrell, B. G., Barthe, C., Barton, A. B., Baur, A., Bécam, A.-M., Becker, A., Becker, I., Beinhauer, J., Benes, V., Benit, P., Berben, G., Bergantino, E., Bergez, P., Berno, A., Bertani, I., Biteau, N., Bjourson, A. J., Blöcker, H., Blugeon, C., Bohn, C., Boles, E., Bolle, P. A., Bolotin-Fukuhara, M., Bordonné, R., Boskovic, J., Bossier, P., Botstein, D., Bou, G., Bowman, S., Boyer, J., Brandt, P., Brandt, T., Brendel, M., Brennan, T., Brinkman, R., Brown, A., Brown, A. J. P., Brown, D., Brückner, M., Bruschi, C. V., Buhler, J. M., Buitrago, M. J., Bussereau, F., Bussey, H., Camasses, A., Carcano, C., Carignani, G., Carpenter, J., Casamayor, A., Casas, C., Castagnoli, L., Cederberg, H., Cerdan, E., Chalwatzis, N., Chanet, R., Chen, E., Chéret, G., Cherry, J. M., Chillingworth, T., Christiansen, C., Chuat, J.-C., Chung, E., Churcher, C., Churcher, C. M., Clark, M. W., Clemente, M. L., Coblenz, A., Coglievina, M., Coissac, E., Colleaux, L., Connor, R., Contreras, R., Cooper, J., Copsey, T., Coster, F., Coster, R., Couch, J., Crouzet, M., Cziepluch, C., Daignan-Fornier, B., Dal Paro, F., Dang, D. V., D’Angelo, M., Davies, C. J., Davis, K., Davis, R. W., De Antoni, A., Dear, S., Dedman, K., Defoor, E., De Haan, M., Delaveau, Th., Del Bino, S., Delgado, M., Delius, H., Delneri, D., Del Rey, F., Demolder, J., Démolis, N., Devlin, K., de Wergifosse, P., Dietrich, F. S., Ding, H., Dion, C., Dipaolo, T., Doignon, F., Doira, C., Domdey, H., Dover, J., Du, Z., Dubois, E., Dujon, B., Duncan, M., Durand, P., Düsterhöft, A., Düsterhus, S., Eki, T., El Bakkoury, M., Eide, L. G., Entian, K.-D., Eraso, P., Erdmann, D., Erfle, H., Escribano, V., Esteban, M., Fabiani, L., Fabre, F., Fairhead, C., Fartmann, B., Favello, A., Faye, G., Feldmann, H., Fernandes, L., Feroli, F., Feuermann, M., Fiedler, T., Fiers, W., Fleig, U. N., Flöth, M., Fobo, G. M., Fortin, N., Foury, F., Francingues-Gaillard, M. C., Franco, L., Fraser, A., Friesen, J.D., Fritz, C., Frontali, L., Fukuhara, H., Fulton, L., Fuller, L. J., Gabel, C., Gaillardin, C., Gaillon, L., Galibert, F., Galisson, F., Galland, P., Gamo, F.-J., Gancedo, C., Garcia-Cantalejo, J. M., García-Gonzalez, M. I., Garcia-Ramirez, J. J., García-Saéz, M., Gassenhuber, H., Gatius, M., Gattung, S., Geisel, C., Gent, M. E., Gentles, S., Ghazvini, M., Gigot, D., Gilliquet, V., Glansdorff, N., Gómez-Peris, A., Gonzaléz, A., Goulding, S. E., Granotier, C., Greco, T., Grenson, M., Grisanti, P., Grivell, L. A., Grothues, D., Gueldener, U., Guerreiro, P., Guzman, E., Haasemann, M., Habbig, B., Hagiwara, H., Hall, J., Hallsworth, K., Hamlin, N., Hand, N. J., Hanemann, V., Hani, J., Hankeln, T., Hansen, M., Harris, D., Harris, D. E., Hartzell, G., Hatat, D., Hattenhorst, U., Hawkins, J., Hebling, U., Hegemann, J., Hein, C., Hennemann, A., Hennessy, K., Herbert, C. J., Hernandez, K., Hernando, Y., Herrero, E., Heumann, K., Heuss- Neitzel, D., Hewitt, N., Hiesel, R., Hilbert, H., Hilger, F., Hillier, L., Ho, C., Hoenicka, J., Hofmann, B., Hoheisel, J., Hohmann, S., Hollenberg, C. P., Holmstrøm, K., Horaitis, O., Horsnell, T. S., Huang, M.-E., Hughes, B., Hunicke-Smith, S., Hunt, S., Hunt, S. E., Huse, K., Hyman, R. W., Iborra, F., Indge, K. J., Iraqui Houssaini, I., Isono, K., Jacq, C., Jacquet, M., Jacquier, A., Jagels, K., Jäger, W., James, C. M., Jauniaux, J. C., Jia, Y., Jier, M., Jimenez, A., Johnson, D., Johnston, L., Johnston, M., Jones, M., Jonniaux, J.-L., Kaback, D. B., Kallesøe, T., Kalman, S., Kalogeropoulos, A., Karpfinger-Hartl, L., Kashkari, D., Katsoulou, C., Kayser, A., Kelly, A., Keng, T., Keuchel, H., Kiesau, P., Kirchrath, L., Kirsten, J., Kleine, K., Kleinhans, U., Klima, R., Komp, C., Kordes, E., Korol, S., Kötter, P., Krämer, C., Kramer, B., Kreisl, P., Kucaba, T., Kuester, H., Kurdi, O., Laamanen, P., Lafuente, M. J., Landt, O., Lanfranchi, G., Langston, Y., Lashkari, D., Latreille, P., Lauquin, G., Le, T., Legrain, P., Legros, Y., Lepingle, A., Lesveque, H., Leuther, H., Lew, H., Lewis, C., Li, Z. Y., Liebl, S., Lin, A., Lin, D., Logghe, M., Lohan, A. J. E., Louis, E. J., Lucchini, G., Lutzenkirchen, K., Lyck, R., Lye, G., Maarse, A. C., Maat, M. J., Macri, C., Madania, A., Maftahi, M., Maia e Silva, A., Maillier, E., Mallet, L., Mannhaupt, G., Manus, V., Marathe, R., Marck, C., Marconi, A., Mardis, E., Martegani, E., Martin, R., Mathieu, A., Maurer, C. T. C., Mazón, M. J., Mazzoni, C., McConnell, D., McDonald, S., McKee, R. A., McReynolds, A. D. K., Melchioretto, P., Menezes, S., Messenguy, F., Mewes, H. W., Michaux, G., Miller, N., Minenkova, O., Miosga, T., Mirtipati, S., Möller-Rieker, S., Möstl, D., Molemans, F., Monnet, A., Monnier, A-L., Montague, M. A., Moro, M., Mosedale, D., Möstl, D., Moule, S., Mouser, L., Murakami, Y., Müller-Auer, S., Mulligan, J., Murphy, L., Muzi Falconi, M., Naitou, M., Nakahara, K., Namath, A., Nasr, F., Navas, L., Nawrocki, A., Nelson, J., Nentwich, U., Netter, P., Neu, R., Newlon, C. S., Nhan, M., Nicaud, J.-M., Niedenthal, R. K., Nombela, C., Noone, D., Norgren, R., Nußbaumer, B., Obermaier, B., Odell, C., Öfner, P., Oh, C., Oliver, K., Oliver, S. G., Ouellette, B. F., Ozawa, M., Paces, V., Pallier, C., Pandolfo, D., Panzeri, L., Paoluzi, S., Parle-Mcdermott, A. G., Pascolo, S., Patricio, N., Pauley, A., Paulin, L., Pearson, B. M., Pearson, D., Peluso, D., Perea, J., Pérez-Alonso, M., Pérez-Ortin, J. E., Perrin, A., Petel, F. X., Pettersson, B., Pfeiffer, F., Philippsen, P., Piérard, A., Piravandi, E., Planta, R. J., Plevani, P., Poch, O., Poetsch, B., Pohl, F. M., Pohl, T. M., Pöhlmann, R., Poirey, R., Portetelle, D., Portillo, F., Potier, S., Proft, M., Prydz, H., Pujol, A., Purnelle, B., Puzos, V., Rajandream, M. A., Ramezani Rad, M., Rasmussen, S. W., Raynal, A., Rechmann, S., Remacha, M., Revuelta, J. L., Rice, P., Richard, G-F., Richterich, P., Rieger, M., Rifken, L., Riles, L., Rinaldi, T., Rinke, M., Roberts, A. B., Roberts, D., Rodriguez, F., Rodriguez-Belmonte, E., Rodriguez-Pousada, C., Rodriguez-Torres, A. M., Rose, M., Rossau, R., Rowley, N., Rupp, T., Ruzzi, M., Saeger, W., Saiz, J. E., Saliola, M., Salom, D., Saluz, H. P., Sánchez-Perez, M., Santos, M. A., Sanz, E., Sanz, J. E., Saren, A.-M., Sartorello, F., Sasanuma, M., Sasanuma, S-I., Scarcez, T., Schaaf-Gerstenschläger, I., Schäfer, B., Schäfer, M., Scharfe, M., Scherens, B., Schroff, N., Sen-Gupta, M., Shibata, T., Schmidheini, T., Schmidt, E. R., Schneider, C., Scholler, P., Schramm, S., Schreer, A., Schröder, M., Schwager, C., Schwarz, S., Schwarzlose, C., Schweitzer, B., Schweizer, M., Sdicu, A-M., Sehl, P., Sensen, C., Sgouros, J. G., Shogren, T., Shore, L., Shu, Y., Skala, J., Skelton, J., Slonimski, P. P., Smit, P. H. M., Smith, V., Soares, H., Soeda, E., Soler-Mira, A., Sor, F., Soriano, N., Souciet, J. L., Soustelle, C., Spiegelberg, R., Stateva, L. I., Steensma, H. Y., Stegemann, J., Steiner, S., Stellyes, L., Sterky, F., Storms, R. K., St. Peter, H., Stucka, R., Taich, A., Talla, E., Tarassov, I., Tashiro, H., Taylor, P., Teodoru, C., Tettelin, H., Thierry, A., Thireos, G., Tobiasch, E., Tovan, D., Trevaskis, E., Tsuchiya, Y., Tzermia, M., Uhlen, M., Underwood, A., Unseld, M., Urbanus, J. H. M., Urrestarazu, A., Ushinsky, S., Valens, M., Valle, G., Van Broekhoven, A., Vandenbol, M., Van Der Aart, Q. J. M., Van Der Linden, C. G., Van Dyck, L., Vanoni, M., Van Vliet-Reedijk, J. C., Vassarotti, A., Vaudin, M., Vaughan, K., Verhasselt, P., Vetter, I., Vierendeels, F., Vignati, D., Vilela, C., Vissers, S., Vleck, C., Vo, D. T., Vo, D. H., Voet, M., Volckaert, G., Von Wettstein, D., Voss, H., Vreken, P., Wagner, G., Walsh, S. V., Wambutt, R., Wang, H., Wang, Y., Warmington, J. R., Waterston, R., Watson, M. D., Weber, N., Wedler, E., Wedler, H., Wei, Y., Whitehead, S., Wicksteed, B. L., Wiemann, S., Wilcox, L., Wilson, C., Wilson, R., Winant, A., Winnett, E., Winsor, B., Wipfli, P., Wölfl, S., Wohldman, P., Wolf, K., Wolfe, K. H., Wright, L. F., Wurst, H., Xu, G., Yamasaki, M., Yelton, M. A., Yokohama, K., Yoshikawa, A., Yuping, S., Zaccaria, P., Zagulski, M., Zimmermann, F. K., Zimmermann, J., Zimmermann, M., Zhong, W-W., Zollner, A., and Zumstein, E.

Published

1997