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2. The clinical and molecular spectrum of QRICH1 associated neurodevelopmental disorder

Author

Kumble, S, Levy, AM, Punetha, J, Gao, H, Ah Mew, N, Anyane-Yeboa, K, Benke, PJ, Berger, SM, Bjerglund, L, Campos-Xavier, B, Ciliberto, M, Cohen, JS, Comi, AM, Curry, C, Damaj, L, Denomme-Pichon, A-S, Emrick, L, Faivre, L, Fasano, MB, Fievet, A, Finkel, RS, Garcia-Minaur, S, Gerard, A, Gomez-Puertas, P, Guillen Sacoto, MJ, Hoffman, TL, Howard, L, Iglesias, AD, Izumi, K, Larson, A, Leiber, A, Lozano, R, Marcos-Alcalde, I, Mintz, CS, Mullegama, SV, Moller, RS, Odent, S, Oppermann, H, Ostergaard, E, Pacio-Miguez, M, Palomares-Bralo, M, Parikh, S, Paulson, AM, Platzer, K, Posey, JE, Potocki, L, Revah-Politi, A, Rio, M, Ritter, AL, Robinson, S, Rosenfeld, JA, Santos-Simarro, F, Sousa, SB, Weber, M, Xie, Y, Chung, WK, Brown, NJ, Tumer, Z, Kumble, S, Levy, AM, Punetha, J, Gao, H, Ah Mew, N, Anyane-Yeboa, K, Benke, PJ, Berger, SM, Bjerglund, L, Campos-Xavier, B, Ciliberto, M, Cohen, JS, Comi, AM, Curry, C, Damaj, L, Denomme-Pichon, A-S, Emrick, L, Faivre, L, Fasano, MB, Fievet, A, Finkel, RS, Garcia-Minaur, S, Gerard, A, Gomez-Puertas, P, Guillen Sacoto, MJ, Hoffman, TL, Howard, L, Iglesias, AD, Izumi, K, Larson, A, Leiber, A, Lozano, R, Marcos-Alcalde, I, Mintz, CS, Mullegama, SV, Moller, RS, Odent, S, Oppermann, H, Ostergaard, E, Pacio-Miguez, M, Palomares-Bralo, M, Parikh, S, Paulson, AM, Platzer, K, Posey, JE, Potocki, L, Revah-Politi, A, Rio, M, Ritter, AL, Robinson, S, Rosenfeld, JA, Santos-Simarro, F, Sousa, SB, Weber, M, Xie, Y, Chung, WK, Brown, NJ, and Tumer, Z

Abstract

De novo variants in QRICH1 (Glutamine-rich protein 1) has recently been reported in 11 individuals with intellectual disability (ID). The function of QRICH1 is largely unknown but it is likely to play a key role in the unfolded response of endoplasmic reticulum stress through transcriptional control of proteostasis. In this study, we present 27 additional individuals and delineate the clinical and molecular spectrum of the individuals (n = 38) with QRICH1 variants. The main clinical features were mild to moderate developmental delay/ID (71%), nonspecific facial dysmorphism (92%) and hypotonia (39%). Additional findings included poor weight gain (29%), short stature (29%), autism spectrum disorder (29%), seizures (24%) and scoliosis (18%). Minor structural brain abnormalities were reported in 52% of the individuals with brain imaging. Truncating or splice variants were found in 28 individuals and 10 had missense variants. Four variants were inherited from mildly affected parents. This study confirms that heterozygous QRICH1 variants cause a neurodevelopmental disorder including short stature and expands the phenotypic spectrum to include poor weight gain, scoliosis, hypotonia, minor structural brain anomalies, and seizures. Inherited variants from mildly affected parents are reported for the first time, suggesting variable expressivity.

Published
2022

3. Structural and functional insights into GSDMB isoforms complex roles in pathogenesis

Author

Colomo, Sara, Ros-Pardo, David, Oltra, Sara S, Gomez-Puertas, Paulino, Sarrio, David, and Moreno-Bueno, Gema

Abstract

ABSTRACT SHADSGasdermins (GSDMs) have garnered significant scientific interest due to their protective and detrimental roles in innate immunity, host defense, inflammation, and cancer alongside with other pathologies. While GSDMs are mostly recognized as key effectors of a lytic type of pro-inflammatory cell death known as pyroptosis, they do also take part in other cell death processes (NETosis, secondary necrosis, or apoptosis) and exhibit cell-death independent functions depending on the cellular context. Among GSDMs, Gasdermin B (GSDMB) pyroptotic capacity has been a subject of conflicting findings in scientific literature even when its processing, and subsequent activation, by Granzyme A (GZMA) was decoded. Nevertheless, recent groundbreaking publications have shed light on the crucial role of alternative splicing in determining the pyroptotic capacity of GSDMB isoforms, which depends on the presence of exon 6-derived elements. This comprehensive review pays attention to the relevant structural differences among recently crystalized GSDMB isoforms. As a novelty, the structural aspects governing GSDMB isoform susceptibility to GZMA-mediated activation have been investigated. By elucidating the complex roles of GSDMB isoforms, this review aims to deepen the understanding of this multifunctional player and its potential implications in disease pathogenesis and therapeutic interventions.

Published
2023
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6. Phenotypic and genotypic description of 44 patients with variants in DLG4 encoding the post-synaptic density protein PSD-95

Author

Rodriguez-Palmero Seuma, A., Boerrigter, M., Mandrile, G., Pelle, A., Giorgio, E., Lindstrand, A., Johansson, M., Kvarnung, M., Everman, D., Bahrambeigi, V., MacKenzie, A., Morton, J., Ruivenkamp, C., Challman, T., Hurst, A., Hoyer, J., Elmslie, F., Dye, T., Isidor, B., Haldeman-Englert, C., Gomez-Andres, D., Schluter, A., de Man, S., Shieh, J., Prada, C., Moutton, S., Denomme-Pichon, A., Motti, S., Bruel, A., Mau-Them, F. Tran, Reiter, S., van Ravenswaaij-Arts, C., Shaw-Smith, C., Parikh, S., Aldinger, K., Lovgren, A., Rauch, A., Ross, M., Gomez-Puertas, P., de Vries, B., Pujol, A., Tumer, Z., and Clinical Cognitive Neuropsychiatry Research Program (CCNP)

Published
2020

7. Developmental ORIgins of Healthy and Unhealthy AgeiNg: The Role of Maternal Obesity - Introduction to DORIAN

Author

Iozzo, P., Holmes, M., Schmidt, M., Cirulli, F., Guzzardi, M., Berry, A., Balsevich, G., Andreassi, M., Wesselink, J., Liistro, T., Gomez-Puertas, P., Eriksson, J., Seckl, J., Clinicum, and Department of General Practice and Primary Health Care

Subjects
Gerontology, Aging, Health (social science), HIGH-FAT DIET, Type 2 diabetes, Disease, ANXIETY-LIKE BEHAVIOR, Fetal Development, 0302 clinical medicine, Pregnancy, Cognitive decline, APPARENT MINERALOCORTICOID EXCESS, lcsh:RC620-627, Prenatal Nutritional Physiological Phenomena, 0303 health sciences, p66, Diabetes, GESTATIONAL DIABETES-MELLITUS, Cardiovascular disease, BETA-HYDROXYSTEROID DEHYDROGENASE, LOW-CARBOHYDRATE DIET, 3. Good health, Europe, lcsh:Nutritional diseases. Deficiency diseases, HSD2, 11-BETA-HYDROXYSTEROID DEHYDROGENASE TYPE-2, Prenatal Exposure Delayed Effects, Female, PITUITARY-ADRENAL-AXIS, lcsh:Nutrition. Foods and food supply, PRENATAL DEXAMETHASONE EXPOSURE, Offspring, education, lcsh:TX341-641, Stress, Foetal programming, 03 medical and health sciences, Physiology (medical), Diabetes mellitus, Oxidative damage, medicine, INTRAUTERINE GROWTH-RETARDATION, Humans, Obesity, Glucocorticoids, 030304 developmental biology, business.industry, Insulin resistance, medicine.disease, Pregnancy Complications, Oxidative Stress, 3121 General medicine, internal medicine and other clinical medicine, Sarcopenia, Immunology, Clinical Information, business, 030217 neurology & neurosurgery, DNA Damage
Abstract

Europe has the highest proportion of elderly people in the world. Cardiovascular disease, type 2 diabetes, sarcopenia and cognitive decline frequently coexist in the same aged individual, sharing common early risk factors and being mutually reinforcing. Among conditions which may contribute to establish early risk factors, this review focuses on maternal obesity, since the epidemic of obesity involves an ever growing number of women of reproductive age and children, calling for appropriate studies to understand the consequences of maternal obesity on the offspring's health and for developing effective measures and policies to improve people's health before their conception and birth. Though the current knowledge suggests that the long-term impact of maternal obesity on the offspring's health may be substantial, the outcomes of maternal obesity over the lifespan have not been quantified, and the molecular changes induced by maternal obesity remain poorly characterized. We hypothesize that maternal insulin resistance and reduced placental glucocorticoid catabolism, leading to oxidative stress, may damage the DNA, either in its structure (telomere shortening) or in its function (via epigenetic changes), resulting in altered gene expression/repair, disease during life, and pathological ageing. This review illustrates the background to the EU-FP7-HEALTH-DORIAN project. © 2014 S. Karger GmbH, Freiburg.

Published
2014
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9. De novo heterozygous mutations in SMC3 cause a range of Cornelia de Lange syndrome-overlapping phenotypes

Author

Gil-Rodriguez, M.C., Deardorff, M.A., Ansari, M., Tan, C.A., Parenti, I., Baquero-Montoya, C., Ousager, L.B., Puisac, B., Hernandez-Marcos, M., Teresa-Rodrigo, M.E., Marcos-Alcalde, I., Wesselink, J.J., Lusa-Bernal, S., Bijlsma, E.K., Braunholz, D., Bueno-Martinez, I., Clark, D., Cooper, N.S., Curry, C.J., Fisher, R., Fryer, A., Ganesh, J., Gervasini, C., Gillessen-Kaesbach, G., Guo, Y., Hakonarson, H., Hopkin, R.J., Kaur, M., Keating, B.J., Kibaek, M., Kinning, E., Kleefstra, T., Kline, A.D., Kuchinskaya, E., Larizza, L., Li, Y.R., Liu, X., Mariani, M., Picker, J.D., Pie, A., Pozojevic, J., Queralt, E., Richer, J., Roeder, E., Sinha, A., Scott, R.H., So, J., Wusik, K.A., Wilson, L., Zhang, J., Gomez-Puertas, P., Casale, C.H., Strom, L., Selicorni, A., Ramos, F.J., Jackson, L.G., Krantz, I.D., Das, S., Hennekam, R.C., Kaiser, F.J., FitzPatrick, D.R., Pie, J., Gil-Rodriguez, M.C., Deardorff, M.A., Ansari, M., Tan, C.A., Parenti, I., Baquero-Montoya, C., Ousager, L.B., Puisac, B., Hernandez-Marcos, M., Teresa-Rodrigo, M.E., Marcos-Alcalde, I., Wesselink, J.J., Lusa-Bernal, S., Bijlsma, E.K., Braunholz, D., Bueno-Martinez, I., Clark, D., Cooper, N.S., Curry, C.J., Fisher, R., Fryer, A., Ganesh, J., Gervasini, C., Gillessen-Kaesbach, G., Guo, Y., Hakonarson, H., Hopkin, R.J., Kaur, M., Keating, B.J., Kibaek, M., Kinning, E., Kleefstra, T., Kline, A.D., Kuchinskaya, E., Larizza, L., Li, Y.R., Liu, X., Mariani, M., Picker, J.D., Pie, A., Pozojevic, J., Queralt, E., Richer, J., Roeder, E., Sinha, A., Scott, R.H., So, J., Wusik, K.A., Wilson, L., Zhang, J., Gomez-Puertas, P., Casale, C.H., Strom, L., Selicorni, A., Ramos, F.J., Jackson, L.G., Krantz, I.D., Das, S., Hennekam, R.C., Kaiser, F.J., FitzPatrick, D.R., and Pie, J.

Abstract

Item does not contain fulltext, Cornelia de Lange syndrome (CdLS) is characterized by facial dysmorphism, growth failure, intellectual disability, limb malformations, and multiple organ involvement. Mutations in five genes, encoding subunits of the cohesin complex (SMC1A, SMC3, RAD21) and its regulators (NIPBL, HDAC8), account for at least 70% of patients with CdLS or CdLS-like phenotypes. To date, only the clinical features from a single CdLS patient with SMC3 mutation has been published. Here, we report the efforts of an international research and clinical collaboration to provide clinical comparison of 16 patients with CdLS-like features caused by mutations in SMC3. Modeling of the mutation effects on protein structure suggests a dominant-negative effect on the multimeric cohesin complex. When compared with typical CdLS, many SMC3-associated phenotypes are also characterized by postnatal microcephaly but with a less distinctive craniofacial appearance, a milder prenatal growth retardation that worsens in childhood, few congenital heart defects, and an absence of limb deficiencies. While most mutations are unique, two unrelated affected individuals shared the same mutation but presented with different phenotypes. This work confirms that de novo SMC3 mutations account for approximately 1%-2% of CdLS-like phenotypes.

Published
2015

10. Etude des bases moléculaires de la spécificité d’espèce du VRS et essais de développement d’un modèle murin pour le VRS bovin

Author

Eleouet, Jean Francois, Castagné, Nathalie, Baranowski, Eric, Deplanche, Martine, Meyer, Gilles, Gomez-Puertas, P., Moulignie, Martine, Counor, D., Riffault, Sabine, Dubuquoy, Catherine, Unité de recherche Virologie et Immunologie Moléculaires (VIM (UR 0892)), Institut National de la Recherche Agronomique (INRA), Interactions hôtes-agents pathogènes [Toulouse] (IHAP), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Ecole Nationale Vétérinaire de Toulouse (ENVT), and ProdInra, Migration

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

National audience

Published
2004

13. Computational Approaches to Model Ligand Selectivity in Drug Design

Author

Ortiz, Angel R., Gomez-Puertas, Paulino, Leo-Macias, Alejandra, Lopez-Romero, Pedro, Lopez-Vinas, Eduardo, Morreale, Antonio, Murcia, Marta, and Wang, Kun

Abstract

To be effective, a designed drug must discriminate successfully the macromolecular target from alternative structures present in the organism. The last few years have witnessed the emergence of different computational tools aimed to the understanding and modeling of this process at molecular level. Although still rudimentary, these methods are shaping a coherent approach to help in the design of molecules with high affinity and specificity, both in lead discovery and in lead optimization. It is the purpose of this review to illustrate the array of computational tools available to consider selectivity in the design process, to summarize the most relevant applications, and to sketch the challenges ahead.

Published
2006

25. Clinical relevance of postzygotic mosaicism in Cornelia de Lange syndrome and purifying selection of NIPBL variants in blood

Author

Iñigo Marcos-Alcalde, Axel Weber, Cristina Lucia-Campos, Ariadna Ayerza-Casas, Juan Pié, Feliciano J. Ramos, Gloria Bueno-Lozano, Katharina Khuller, María Teresa Echeverría Arnedo, Angelo Selicorni, Ilaria Parenti, Laura Trujillano, Marta Gil-Salvador, Milena Mariani, Paulino Gómez-Puertas, Rebeca Antoñanzas-Pérez, Ana Latorre-Pellicer, Beatriz Puisac, Ángela Ascaso, Cristina Gervasini, Frank J. Kaiser, Martin Munteanu, Maria Piccione, Alma Kuechler, Deniz Kanber, Latorre-Pellicer A., Gil-Salvador M., Parenti I., Lucia-Campos C., Trujillano L., Marcos-Alcalde I., Arnedo M., Ascaso A., Ayerza-Casas A., Antonanzas-Perez R., Gervasini C., Piccione M., Mariani M., Weber A., Kanber D., Kuechler A., Munteanu M., Khuller K., Bueno-Lozano G., Puisac B., Gomez-Puertas P., Selicorni A., Kaiser F.J., Ramos F.J., Pie J., Ministerio de Sanidad (España), and Diputación General de Aragón

Subjects
Adult, Male, Cornelia de Lange Syndrome, Adolescent, Adult, Cell Cycle Proteins, Child, Child, Preschool, Comparative Genomic Hybridization, De Lange Syndrome, Female, Gene Deletion, High-Throughput Nucleotide Sequencing, Humans, Male, Middle Aged, Mosaicism, Mutation, Missense, Phenotype, Retrospective Studies, Spain, Young Adult, Adolescent, Somatic cell, Science, Genetic counseling, Medizin, Mutation, Missense, Diseases, Cell Cycle Proteins, Biology, Paediatric research, Germline, Article, 03 medical and health sciences, Negative selection, Young Adult, Medical research, De Lange Syndrome, Genetics research, medicine, Missense mutation, Humans, Clinical significance, Child, 030304 developmental biology, Retrospective Studies, Genetics, 0303 health sciences, Comparative Genomic Hybridization, Multidisciplinary, Mosaicism, 030305 genetics & heredity, High-Throughput Nucleotide Sequencing, NIPBL, Middle Aged, medicine.disease, Phenotype, Settore MED/03 - Genetica Medica, Spain, Child, Preschool, Medicine, Female, Gene Deletion
Abstract

Postzygotic mosaicism (PZM) in NIPBL is a strong source of causality for Cornelia de Lange syndrome (CdLS) that can have major clinical implications. Here, we further delineate the role of somatic mosaicism in CdLS by describing a series of 11 unreported patients with mosaic disease-causing variants in NIPBL and performing a retrospective cohort study from a Spanish CdLS diagnostic center. By reviewing the literature and combining our findings with previously published data, we demonstrate a negative selection against somatic deleterious NIPBL variants in blood. Furthermore, the analysis of all reported cases indicates an unusual high prevalence of mosaicism in CdLS, occurring in 13.1% of patients with a positive molecular diagnosis. It is worth noting that most of the affected individuals with mosaicism have a clinical phenotype at least as severe as those with constitutive pathogenic variants. However, the type of genetic change does not vary between germline and somatic events and, even in the presence of mosaicism, missense substitutions are located preferentially within the HEAT repeat domain of NIPBL. In conclusion, the high prevalence of mosaicism in CdLS as well as the disparity in tissue distribution provide a novel orientation for the clinical management and genetic counselling of families., Spanish Ministry of Health-ISCIII Fondo de Investigación Sanitaria (FIS) [Ref. PI19/01860, to F.J.R. and J.P.]; Diputación General de Aragón-FEDER: European Social Fund [Grupo de Referencia B32_17R / B32_20R, to J.P.]. A.L-P is supported by a “Juan de la Cierva-Incorporación” postdoctoral grant from MICIU (Spanish Ministry of Science and Universities)

Published
2021

26. The phenotypic and genotypic spectrum of individuals with mono- or biallelic ANK3 variants.

Author

Furia F, Levy AM, Theunis M, Bamshad MJ, Bartos MN, Bijlsma EK, Brancati F, Cejudo L, Chong JX, De Luca C, Dean SJ, Egense A, Goel H, Guenzel AJ, Hüffmeier U, Legius E, Mancini GMS, Marcos-Alcalde I, Niclass T, Planes M, Redon S, Ros-Pardo D, Rouault K, Schot R, Schuhmann S, Shen JJ, Tao AM, Thiffault I, Van Esch H, Wentzensen IM, Barakat TS, Møller RS, Gomez-Puertas P, Chung WK, Gardella E, and Tümer Z

Subjects
Adolescent, Adult, Child, Child, Preschool, Female, Humans, Infant, Male, Alleles, Attention Deficit Disorder with Hyperactivity genetics, Autism Spectrum Disorder genetics, Epilepsy genetics, Genetic Association Studies, Genetic Predisposition to Disease, Genotype, Language Development Disorders genetics, Mutation genetics, Phenotype, Ankyrins genetics, Intellectual Disability genetics, Intellectual Disability pathology, Neurodevelopmental Disorders genetics
Abstract

ANK3 encodes ankyrin-G, a protein involved in neuronal development and signaling. Alternative splicing gives rise to three ankyrin-G isoforms comprising different domains with distinct expression patterns. Mono- or biallelic ANK3 variants are associated with non-specific syndromic intellectual disability in 14 individuals (seven with monoallelic and seven with biallelic variants). In this study, we describe the clinical features of 13 additional individuals and review the data on a total of 27 individuals (16 individuals with monoallelic and 11 with biallelic ANK3 variants) and demonstrate that the phenotype for biallelic variants is more severe. The phenotypic features include language delay (92%), autism spectrum disorder (76%), intellectual disability (78%), hypotonia (65%), motor delay (68%), attention deficit disorder (ADD) or attention deficit hyperactivity disorder (ADHD) (57%), sleep disturbances (50%), aggressivity/self-injury (37.5%), and epilepsy (35%). A notable phenotypic difference was presence of ataxia in three individuals with biallelic variants, but in none of the individuals with monoallelic variants. While the majority of the monoallelic variants are predicted to result in a truncated protein, biallelic variants are almost exclusively missense. Moreover, mono- and biallelic variants appear to be localized differently across the three different ankyrin-G isoforms, suggesting isoform-specific pathological mechanisms., (© 2024 The Author(s). Clinical Genetics published by John Wiley & Sons Ltd.)

Published
2024
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27. Biallelic variants in ZNF142 lead to a syndromic neurodevelopmental disorder.

Author

Christensen MB, Levy AM, Mohammadi NA, Niceta M, Kaiyrzhanov R, Dentici ML, Al Alam C, Alesi V, Benoit V, Bhatia KP, Bierhals T, Boßelmann CM, Buratti J, Callewaert B, Ceulemans B, Charles P, De Wachter M, Dehghani M, D'haenens E, Doco-Fenzy M, Geßner M, Gobert C, Guliyeva U, Haack TB, Hammer TB, Heinrich T, Hempel M, Herget T, Hoffmann U, Horvath J, Houlden H, Keren B, Kresge C, Kumps C, Lederer D, Lermine A, Magrinelli F, Maroofian R, Vahidi Mehrjardi MY, Moudi M, Müller AJ, Oostra AJ, Pletcher BA, Ros-Pardo D, Samarasekera S, Tartaglia M, Van Schil K, Vogt J, Wassmer E, Winkelmann J, Zaki MS, Zech M, Lerche H, Radio FC, Gomez-Puertas P, Møller RS, and Tümer Z

Subjects
Humans, Phenotype, Seizures complications, Seizures genetics, Intellectual Disability diagnosis, Movement Disorders complications, Neurodevelopmental Disorders genetics, Transcription Factors genetics
Abstract

Biallelic variants of the gene encoding for the zinc-finger protein 142 (ZNF142) have recently been associated with intellectual disability (ID), speech impairment, seizures, and movement disorders in nine individuals from five families. In this study, we obtained phenotype and genotype information of 26 further individuals from 16 families. Among the 27 different ZNF142 variants identified in the total of 35 individuals only four were missense. Missense variants may give a milder phenotype by changing the local structure of ZF motifs as suggested by protein modeling; but this correlation should be validated in larger cohorts and pathogenicity of the missense variants should be investigated with functional studies. Clinical features of the 35 individuals suggest that biallelic ZNF142 variants lead to a syndromic neurodevelopmental disorder with mild to moderate ID, varying degrees of delay in language and gross motor development, early onset seizures, hypotonia, behavioral features, movement disorders, and facial dysmorphism. The differences in symptom frequencies observed in the unpublished individuals compared to those of published, and recognition of previously underemphasized facial features are likely to be due to the small sizes of the previous cohorts, which underlines the importance of larger cohorts for the phenotype descriptions of rare genetic disorders., (© 2022 The Authors. Clinical Genetics published by John Wiley & Sons Ltd.)

Published
2022
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28. Neurodevelopmental Disorders Associated with PSD-95 and Its Interaction Partners.

Author

Levy AM, Gomez-Puertas P, and Tümer Z

Subjects
Disks Large Homolog 4 Protein genetics, Disks Large Homolog 4 Protein metabolism, Humans, Phenotype, Post-Synaptic Density metabolism, Synapses metabolism, Intellectual Disability metabolism, Neurodevelopmental Disorders genetics, Neurodevelopmental Disorders metabolism
Abstract

The postsynaptic density (PSD) is a massive protein complex, critical for synaptic strength and plasticity in excitatory neurons. Here, the scaffolding protein PSD-95 plays a crucial role as it organizes key PSD components essential for synaptic signaling, development, and survival. Recently, variants in DLG4 encoding PSD-95 were found to cause a neurodevelopmental disorder with a variety of clinical features including intellectual disability, developmental delay, and epilepsy. Genetic variants in several of the interaction partners of PSD-95 are associated with similar phenotypes, suggesting that deficient PSD-95 may affect the interaction partners, explaining the overlapping symptoms. Here, we review the transmembrane interaction partners of PSD-95 and their association with neurodevelopmental disorders. We assess how the structural changes induced by DLG4 missense variants may disrupt or alter such protein-protein interactions, and we argue that the pathological effect of DLG4 variants is, at least partly, exerted indirectly through interaction partners of PSD-95. This review presents a direction for functional studies to elucidate the pathogenic mechanism of deficient PSD-95, providing clues for therapeutic strategies.

Published
2022
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29. The clinical and molecular spectrum of QRICH1 associated neurodevelopmental disorder.

Author

Kumble S, Levy AM, Punetha J, Gao H, Ah Mew N, Anyane-Yeboa K, Benke PJ, Berger SM, Bjerglund L, Campos-Xavier B, Ciliberto M, Cohen JS, Comi AM, Curry C, Damaj L, Denommé-Pichon AS, Emrick L, Faivre L, Fasano MB, Fiévet A, Finkel RS, García-Miñaúr S, Gerard A, Gomez-Puertas P, Guillen Sacoto MJ, Hoffman TL, Howard L, Iglesias AD, Izumi K, Larson A, Leiber A, Lozano R, Marcos-Alcalde I, Mintz CS, Mullegama SV, Møller RS, Odent S, Oppermann H, Ostergaard E, Pacio-Míguez M, Palomares-Bralo M, Parikh S, Paulson AM, Platzer K, Posey JE, Potocki L, Revah-Politi A, Rio M, Ritter AL, Robinson S, Rosenfeld JA, Santos-Simarro F, Sousa SB, Wéber M, Xie Y, Chung WK, Brown NJ, and Tümer Z

Subjects
Humans, Muscle Hypotonia, Seizures, Weight Gain, Autism Spectrum Disorder genetics, Dwarfism, Intellectual Disability genetics, Neurodevelopmental Disorders genetics, Scoliosis
Abstract

De novo variants in QRICH1 (Glutamine-rich protein 1) has recently been reported in 11 individuals with intellectual disability (ID). The function of QRICH1 is largely unknown but it is likely to play a key role in the unfolded response of endoplasmic reticulum stress through transcriptional control of proteostasis. In this study, we present 27 additional individuals and delineate the clinical and molecular spectrum of the individuals (n = 38) with QRICH1 variants. The main clinical features were mild to moderate developmental delay/ID (71%), nonspecific facial dysmorphism (92%) and hypotonia (39%). Additional findings included poor weight gain (29%), short stature (29%), autism spectrum disorder (29%), seizures (24%) and scoliosis (18%). Minor structural brain abnormalities were reported in 52% of the individuals with brain imaging. Truncating or splice variants were found in 28 individuals and 10 had missense variants. Four variants were inherited from mildly affected parents. This study confirms that heterozygous QRICH1 variants cause a neurodevelopmental disorder including short stature and expands the phenotypic spectrum to include poor weight gain, scoliosis, hypotonia, minor structural brain anomalies, and seizures. Inherited variants from mildly affected parents are reported for the first time, suggesting variable expressivity., (© 2021 Wiley Periodicals LLC.)

Published
2022
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30. Dysfunctional Homozygous VRK1-D263G Variant Impairs the Assembly of Cajal Bodies and DNA Damage Response in Hereditary Spastic Paraplegia.

Author

Morejon-Garcia P, Keren B, Marcos-Alcalde I, Gomez-Puertas P, Mochel F, and Lazo PA

Abstract

Background and Objectives: To conduct a genetic and molecular functional study of a family with members affected of hereditary spastic paraplegia (HSP) of unknown origin and carrying a novel pathogenic vaccinia-related kinase 1 ( VRK 1) variant., Methods: Whole-exome sequencing was performed in 2 patients, and their parents diagnosed with HSP. The novel VRK 1 variant was detected by whole-exome sequencing, molecularly modeled and biochemically characterized in kinase assays. Functionally, we studied the role of this VRK 1 variant in DNA damage response and its effect on the assembly of Cajal bodies (CBs)., Results: We have identified a very rare homozygous variant VRK1-D263G with a neurologic phenotype associated with HSP and moderate intellectual disability. The molecular modeling of this VRK1 variant protein predicted an alteration in the folding of a loop that interferes with the access to the kinase catalytic site. The VRK1-D263G variant is kinase inactive and does not phosphorylate histones H2AX and H3, transcription factors activating transcription factor 2 and p53, coilin needed for assembly of CBs, and p53 binding protein 1, a DNA repair protein. Functionally, this VRK1 variant protein impairs CB formation and the DNA damage response., Discussion: This report expands the neurologic spectrum of neuromotor syndromes associated with a new and rare VRK1 variant, representing a novel pathogenic participant in complicated HSP and demonstrates that CBs and the DNA damage response are impaired in these patients., (Copyright © 2021 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published
2021
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31. Identification of temperature-sensitive mutations and characterization of thermolabile RNase II variants.

Author

Reis FP, Bárria C, Gomez-Puertas P, Gomes CM, and Arraiano CM

Subjects
Amino Acid Substitution, Catalysis, Enzyme Stability, Escherichia coli genetics, Escherichia coli Proteins genetics, Escherichia coli Proteins metabolism, Exoribonucleases genetics, Exoribonucleases metabolism, Kinetics, Escherichia coli enzymology, Escherichia coli Proteins chemistry, Exoribonucleases chemistry, Mutation, Missense
Abstract

The RNase II family of ribonucleases is ubiquitous and critical for RNA metabolism. The rnb500 allele has been widely used for over 30 years; however, the underlying genetic changes which result in RNase II thermolabile activity remain unknown. Here, we combine molecular and biophysical studies to carry out an in vivo and in vitro investigation of RNase II mutation(s) that confer the rnb500 phenotype. Our findings indicate that RNase II thermolability is due to the Cys284Tyr mutation within the RNB domain, which abolishes activity by increasing protein kinetic instability at the nonpermissive temperature. These findings have important implications for the design of temperature-sensitive variants of other RNase II enzymes, namely those with yet unknown functions., (© 2018 Federation of European Biochemical Societies.)

Published
2019
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32. Comparing molecular dynamics force fields in the essential subspace.

Author

Martín-García F, Papaleo E, Gomez-Puertas P, Boomsma W, and Lindorff-Larsen K

Subjects
Models, Theoretical
Abstract

The continued development and utility of molecular dynamics simulations requires improvements in both the physical models used (force fields) and in our ability to sample the Boltzmann distribution of these models. Recent developments in both areas have made available multi-microsecond simulations of two proteins, ubiquitin and Protein G, using a number of different force fields. Although these force fields mostly share a common mathematical form, they differ in their parameters and in the philosophy by which these were derived, and previous analyses showed varying levels of agreement with experimental NMR data. To complement the comparison to experiments, we have performed a structural analysis of and comparison between these simulations, thereby providing insight into the relationship between force-field parameterization, the resulting ensemble of conformations and the agreement with experiments. In particular, our results show that, at a coarse level, many of the motional properties are preserved across several, though not all, force fields. At a finer level of detail, however, there are distinct differences in both the structure and dynamics of the two proteins, which can, together with comparison with experimental data, help to select force fields for simulations of proteins. A noteworthy observation is that force fields that have been reparameterized and improved to provide a more accurate energetic description of the balance between helical and coil structures are difficult to distinguish from their "unbalanced" counterparts in these simulations. This observation implies that simulations of stable, folded proteins, even those reaching 10 microseconds in length, may provide relatively little information that can be used to modify torsion parameters to achieve an accurate balance between different secondary structural elements.

Published
2015
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33. Genome sequence of OXA-48 carbapenemase-producing Klebsiella pneumoniae KpO3210.

Author

Wesselink JJ, López-Camacho E, de la Peña S, Ramos-Ruiz R, Ruiz-Carrascoso G, Lusa-Bernal S, Fernández-Soria VM, Gómez-Gil R, Gomez-Puertas P, and Mingorance J

Subjects
Bacterial Proteins biosynthesis, Blood microbiology, Carbapenems pharmacology, DNA, Bacterial genetics, Disease Outbreaks, Drug Resistance, Multiple, Bacterial, Humans, Klebsiella Infections drug therapy, Klebsiella Infections epidemiology, Klebsiella Infections microbiology, Klebsiella pneumoniae drug effects, Klebsiella pneumoniae enzymology, Klebsiella pneumoniae isolation & purification, Microbial Sensitivity Tests, Molecular Sequence Data, Sequence Analysis, DNA, beta-Lactams pharmacology, Genome, Bacterial, Klebsiella pneumoniae genetics, beta-Lactamases biosynthesis
Abstract

Klebsiella pneumoniae KpO3210 is a OXA-48 carbapenemase-producing isolate obtained from a blood culture in the context of an outbreak in Hospital Universitario La Paz (Madrid, Spain) in 2010. It belongs to the major clone detected during the outbreak and is resistant to all beta-lactams and to several other antibiotics.

Published
2012
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34. Determination of key residues for catalysis and RNA cleavage specificity: one mutation turns RNase II into a "SUPER-ENZYME".

Author

Barbas A, Matos RG, Amblar M, López-Viñas E, Gomez-Puertas P, and Arraiano CM

Subjects
Amino Acid Substitution genetics, Conserved Sequence, DNA metabolism, Escherichia coli, Exoribonucleases chemistry, Kinetics, Models, Molecular, Mutant Proteins chemistry, Mutant Proteins metabolism, Protein Binding, Protein Conformation, Substrate Specificity, Surface Plasmon Resonance, Amino Acids metabolism, Biocatalysis, Exoribonucleases metabolism, Mutation genetics, RNA metabolism
Abstract

RNase II is the prototype of a ubiquitous family of enzymes that are crucial for RNA metabolism. In Escherichia coli this protein is a single-stranded-specific 3'-exoribonuclease with a modular organization of four functional domains. In eukaryotes, the RNase II homologue Rrp44 (also known as Dis3) is the catalytic subunit of the exosome, an exoribonuclease complex essential for RNA processing and decay. In this work we have performed a functional characterization of several highly conserved residues located in the RNase II catalytic domain to address their precise role in the RNase II activity. We have constructed a number of RNase II mutants and compared their activity and RNA binding to the wild type using different single- or double-stranded substrates. The results presented in this study substantially improve the RNase II model for RNA degradation. We have identified the residues that are responsible for the discrimination of cleavage of RNA versus DNA. We also show that the Arg-500 residue present in the RNase II active site is crucial for activity but not for RNA binding. The most prominent finding presented is the extraordinary catalysis observed in the E542A mutant that turns RNase II into a "super-enzyme."

Published
2009
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35. Structural properties of the human respiratory syncytial virus P protein: evidence for an elongated homotetrameric molecule that is the smallest orthologue within the family of paramyxovirus polymerase cofactors.

Author

Llorente MT, Taylor IA, López-Viñas E, Gomez-Puertas P, Calder LJ, García-Barreno B, and Melero JA

Subjects
Amino Acid Sequence, Chymotrypsin, Circular Dichroism, Models, Molecular, Molecular Sequence Data, Peptide Fragments chemistry, Peptide Fragments isolation & purification, Protein Denaturation, Protein Structure, Quaternary, Protein Structure, Tertiary, Temperature, Thermodynamics, Trypsin, Viral Structural Proteins ultrastructure, Coenzymes chemistry, RNA-Dependent RNA Polymerase metabolism, Respiratory Syncytial Virus, Human enzymology, Sequence Homology, Amino Acid, Viral Structural Proteins chemistry
Abstract

The oligomeric state and the hydrodynamic properties of human respiratory syncytial virus (HRSV) phosphoprotein (P), a known cofactor of the viral RNA-dependent RNA polymerase (L), and a trypsin-resistant fragment (X) that includes its oligomerization domain were analyzed by sedimentation equilibrium and velocity using analytical ultracentrifugation. The results obtained demonstrate that both P and fragment X are homotetrameric with elongated shapes, consistent with electron micrographs of the purified P protein in which thin rod-like molecules of approximately 12.5 +/- 1.0 nm in length were observed. A new chymotrypsin resistant fragment (Y*) included in fragment X has been identified and purified by gel filtration chromatography. Fragment Y* may represent a minimal version of the P oligomerization domain. Thermal denaturation curves based on circular dichroism data of P protein showed a complex behavior. In contrast, melting data generated for fragments X and particularly fragment Y* showed more homogeneous transitions indicative of simpler structures. A three-dimensional model of X and Y* fragments was built based on the atomic structure of the P oligomerization domain of the related Sendai virus, which is in good agreement with the experimental data. This model will be an useful tool to make rational mutations and test the role of specific amino acids in the oligomerization and functional properties of the HRSV P protein.

Published
2008
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36. New insights into the mechanism of RNA degradation by ribonuclease II: identification of the residue responsible for setting the RNase II end product.

Author

Barbas A, Matos RG, Amblar M, López-Viñas E, Gomez-Puertas P, and Arraiano CM

Subjects
Binding Sites, Catalysis, Escherichia coli genetics, Exoribonucleases genetics, Humans, Models, Molecular, Mutation genetics, Protein Binding, Protein Structure, Tertiary, Escherichia coli enzymology, Exoribonucleases chemistry, Exoribonucleases metabolism, RNA metabolism
Abstract

RNase II is a key exoribonuclease involved in the maturation, turnover, and quality control of RNA. RNase II homologues are components of the exosome, a complex of exoribonucleases. The structure of RNase II unraveled crucial aspects of the mechanism of RNA degradation. Here we show that mutations in highly conserved residues at the active site affect the activity of the enzyme. Moreover, we have identified the residue that is responsible for setting the end product of RNase II. In addition, we present for the first time the models of two members of the RNase II family, RNase R from Escherichia coli and human Rrp44, also called Dis3. Our findings improve the present model for RNA degradation by the RNase II family of enzymes.

Published
2008
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37. Ca2+ Activation kinetics of the two aspartate-glutamate mitochondrial carriers, aralar and citrin: role in the heart malate-aspartate NADH shuttle.

Author

Contreras L, Gomez-Puertas P, Iijima M, Kobayashi K, Saheki T, and Satrústegui J

Subjects
Amino Acid Sequence, Animals, Brain metabolism, Kinetics, Membrane Transport Proteins chemistry, Mice, Mice, Inbred C57BL, Mitochondria, Liver metabolism, Mitochondrial Membrane Transport Proteins, Mitochondrial Proteins chemistry, Molecular Sequence Data, Muscle, Skeletal metabolism, Aspartic Acid metabolism, Calcium metabolism, Glutamic Acid metabolism, Malates metabolism, Membrane Transport Proteins physiology, Mitochondria, Heart metabolism, Mitochondrial Proteins physiology, NAD metabolism
Abstract

Ca(2+) regulation of the Ca(2+) binding mitochondrial carriers for aspartate/glutamate (AGCs) is provided by their N-terminal extensions, which face the intermembrane space. The two mammalian AGCs, aralar and citrin, are members of the malate-aspartate NADH shuttle. We report that their N-terminal extensions contain up to four pairs of EF-hand motifs plus a single vestigial EF-hand, and have no known homolog. Aralar and citrin contain one fully canonical EF-hand pair and aralar two additional half-pairs, in which a single EF-hand is predicted to bind Ca(2+). Shuttle activity in brain or skeletal muscle mitochondria, which contain aralar as the major AGC, is activated by Ca(2+) with S(0.5) values of 280-350 nm; higher than those obtained in liver mitochondria (100-150 nm) that contain citrin as the major AGC. We have used aralar- and citrin-deficient mice to study the role of the two isoforms in heart, which expresses both AGCs. The S(0.5) for Ca(2+) activation of the shuttle in heart mitochondria is about 300 nm, and it remains essentially unchanged in citrin-deficient mice, although it undergoes a drastic reduction to about 100 nm in aralar-deficient mice. Therefore, aralar and citrin, when expressed as single isoforms in heart, confer differences in Ca(2+) activation of shuttle activity, probably associated with their structural differences. In addition, the results reveal that the two AGCs fully account for shuttle activity in mouse heart mitochondria and that no other glutamate transporter can replace the AGCs in this pathway.

Published
2007
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38. TRAF family proteins link PKR with NF-kappa B activation.

Author

Gil J, García MA, Gomez-Puertas P, Guerra S, Rullas J, Nakano H, Alcamí J, and Esteban M

Subjects
3T3 Cells, Amino Acid Sequence, Animals, Base Sequence, Binding Sites genetics, Cell Line, DNA genetics, HeLa Cells, Humans, Mice, Mice, Knockout, Models, Molecular, Protein Conformation, Protein Structure, Tertiary, Proteins chemistry, Proteins genetics, RNA, Double-Stranded metabolism, Sequence Homology, Amino Acid, TNF Receptor-Associated Factor 2, TNF Receptor-Associated Factor 5, eIF-2 Kinase chemistry, eIF-2 Kinase genetics, NF-kappa B metabolism, Proteins metabolism, eIF-2 Kinase metabolism
Abstract

The double-stranded RNA (dsRNA)-dependent protein kinase PKR activates NF-kappa B via the I kappa B kinase (IKK) complex, but little is known about additional molecules that may be involved in this pathway. Analysis of the PKR sequence enabled us to identify two putative TRAF-interacting motifs. The viability of such an interaction was further suggested by computer modeling. Here, we present evidence of the colocalization and physical interaction between PKR and TRAF family proteins in vivo, as shown by immunoprecipitation and confocal microscopy experiments. This interaction is induced upon PKR dimerization. Most importantly, we show that the binding between PKR and TRAFs is functionally relevant, as observed by the absence of NF-kappa B activity upon PKR expression in cells genetically deficient in TRAF2 and TRAF5 or after expression of TRAF dominant negative molecules. On the basis of sequence information and mutational and computer docking analyses, we favored a TRAF-PKR interaction model in which the C-terminal domain of TRAF binds to a predicted TRAF interaction motif present in the PKR kinase domain. Altogether, our data suggest that TRAF family proteins are key components located downstream of PKR that have an important role in mediating activation of NF-kappa B by the dsRNA-dependent protein kinase.

Published
2004
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