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2. Author Correction: The IPDGC/GP2 Hackathon - an open science event for training in data science, genomics, and collaboration using Parkinson’s disease data

Author

Leonard, Hampton L., Murtadha, Ruqaya, Martinez-Carrasco, Alejandro, Jama, Alina, Müller-Nedebock, Amica Corda, Gil-Martinez, Ana-Luisa, Illarionova, Anastasia, Moore, Anni, Bustos, Bernabe I., Jadhav, Bharati, Huxford, Brook, Storm, Catherine, Towns, Clodagh, Vitale, Dan, Chetty, Devina, Yu, Eric, Grenn, Francis P., Salazar, Gabriela, Rateau, Geoffrey, Iwaki, Hirotaka, Elsayed, Inas, Foote, Isabelle Francesca, Jansen van Rensburg, Zuné, Kim, Jonggeol Jeff, Yuan, Jie, Lake, Julie, Brolin, Kajsa, Senkevich, Konstantin, Wu, Lesley, Tan, Manuela M. X., Periñán, María Teresa, Makarious, Mary B., Ta, Michael, Pillay, Nikita Simone, Betancor, Oswaldo Lorenzo, Reyes-Pérez, Paula R., Alvarez Jerez, Pilar, Saini, Prabhjyot, al-Ouran, Rami, Sivakumar, Ramiya, Real, Raquel, Reynolds, Regina H., Hu, Ruifneg, Abrahams, Shameemah, Rao, Shilpa C., Antar, Tarek, Leal, Thiago Peixoto, Iankova, Vassilena, Scotton, William J., Song, Yeajin, Singleton, Andrew, Nalls, Mike A., Dey, Sumit, Bandres-Ciga, Sara, Blauwendraat, Cornelis, and Noyce, Alastair J.

Published
2023
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3. The IPDGC/GP2 Hackathon - an open science event for training in data science, genomics, and collaboration using Parkinson’s disease data

Author

Leonard, Hampton L., Murtadha, Ruqaya, Martinez-Carrasco, Alejandro, Jama, Alina, Müller-Nedebock, Amica Corda, Gil-Martinez, Ana-Luisa, Illarionova, Anastasia, Moore, Anni, Bustos, Bernabe I., Jadhav, Bharati, Huxford, Brook, Storm, Catherine, Towns, Clodagh, Vitale, Dan, Chetty, Devina, Yu, Eric, Grenn, Francis P., Salazar, Gabriela, Rateau, Geoffrey, Iwaki, Hirotaka, Elsayed, Inas, Foote, Isabelle Francesca, Jansen van Rensburg, Zuné, Kim, Jonggeol Jeff, Yuan, Jie, Lake, Julie, Brolin, Kajsa, Senkevich, Konstantin, Wu, Lesley, Tan, Manuela M. X., Periñán, María Teresa, Makarious, Mary B., Ta, Michael, Pillay, Nikita Simone, Betancor, Oswaldo Lorenzo, Reyes-Pérez, Paula R., Alvarez Jerez, Pilar, Saini, Prabhjyot, al-Ouran, Rami, Sivakumar, Ramiya, Real, Raquel, Reynolds, Regina H., Hu, Ruifneg, Abrahams, Shameemah, Rao, Shilpa C., Antar, Tarek, Leal, Thiago Peixoto, Iankova, Vassilena, Scotton, William J., Song, Yeajin, Singleton, Andrew, Nalls, Mike A., Dey, Sumit, Bandres-Ciga, Sara, Blauwendraat, Cornelis, and Noyce, Alastair J.

Published
2023
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4. De novo FRMD5 Missense Variants in Patients with Childhood‐Onset Ataxia, Prominent Nystagmus, and Seizures.

Author

Keller Sarmiento, Ignacio J., Bustos, Bernabe I., Blackburn, Joanna, Hac, Nicholas E.F., Ruzhnikov, Maura, Monroe, Matthea, Levy, Rebecca J., Kinsley, Lisa, Li, Megan, Silani, Vincenzo, Lubbe, Steven J., Krainc, Dimitri, and Mencacci, Niccolò E.

Abstract

Background: FRMD5 variants were recently identified in patients with developmental delay, ataxia, and eye movement abnormalities. Objectives: We describe 2 patients presenting with childhood‐onset ataxia, nystagmus, and seizures carrying pathogenic de novo FRMD5 variants. Weighted gene co‐expression network analysis (WGCNA) was performed to gain insights into the function of FRMD5 in the brain. Methods: Trio‐based whole‐exome sequencing was performed in both patients, and CoExp web tool was used to conduct WGCNA. Results: Both patients presented with developmental delay, childhood‐onset ataxia, nystagmus, and seizures. Previously unreported findings were diffuse choreoathetosis and dystonia of the hands (patient 1) and areas of abnormal magnetic resonance imaging signal in the white matter (patient 2). WGCNA showed that FRMD5 belongs to gene networks involved in neurodevelopment and oligodendrocyte function. Conclusions: We expanded the phenotype of FRMD5‐related disease and shed light on its role in brain function and development. We recommend including FRMD5 in the genetic workup of childhood‐onset ataxia and nystagmus. © 2024 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Genome-wide contribution of common short-tandem repeats to Parkinson’s disease genetic risk

Author

Bustos, Bernabe I, Billingsley, Kimberley, Blauwendraat, Cornelis, Gibbs, J Raphael, Gan-Or, Ziv, Krainc, Dimitri, Singleton, Andrew B, and Lubbe, Steven J

Subjects
Original Article, Neurology (clinical)
Abstract

Parkinson’s disease is a complex neurodegenerative disorder with a strong genetic component, for which most known disease-associated variants are single nucleotide polymorphisms (SNPs) and small insertions and deletions (indels). DNA repetitive elements account for >50% of the human genome; however, little is known of their contribution to Parkinson’s disease aetiology. While select short tandem repeats (STRs) within candidate genes have been studied in Parkinson’s disease, their genome-wide contribution remains unknown. Here we present the first genome-wide association study of STRs in Parkinson’s disease. Through a meta-analysis of 16 imputed genome-wide association study cohorts from the International Parkinson’s Disease Genomic Consortium (IPDGC), totalling 39 087 individuals (16 642 cases and 22 445 controls of European ancestry), we identified 34 genome-wide significant STR loci (P < 5.34 × 10−6), with the strongest signal located in KANSL1 [chr17:44 205 351:[T]11, P = 3 × 10−39, odds ratio = 1.31 (95% confidence interval = 1.26–1.36)]. Conditional-joint analyses suggested that four significant STRs mapping nearby NDUFAF2, TRIML2, MIRNA-129–1 and NCOR1 were independent from known risk SNPs. Including STRs in heritability estimates increased the variance explained by SNPs alone. Gene expression analysis of STRs (eSTRs) in RNA sequencing data from 13 brain regions identified significant associations of STRs influencing the expression of multiple genes, including known Parkinson’s disease genes. Further functional annotation of candidate STRs revealed that significant eSTRs within NUDFAF2 and ZSWIM7 overlap with regulatory features and are associated with change in the expression levels of nearby genes. Here, we show that STRs at known and novel candidate loci contribute to Parkinson’s disease risk and have functional effects in disease-relevant tissues and pathways, supporting previously reported disease-associated genes and giving further evidence for their functional prioritization. These data represent a valuable resource for researchers currently dissecting Parkinson’s disease risk loci.

Published
2022

8. Variants in ATP5F1B are associated with dominantly inherited dystonia

Author

Nasca, Alessia, primary, Mencacci, Niccolò E, additional, Invernizzi, Federica, additional, Zech, Michael, additional, Sarmiento, Ignacio J Keller, additional, Legati, Andrea, additional, Frascarelli, Chiara, additional, Bustos, Bernabe I, additional, Romito, Luigi M, additional, Krainc, Dimitri, additional, Winkelmann, Juliane, additional, Carecchio, Miryam, additional, Nardocci, Nardo, additional, Zorzi, Giovanna, additional, Prokisch, Holger, additional, Lubbe, Steven J, additional, Garavaglia, Barbara, additional, and Ghezzi, Daniele, additional

Published
2023
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9. Genome-wide association study stratified by MAPT haplotypes identifies potential novel loci in Parkinson’s disease

Author

Senkevich, Konstantin, Bandres-Ciga, Sara, Cisterna-García, Alejandro, Yu, Eric, Bustos, Bernabe I., Krohn, Lynne, Lubbe, Steven J., Botía, Juan A., and Gan-Or, Ziv

Subjects
Article
Abstract

OBJECTIVE: To identify genetic factors that may modify the effects of the MAPT locus in Parkinson’s disease (PD). METHODS: We used data from the International Parkinson’s Disease Genomics Consortium (IPDGC) and the UK biobank (UKBB). We stratified the IPDGC cohort for carriers of the H1/H1 genotype (PD patients n=8,492 and controls n=6,765) and carriers of the H2 haplotype (with either H1/H2 or H2/H2 genotypes, patients n=4,779 and controls n=4,849) to perform genome-wide association studies (GWASs). Then, we performed replication analyses in the UKBB data. To study the association of rare variants in the new nominated genes, we performed burden analyses in two cohorts (Accelerating Medicines Partnership – Parkinson Disease and UKBB) with a total sample size PD patients n=2,943 and controls n=18,486. RESULTS: We identified a novel locus associated with PD among MAPT H1/H1 carriers near EMP1 (rs56312722, OR=0.88, 95%CI= 0.84-0.92, p= 1.80E-08), and a novel locus associated with PD among MAPT H2 carriers near VANGL1 (rs11590278, OR=1.69 95%CI=1.40-2.03, p= 2.72E-08). Similar analysis of the UKBB data did not replicate these results and rs11590278 near VANGL1 did have similar effect size and direction in carriers of H2 haplotype, albeit not statistically significant (OR= 1.32, 95%CI= 0.94-1.86, p=0.17). Rare EMP1 variants with high CADD scores were associated with PD in the MAPT H2 stratified analysis (p=9.46E-05), mainly driven by the p.V11G variant. INTERPRETATION: We identified several loci potentially associated with PD stratified by MAPT haplotype and larger replication studies are required to confirm these associations.

Published
2023

10. The IPDGC/GP2 Hackathon - an open science event for training in data science, genomics, and collaboration using Parkinson's disease data

Author

Leonard, Hampton L, Murtadha, Ruqaya, Huxford, Brook, Storm, Catherine, Towns, Clodagh, Vitale, Dan, Chetty, Devina, Yu, Eric, Grenn, Francis P, Salazar, Gabriela, Rateau, Geoffrey, Iwaki, Hirotaka, Martinez-Carrasco, Alejandro, Elsayed, Inas, Foote, Isabelle Francesca, Jansen van Rensburg, Zuné, Kim, Jonggeol Jeff, Yuan, Jie, Lake, Julie, Brolin, Kajsa, Senkevich, Konstantin, Wu, Lesley, Tan, Manuela M X, Jama, Alina, Periñán, María Teresa, Makarious, Mary B, Ta, Michael, Pillay, Nikita Simone, Betancor, Oswaldo Lorenzo, Reyes-Pérez, Paula R, Alvarez Jerez, Pilar, Saini, Prabhjyot, Al-Ouran, Rami, Sivakumar, Ramiya, Müller-Nedebock, Amica Corda, Real, Raquel, Reynolds, Regina H, Hu, Ruifneg, Abrahams, Shameemah, Rao, Shilpa C, Antar, Tarek, Leal, Thiago Peixoto, Iankova, Vassilena, Scotton, William J, Song, Yeajin, Gil-Martinez, Ana-Luisa, Singleton, Andrew, Nalls, Mike A, Dey, Sumit, Bandres-Ciga, Sara, Blauwendraat, Cornelis, Noyce, Alastair J, Program, The Global Parkinson’s Genetics, Illarionova, Anastasia, Moore, Anni, Bustos, Bernabe I, Jadhav, Bharati, and Consortium, International Parkinson Disease Genomics

Subjects
Cellular and Molecular Neuroscience, Neurology, Neurology (clinical), ddc:610
Abstract

Open science and collaboration are necessary to facilitate the advancement of Parkinson’s disease (PD) research. Hackathons are collaborative events that bring together people with different skill sets and backgrounds to generate resources and creative solutions to problems. These events can be used as training and networking opportunities, thus we coordinated a virtual 3-day hackathon event, during which 49 early-career scientists from 12 countries built tools and pipelines with a focus on PD. Resources were created with the goal of helping scientists accelerate their own research by having access to the necessary code and tools. Each team was allocated one of nine different projects, each with a different goal. These included developing post-genome-wide association studies (GWAS) analysis pipelines, downstream analysis of genetic variation pipelines, and various visualization tools. Hackathons are a valuable approach to inspire creative thinking, supplement training in data science, and foster collaborative scientific relationships, which are foundational practices for early-career researchers. The resources generated can be used to accelerate research on the genetics of PD.

Published
2023

11. Author Correction: The IPDGC/GP2 Hackathon - an open science event for training in data science, genomics, and collaboration using Parkinson's disease data

Author

Leonard, Hampton L, Murtadha, Ruqaya, Huxford, Brook, Storm, Catherine, Towns, Clodagh, Vitale, Dan, Chetty, Devina, Yu, Eric, Grenn, Francis P, Salazar, Gabriela, Rateau, Geoffrey, Iwaki, Hirotaka, Martinez-Carrasco, Alejandro, Elsayed, Inas, Foote, Isabelle Francesca, Jansen van Rensburg, Zuné, Kim, Jonggeol Jeff, Yuan, Jie, Lake, Julie, Brolin, Kajsa, Senkevich, Konstantin, Wu, Lesley, Tan, Manuela M X, Jama, Alina, Periñán, María Teresa, Makarious, Mary B, Ta, Michael, Pillay, Nikita Simone, Betancor, Oswaldo Lorenzo, Reyes-Pérez, Paula R, Alvarez Jerez, Pilar, Saini, Prabhjyot, Al-Ouran, Rami, Sivakumar, Ramiya, Müller-Nedebock, Amica Corda, Real, Raquel, Reynolds, Regina H, Hu, Ruifneg, Abrahams, Shameemah, Rao, Shilpa C, Antar, Tarek, Leal, Thiago Peixoto, Iankova, Vassilena, Scotton, William J, Song, Yeajin, Gil-Martinez, Ana-Luisa, Singleton, Andrew, Nalls, Mike A, Dey, Sumit, Bandres-Ciga, Sara, Blauwendraat, Cornelis, Noyce, Alastair J, Program, The Global Parkinson’s Genetics, Illarionova, Anastasia, Moore, Anni, Bustos, Bernabe I, Jadhav, Bharati, and Consortium, International Parkinson Disease Genomics

Subjects
ddc:610
Published
2023

13. Gene-based burden analysis of damaging private variants in PRKN, PARK7 and PINK1 in Parkinson's disease cohorts of European descent

Author

Hu, Jing, primary, Waters, Cheryl H., additional, Spiegelman, Dan, additional, Fon, Edward A., additional, Yu, Eric, additional, Asayesh, Farnaz, additional, Krohn, Lynne, additional, Saini, Prabhjyot, additional, Alcalay, Roy N., additional, Hassin-Baer, Sharon, additional, Gan-Or, Ziv, additional, Krainc, Dimitri, additional, Zhang, BaoRong, additional, Bustos, Bernabe I., additional, and Lubbe, Steven J., additional

Published
2022
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14. The IPDGC/GP2 Hackathon - an open science event for training in data science, genomics, and collaboration using Parkinson’s disease data

Author

Leonard, Hampton L., primary, Murtadha, Ruqaya, additional, Martinez-Carrasco, Alejandro, additional, Muller-Nedebock, Amica, additional, Gil-Martinez, Ana-Luisa, additional, Illarionova, Anastasia, additional, Moore, Anni, additional, Bustos, Bernabe I., additional, Jadhav, Bharati, additional, Huxford, Brook, additional, Storm, Catherine, additional, Towns, Clodagh, additional, Vitale, Dan, additional, Chetty, Devina, additional, Yu, Eric, additional, Jama, Fatumah, additional, Grenn, Francis P., additional, Salazar, Gabriela, additional, Rateau, Geoffrey, additional, Iwaki, Hirotaka, additional, Elsayed, Inas, additional, Foote, Isabelle, additional, van Rensburg, Zuné Jansen, additional, Kim, Jonggeol Jeff, additional, Yuan, Jie, additional, Lake, Julie, additional, Brolin, Kajsa, additional, Senkevich, Konstantin, additional, Wu, Lesley, additional, Tan, Manuela M.X., additional, Periñán, María Teresa, additional, Makarious, Mary B, additional, Ta, Michael, additional, Pillay, Nikita Simone, additional, Betancor, Oswaldo Lorenzo, additional, Reyes-Pérez, Paula R., additional, Jerez, Pilar Alvarez, additional, Saini, Prabhjyot, additional, al-Ouran, Rami, additional, Sivakumar, Ramiya, additional, Real, Raquel, additional, Reynolds, Regina H., additional, Hu, Ruifneg, additional, Abrahams, Shameemah, additional, Rao, Shilpa C., additional, Antar, Tarek, additional, Leal, Thiago Peixoto, additional, Iankova, Vassilena, additional, Scotton, William J., additional, Song, Yeajin, additional, Singleton, Andrew, additional, Nalls, Mike A., additional, Dey, Sumit, additional, Bandres-Ciga, Sara, additional, Blauwendraat, Cornelis, additional, and Noyce, Alastair J., additional

Published
2022
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15. Homozygous might be hemizygous: CRISPR/Cas9 editing in iPSCs results in detrimental on-target defects that escape standard quality controls

Author

Simkin, Dina, primary, Papakis, Vasileios, additional, Bustos, Bernabe I., additional, Ambrosi, Christina M., additional, Ryan, Steven J., additional, Baru, Valeriya, additional, Williams, Luis A., additional, Dempsey, Graham T., additional, McManus, Owen B., additional, Landers, John E., additional, Lubbe, Steven J., additional, George, Alfred L., additional, and Kiskinis, Evangelos, additional

Published
2022
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16. Melanin and Neuromelanin: Linking Skin Pigmentation and Parkinson's Disease.

Author

Krainc, Talia, Monje, Mariana H.G., Kinsinger, Morgan, Bustos, Bernabe I., and Lubbe, Steven J.

Abstract

Neuromelanin‐containing dopaminergic neurons in the substantia nigra pars compacta (SNpc) are the most vulnerable neurons in Parkinson's disease (PD). Recent work suggests that the accumulation of oxidized dopamine and neuromelanin mediate the convergence of mitochondrial and lysosomal dysfunction in patient‐derived neurons. In addition, the expression of human tyrosinase in mouse SNpc led to the formation of neuromelanin resulting in the degeneration of nigral dopaminergic neurons, further highlighting the importance of neuromelanin in PD. The potential role of neuromelanin in PD pathogenesis has been supported by epidemiological observations, whereby individuals with lighter pigmentation or cutaneous malignant melanoma exhibit higher incidence of PD. Because neuromelanin and melanin share many functional characteristics and overlapping biosynthetic pathways, it has been postulated that genes involved in skin pigmentation and melanin formation may play a role in the susceptibility of vulnerable midbrain dopaminergic neurons to neurodegeneration. Here, we highlight potential mechanisms that may explain the link between skin pigmentation and PD, focusing on the role of skin pigmentation genes in the pathogenesis of PD. We also discuss the importance of genetic ancestry in assessing the contribution of pigmentation‐related genes to risk of PD. © 2022 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Genome-wide contribution of common short-tandem repeats to Parkinson's disease genetic risk.

Author

Bustos, Bernabe I, Billingsley, Kimberley, Blauwendraat, Cornelis, Gibbs, J Raphael, Gan-Or, Ziv, Krainc, Dimitri, Singleton, Andrew B, Lubbe, Steven J, (IPDGC), International Parkinson's Disease Genomics Consortium, and International Parkinson’s Disease Genomics Consortium (IPDGC)

Subjects
*PARKINSON'S disease, *GENE frequency, *MICROSATELLITE repeats, *GENETIC disorders, *GENOME-wide association studies, *GENE expression
Abstract

Parkinson's disease is a complex neurodegenerative disorder with a strong genetic component, for which most known disease-associated variants are single nucleotide polymorphisms (SNPs) and small insertions and deletions (indels). DNA repetitive elements account for >50% of the human genome; however, little is known of their contribution to Parkinson's disease aetiology. While select short tandem repeats (STRs) within candidate genes have been studied in Parkinson's disease, their genome-wide contribution remains unknown. Here we present the first genome-wide association study of STRs in Parkinson's disease. Through a meta-analysis of 16 imputed genome-wide association study cohorts from the International Parkinson's Disease Genomic Consortium (IPDGC), totalling 39 087 individuals (16 642 cases and 22 445 controls of European ancestry), we identified 34 genome-wide significant STR loci (P < 5.34 × 10-6), with the strongest signal located in KANSL1 [chr17:44 205 351:[T]11, P = 3 × 10-39, odds ratio = 1.31 (95% confidence interval = 1.26-1.36)]. Conditional-joint analyses suggested that four significant STRs mapping nearby NDUFAF2, TRIML2, MIRNA-129-1 and NCOR1 were independent from known risk SNPs. Including STRs in heritability estimates increased the variance explained by SNPs alone. Gene expression analysis of STRs (eSTRs) in RNA sequencing data from 13 brain regions identified significant associations of STRs influencing the expression of multiple genes, including known Parkinson's disease genes. Further functional annotation of candidate STRs revealed that significant eSTRs within NUDFAF2 and ZSWIM7 overlap with regulatory features and are associated with change in the expression levels of nearby genes. Here, we show that STRs at known and novel candidate loci contribute to Parkinson's disease risk and have functional effects in disease-relevant tissues and pathways, supporting previously reported disease-associated genes and giving further evidence for their functional prioritization. These data represent a valuable resource for researchers currently dissecting Parkinson's disease risk loci. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Loss‐of‐function variants in HOPS complex genes VPS16 and VPS41 cause early‐onset dystonia associated with lysosomal abnormalities

Author

Steel, Dora, Zech, Michael, Zhao, Chen, Barwick, Katy ES, Burke, Derek, Demailly, Diane, Kumar, Kishore R, Zorzi, Giovanna, Nardocci, Nardo, Kaiyrzhanov, Rauan, Wagner, Matias, Iuso, Arcangela, Berutti, Riccardo, Škorvánek, Matej, Necpál, Ján, Davis, Ryan, Wiethoff, Sarah, Mankad, Kshitij, Sudhakar, Sniya, Ferrini, Arianna, Sharma, Suvasini, Kamsteeg, Erik?Jan, Tijssen, Marina A, Verschuuren, Corien, Egmond, Martje E, Flowers, Joanna M, McEntagart, Meriel, Tucci, Arianna, Coubes, Philippe, Bustos, Bernabe I, Gonzalez-Latapi, Paulina, Tisch, Stephen, Darveniza, Paul, Gorman, Kathleen M, Peall, Kathryn J, Bötzel, Kai, Koch, Jan C, Kmiec, Tomasz, Plecko, Barbara, Boesch, Sylvia, Haslinger, Bernhard, Jech, Robert, Garavaglia, Barbara, Wood, Nick, Houlden, Henry, Gissen, Paul, Lubbe, Steven J, Sue, Carolyn M, Cif, Laura, Mencacci, Niccolò E, Anderson, Glenn, Kurian, Manju A, and Winkelmann, Juliane

Abstract

Objectives\ud The majority of people with suspected genetic dystonia remain undiagnosed after maximal investigation, implying that a number of causative genes have not yet been recognised. We aimed to investigate this paucity of diagnoses.\ud \ud Methods\ud We undertook weighted burden analysis of whole‐exome sequencing data from 138 individuals with unresolved generalised dystonia of suspected genetic aetiology, followed by additional case‐finding from international databases, first for the gene implicated by the burden analysis (VPS16), then for other functionally related genes. Electron microscopy was performed on patient‐derived cells.\ud \ud Results\ud Analysis revealed a significant burden for VPS16 (Fisher's exact test p‐value, 6.9x10−9). VPS16 encodes a subunit of the homotypic fusion and vacuole protein sorting (HOPS) complex, which plays a key role in autophagosome‐lysosome fusion. A total of 18 individuals harbouring heterozygous loss‐of‐function VPS16 variants, and one with a microdeletion, were identified. These individuals experienced early‐onset progressive dystonia with predominant cervical, bulbar, orofacial and upper limb involvement. Some patients had a more complex phenotype with additional neuropsychiatric and/or developmental comorbidities. We also identified biallelic loss‐of‐function variants in VPS41, another HOPS‐complex encoding genes, in an individual with infantile‐onset generalised dystonia. Electron microscopy of patient‐derived lymphocytes and fibroblasts from both VPS16 and VPS41 patients showed vacuolar abnormalities suggestive of impaired lysosomal function.\ud \ud Interpretation\ud Our study strongly supports a role for HOPS complex dysfunction in the pathogenesis of dystonia, though variants in different subunits display different phenotypic and inheritance characteristics.

Published
2020

19. Copy number variants in lipid metabolism genes are associated with gallstones disease in men

Author

Perez-Palma, Eduardo, Bustos, Bernabe, I, Lal, Dennis, Buch, Stephan, Azocar, Lorena, Toliat, Mohammad Reza, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Shoenfels, Witigo, Schafmayer, Clemens, Ahnert, Peter, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Puschel, Klaus, Gutierrez, Rodrigo A., Hampe, Jochen, Nuernberg, Peter, Miquel, Juan Francisco, De Ferrari, Giancarlo, V, Perez-Palma, Eduardo, Bustos, Bernabe, I, Lal, Dennis, Buch, Stephan, Azocar, Lorena, Toliat, Mohammad Reza, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Shoenfels, Witigo, Schafmayer, Clemens, Ahnert, Peter, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Puschel, Klaus, Gutierrez, Rodrigo A., Hampe, Jochen, Nuernberg, Peter, Miquel, Juan Francisco, and De Ferrari, Giancarlo, V

Abstract

Gallstones Disease (GSD) is one of the most common digestive diseases requiring hospitalization and surgical procedures in the world. GSD has a high prevalence in populations with European or Amerindian ancestry (10-20%) and the influence of genetic factors is broadly acknowledged. However, known genetic variants do not entirely explain the disease heritability suggesting that additional genetic variants remain to be identified. Here, we examined the association of copy number variants (CNVs) with GSD in a sample of 4778 individuals (1929 GSD cases and 2849 controls) including two European cohorts from Germany (n = 3702) and one admixed Latin American cohort from Chile (n = 1076). We detected 2936 large and rare CNVs events (size > 100 kb, frequency < 1%). Case-control burden analysis and generalized linear regression models revealed significant association of CNVs with GSD in men, with the strongest effect observed with CNVs overlapping lipid metabolism genes (p-value = 6.54 x 10(-4); OR = 2.76; CI 95% = 1.53-4.89). Our results indicate a clear link between CNVs and GSD in men and provides additional evidence that the genetic components of risk for GSD are complex, can be sex specific and include CNVs affecting genes involved in lipid metabolism.

Published
2020

20. YY1‐Related Dystonia: Clinical Aspects and Long‐Term Response to Deep Brain Stimulation

Author

Zorzi, Giovanna, primary, Keller Sarmiento, Ignacio Juan, additional, Danti, Federica Rachele, additional, Bustos, Bernabe I., additional, Invernizzi, Federica, additional, Panteghini, Celeste, additional, Reale, Chiara, additional, Garavaglia, Barbara, additional, Chiapparini, Luisa, additional, Lubbe, Steven J., additional, Nardocci, Nardo, additional, and Mencacci, Niccolò E., additional

Published
2021
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21. Dyshomeostatic modulation of Ca2+-activated K+ channels in a human neuronal model of KCNQ2 encephalopathy

Author

Simkin, Dina, primary, Marshall, Kelly A, additional, Vanoye, Carlos G, additional, Desai, Reshma R, additional, Bustos, Bernabe I, additional, Piyevsky, Brandon N, additional, Ortega, Juan A, additional, Forrest, Marc, additional, Robertson, Gabriella L, additional, Penzes, Peter, additional, Laux, Linda C, additional, Lubbe, Steven J, additional, Millichap, John J, additional, George, Alfred L, additional, and Kiskinis, Evangelos, additional

Published
2021
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22. Author response: Dyshomeostatic modulation of Ca2+-activated K+ channels in a human neuronal model of KCNQ2 encephalopathy

Author

Simkin, Dina, primary, Marshall, Kelly A, additional, Vanoye, Carlos G, additional, Desai, Reshma R, additional, Bustos, Bernabe I, additional, Piyevsky, Brandon N, additional, Ortega, Juan A, additional, Forrest, Marc, additional, Robertson, Gabriella L, additional, Penzes, Peter, additional, Laux, Linda C, additional, Lubbe, Steven J, additional, Millichap, John J, additional, George, Alfred L, additional, and Kiskinis, Evangelos, additional

Published
2021
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23. Loss‐of‐Function Variants in HOPS Complex Genes VPS16 and VPS41 Cause Early Onset Dystonia Associated with Lysosomal Abnormalities

Author

Steel, Dora, Zech, Michael, Zhao, Chen, Barwick, Katy E. S., Burke, Derek, Demailly, Diane, Kumar, Kishore R., Zorzi, Giovanna, Nardocci, Nardo, Kaiyrzhanov, Rauan, Wagner, Matias, Iuso, Arcangela, Berutti, Riccardo, Škorvánek, Matej, Necpál, Ján, Davis, Ryan, Wiethoff, Sarah, Mankad, Kshitij, Sudhakar, Sniya, Ferrini, Arianna, Sharma, Suvasini, Kamsteeg, Erik‐Jan, Tijssen, Marina A., Verschuuren, Corien, Egmond, Martje E., Flowers, Joanna M., McEntagart, Meriel, Tucci, Arianna, Coubes, Philippe, Bustos, Bernabe I., Gonzalez‐Latapi, Paulina, Tisch, Stephen, Darveniza, Paul, Gorman, Kathleen M., Peall, Kathryn J., Bötzel, Kai, Koch, Jan C., Kmieć, Tomasz, Plecko, Barbara, Boesch, Sylvia, Haslinger, Bernhard, Jech, Robert, Garavaglia, Barbara, Wood, Nick, Houlden, Henry, Gissen, Paul, Lubbe, Steven J., Sue, Carolyn M., Cif, Laura, Mencacci, Niccolò E., Anderson, Glenn, Kurian, Manju A., and Winkelmann, Juliane

Subjects
ddc
Published
2019

25. Variants in ABCG8 and TRAF3 genes confer risk for gallstone disease in admixed Latinos with Mapuche Native American ancestry

Author

Bustos, Bernabe I., Perez-Palma, Eduardo, Buch, Stephan, Azocar, Lorena, Riveras, Eleodoro, Ugarte, Giorgia D., Toliat, Mohammad, Nuernberg, Peter, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Schoenfels, Witigo, Schafmayer, Clemens, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Luis Santos, Jose, Puschel, Klaus, Bambs, Claudia, Carlos Roa, Juan, Gutierrez, Rodrigo A., Hampe, Jochen, De Ferrari, Giancarlo V., Francisco Miquel, Juan, Bustos, Bernabe I., Perez-Palma, Eduardo, Buch, Stephan, Azocar, Lorena, Riveras, Eleodoro, Ugarte, Giorgia D., Toliat, Mohammad, Nuernberg, Peter, Lieb, Wolfgang, Franke, Andre, Hinz, Sebastian, Burmeister, Greta, von Schoenfels, Witigo, Schafmayer, Clemens, Voelzke, Henry, Voelker, Uwe, Homuth, Georg, Lerch, Markus M., Luis Santos, Jose, Puschel, Klaus, Bambs, Claudia, Carlos Roa, Juan, Gutierrez, Rodrigo A., Hampe, Jochen, De Ferrari, Giancarlo V., and Francisco Miquel, Juan

Abstract

Latin Americans and Chilean Amerindians have the highest prevalence of gallstone disease (GSD) and gallbladder cancer (GBC) in the world. A handful of loci have been associated with GSD in populations of predominantly European ancestry, however, they only explain a small portion of the genetic component of the disease. Here, we performed a genome-wide association study (GWAS) for GSD in 1,095 admixed Chilean Latinos with Mapuche Native American ancestry. Disease status was assessed by cholecystectomy or abdominal ultrasonography. Top-10 candidate variants surpassing the suggestive cutoff of P < 1 x 10(-5) in the discovery cohort were genotyped in an independent replication sample composed of 1,643 individuals. Variants with positive replication were further examined in two European GSD populations and a Chilean GBC cohort. We consistently replicated the association of ABCG8 gene with GSD (rs11887534, P = 3.24 x 10(-8), OR = 1.74) and identified TRAF3 (rs12882491, P = 1.11 x 10(-7), OR = 1.40) as a novel candidate gene for the disease in admixed Chilean Latinos. ABCG8 and TRAF3 variants also conferred risk to GBC. Gene expression analyses indicated that TRAF3 was significantly decreased in gallbladder (P = 0.015) and duodenal mucosa (P = 0.001) of GSD individuals compared to healthy controls, where according to GTEx data in the small intestine, the presence of the risk allele contributes to the observed effect. We conclude that ABCG8 and TRAF3 genes are associated with GSD and GBC in admixed Latinos and that decreased TRAF3 levels could enhance gallbladder inflammation as is observed in GSD and GSD-associated GBC.

Published
2019

26. Whole Genome Sequence, Variant Discovery and Annotation in Mapuche-Huilliche Native South Americans

Author

Vidal, Elena A., Moyano, Tomas C., Bustos, Bernabe, I, Perez-Palma, Eduardo, Moraga, Carol, Riveras, Eleodoro, Montecinos, Alejandro, Azocar, Lorena, Soto, Daniela C., Vidal, Mabel, Di Genoval, Alex, Puschel, Klaus, Nurnberg, Peter, Buch, Stephan, Hampe, Jochen, Allende, Miguel L., Cambiazo, Veronica, Gonzalez, Mauricio, Hodar, Christian, Montecino, Martin, Munoz-Espinoza, Claudia, Orellana, Ariel, Reyes-Jara, Angelica, Travisanyl, Dante, Vizoso, Paula, Moraga, Mauricio, Eyheramendy, Susana, Maass, Alejandro, De Ferrari, Giancarlo, V, Mique, Juan Francisco, Gutierrez, Rodrigo A., Vidal, Elena A., Moyano, Tomas C., Bustos, Bernabe, I, Perez-Palma, Eduardo, Moraga, Carol, Riveras, Eleodoro, Montecinos, Alejandro, Azocar, Lorena, Soto, Daniela C., Vidal, Mabel, Di Genoval, Alex, Puschel, Klaus, Nurnberg, Peter, Buch, Stephan, Hampe, Jochen, Allende, Miguel L., Cambiazo, Veronica, Gonzalez, Mauricio, Hodar, Christian, Montecino, Martin, Munoz-Espinoza, Claudia, Orellana, Ariel, Reyes-Jara, Angelica, Travisanyl, Dante, Vizoso, Paula, Moraga, Mauricio, Eyheramendy, Susana, Maass, Alejandro, De Ferrari, Giancarlo, V, Mique, Juan Francisco, and Gutierrez, Rodrigo A.

Abstract

Whole human genome sequencing initiatives help us understand population history and the basis of genetic diseases. Current data mostly focuses on Old World populations, and the information of the genomic structure of Native Americans, especially those from the Southern Cone is scant. Here we present annotation and variant discovery from high-quality complete genome sequences of a cohort of 11 Mapuche-Huilliche individuals (HUI) from Southern Chile. We found approximately 3.1 x 10(6) single nucleotide variants (SNVs) per individual and identified 403,383 (6.9%) of novel SNVs events. Analyses of large-scale genomic events detected 680 copy number variants (CNVs) and 4,514 structural variants (SVs), including 398 and 1,910 novel events, respectively. Global ancestry composition of HUI genomes revealed that the cohort represents a sample from a marginally admixed population from the Southern Cone, whose main genetic component derives from Native American ancestors. Additionally, we found that HUI genomes contain variants in genes associated with 5 of the 6 leading causes of noncommunicable diseases in Chile, which may have an impact on the risk of prevalent diseases in Chilean and Amerindian populations. Our data represents a useful resource that can contribute to population-based studies and for the design of early diagnostics or prevention tools for Native and admixed Latin American populations.

Published
2019

29. Genome-wide association study stratified by MAPT haplotypes identifies potential novel loci in Parkinson's disease.

Author

Senkevich K, Bandres-Ciga S, Cisterna-García A, Yu E, Bustos BI, Krohn L, Lubbe SJ, Botía JA, and Gan-Or Z

Abstract

Objective: To identify genetic factors that may modify the effects of the MAPT locus in Parkinson's disease (PD)., Methods: We used data from the International Parkinson's Disease Genomics Consortium (IPDGC) and the UK biobank (UKBB). We stratified the IPDGC cohort for carriers of the H1/H1 genotype (PD patients n=8,492 and controls n=6,765) and carriers of the H2 haplotype (with either H1/H2 or H2/H2 genotypes, patients n=4,779 and controls n=4,849) to perform genome-wide association studies (GWASs). Then, we performed replication analyses in the UKBB data. To study the association of rare variants in the new nominated genes, we performed burden analyses in two cohorts (Accelerating Medicines Partnership - Parkinson Disease and UKBB) with a total sample size PD patients n=2,943 and controls n=18,486., Results: We identified a novel locus associated with PD among MAPT H1/H1 carriers near EMP1 (rs56312722, OR=0.88, 95%CI= 0.84-0.92, p= 1.80E-08), and a novel locus associated with PD among MAPT H2 carriers near VANGL1 (rs11590278, OR=1.69 95%CI=1.40-2.03, p=2.72E-08). Similar analysis of the UKBB data did not replicate these results and rs11590278 near VANGL1 did have similar effect size and direction in carriers of H2 haplotype, albeit not statistically significant (OR= 1.32, 95%CI= 0.94-1.86, p=0.17). Rare EMP1 variants with high CADD scores were associated with PD in the MAPT H2 stratified analysis (p=9.46E-05), mainly driven by the p.V11G variant., Interpretation: We identified several loci potentially associated with PD stratified by MAPT haplotype and larger replication studies are required to confirm these associations., Competing Interests: Financial Disclosure Authors have nothing to report.

Published
2023
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30. Dyshomeostatic modulation of Ca 2+ -activated K + channels in a human neuronal model of KCNQ2 encephalopathy.

Author

Simkin D, Marshall KA, Vanoye CG, Desai RR, Bustos BI, Piyevsky BN, Ortega JA, Forrest M, Robertson GL, Penzes P, Laux LC, Lubbe SJ, Millichap JJ, George AL Jr, and Kiskinis E

Subjects
Action Potentials physiology, Brain Diseases physiopathology, Cell Line, Humans, KCNQ2 Potassium Channel metabolism, Pluripotent Stem Cells, Brain Diseases genetics, KCNQ2 Potassium Channel genetics, Neurons physiology
Abstract

Mutations in KCNQ2 , which encodes a pore-forming K + channel subunit responsible for neuronal M-current, cause neonatal epileptic encephalopathy, a complex disorder presenting with severe early-onset seizures and impaired neurodevelopment. The condition is exceptionally difficult to treat, partially because the effects of KCNQ2 mutations on the development and function of human neurons are unknown. Here, we used induced pluripotent stem cells (iPSCs) and gene editing to establish a disease model and measured the functional properties of differentiated excitatory neurons. We find that patient iPSC-derived neurons exhibit faster action potential repolarization, larger post-burst afterhyperpolarization and a functional enhancement of Ca 2+ -activated K + channels. These properties, which can be recapitulated by chronic inhibition of M-current in control neurons, facilitate a burst-suppression firing pattern that is reminiscent of the interictal electroencephalography pattern in patients. Our findings suggest that dyshomeostatic mechanisms compound KCNQ2 loss-of-function leading to alterations in the neurodevelopmental trajectory of patient iPSC-derived neurons., Competing Interests: DS, KM, CV, RD, BB, BP, JO, MF, GR, PP, LL, SL, JM, AG, EK No competing interests declared, (© 2021, Simkin et al.)

Published
2021
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31. Loss-of-Function Variants in HOPS Complex Genes VPS16 and VPS41 Cause Early Onset Dystonia Associated with Lysosomal Abnormalities.

Author

Steel D, Zech M, Zhao C, Barwick KES, Burke D, Demailly D, Kumar KR, Zorzi G, Nardocci N, Kaiyrzhanov R, Wagner M, Iuso A, Berutti R, Škorvánek M, Necpál J, Davis R, Wiethoff S, Mankad K, Sudhakar S, Ferrini A, Sharma S, Kamsteeg EJ, Tijssen MA, Verschuuren C, van Egmond ME, Flowers JM, McEntagart M, Tucci A, Coubes P, Bustos BI, Gonzalez-Latapi P, Tisch S, Darveniza P, Gorman KM, Peall KJ, Bötzel K, Koch JC, Kmieć T, Plecko B, Boesch S, Haslinger B, Jech R, Garavaglia B, Wood N, Houlden H, Gissen P, Lubbe SJ, Sue CM, Cif L, Mencacci NE, Anderson G, Kurian MA, and Winkelmann J

Subjects
Adult, Cost of Illness, Dystonia pathology, Exome genetics, Female, Fibroblasts pathology, Genetic Predisposition to Disease genetics, Genetic Variation, Humans, Lysosomal Storage Diseases pathology, Male, Middle Aged, Mutation genetics, Pedigree, Dystonia genetics, Lysosomal Storage Diseases genetics, Vesicular Transport Proteins genetics
Abstract

Objectives: The majority of people with suspected genetic dystonia remain undiagnosed after maximal investigation, implying that a number of causative genes have not yet been recognized. We aimed to investigate this paucity of diagnoses., Methods: We undertook weighted burden analysis of whole-exome sequencing (WES) data from 138 individuals with unresolved generalized dystonia of suspected genetic etiology, followed by additional case-finding from international databases, first for the gene implicated by the burden analysis (VPS16), and then for other functionally related genes. Electron microscopy was performed on patient-derived cells., Results: Analysis revealed a significant burden for VPS16 (Fisher's exact test p value, 6.9 × 10 9 ). VPS16 encodes a subunit of the homotypic fusion and vacuole protein sorting (HOPS) complex, which plays a key role in autophagosome-lysosome fusion. A total of 18 individuals harboring heterozygous loss-of-function VPS16 variants, and one with a microdeletion, were identified. These individuals experienced early onset progressive dystonia with predominant cervical, bulbar, orofacial, and upper limb involvement. Some patients had a more complex phenotype with additional neuropsychiatric and/or developmental comorbidities. We also identified biallelic loss-of-function variants in VPS41, another HOPS-complex encoding gene, in an individual with infantile-onset generalized dystonia. Electron microscopy of patient-derived lymphocytes and fibroblasts from both patients with VPS16 and VPS41 showed vacuolar abnormalities suggestive of impaired lysosomal function., Interpretation: Our study strongly supports a role for HOPS complex dysfunction in the pathogenesis of dystonia, although variants in different subunits display different phenotypic and inheritance characteristics. ANN NEUROL 2020;88:867-877., (© 2020 The Authors. Annals of Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published
2020
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32. Wnt/β-catenin signaling in Alzheimer's disease.

Author

De Ferrari GV, Avila ME, Medina MA, Perez-Palma E, Bustos BI, and Alarcon MA

Subjects
Alzheimer Disease metabolism, Animals, Humans, Alzheimer Disease pathology, Brain metabolism, Wnt Proteins metabolism, Wnt Signaling Pathway physiology, beta Catenin metabolism
Abstract

Alzheimer's disease is a neurodegenerative disorder that causes a progressive decline of mental and cognitive processes such as memory, judgment and reasoning. We proposed earlier that a sustained loss of function of Wnt/β- catenin signaling components underlies the onset and progression of the disease. Here, we discuss recent data on the involvement of Wnt/b-catenin signaling on amyloid precursor protein (APP) processing, Aβ peptide neurotoxicity, τ phosphorylation, and modulation of Apolipoprotein E function in the brain. We conclude that several components of the cascade are actively engaged in the events leading to AD neuropathology and propose that compounds that mimic activation of this signaling cascade, such as lithium, should be considered for therapeutic intervention in Alzheimer's patients. In summary, data accumulated during the past decade confirm some important predictions of our hypothesis where components of this signaling cascade are actively engaged in the events leading to AD neuropathology and that compounds that mimic activation of this signaling cascade, such as lithium, should be considered for therapeutic intervention in Alzheimer's patients.

Published
2014
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