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6. Deficient H2A.Z deposition is associated with genesis of uterine leiomyoma

Author

Berta, Davide G., Kuisma, Heli, Välimäki, Niko, Räisänen, Maritta, Jäntti, Maija, Pasanen, Annukka, Karhu, Auli, Kaukomaa, Jaana, Taira, Aurora, Cajuso, Tatiana, Nieminen, Sanna, Penttinen, Rosa-Maria, Ahonen, Saija, Lehtonen, Rainer, Mehine, Miika, Vahteristo, Pia, Jalkanen, Jyrki, Sahu, Biswajyoti, Ravantti, Janne, Mäkinen, Netta, Rajamäki, Kristiina, Palin, Kimmo, Taipale, Jussi, Heikinheimo, Oskari, Bützow, Ralf, Kaasinen, Eevi, and Aaltonen, Lauri A.

Published
2021
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11. Bacterial and fungal communities in sub-Arctic tundra heaths are shaped by contrasting snow accumulation and nutrient availability.

Author

Männistö, Minna K, Ahonen, Saija H K, Ganzert, Lars, Tiirola, Marja, Stark, Sari, and Häggblom, Max M

Subjects
*TUNDRAS, *FUNGAL communities, *BACTERIAL communities, *SNOW accumulation, *HEATHLANDS, *MICROBIAL communities, *BIOMASS
Abstract

Climate change is affecting winter snow conditions significantly in northern ecosystems but the effects of the changing conditions for soil microbial communities are not well-understood. We utilized naturally occurring differences in snow accumulation to understand how the wintertime subnivean conditions shape bacterial and fungal communities in dwarf shrub-dominated sub-Arctic Fennoscandian tundra sampled in mid-winter, early, and late growing season. Phospholipid fatty acid (PLFA) and quantitative PCR analyses indicated that fungal abundance was higher in windswept tundra heaths with low snow accumulation and lower nutrient availability. This was associated with clear differences in the microbial community structure throughout the season. Members of Clavaria spp. and Sebacinales were especially dominant in the windswept heaths. Bacterial biomass proxies were higher in the snow-accumulating tundra heaths in the late growing season but there were only minor differences in the biomass or community structure in winter. Bacterial communities were dominated by members of Alphaproteobacteria, Actinomycetota, and Acidobacteriota and were less affected by the snow conditions than the fungal communities. The results suggest that small-scale spatial patterns in snow accumulation leading to a mosaic of differing tundra heath vegetation shapes bacterial and fungal communities as well as soil carbon and nutrient availability. [ABSTRACT FROM AUTHOR]

Published
2024
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17. GRINL1A Complex Transcription Unit Containing GCOM1, MYZAP, and POLR2M Genes Associates with Fully Penetrant Recessive Dilated Cardiomyopathy

Author

Heliö, Krista, Mäyränpää, Mikko I., Saarinen, Inka, Ahonen, Saija, Junnila, Heidi, Tommiska, Johanna, Weckström, Sini, Holmström, Miia, Toivonen, Mia, Nikus, Kjell, Hathaway, Julie, Siivonen, Pauli, Muona, Mikko, Sistonen, Johanna, Salmenperä, Pertteli, Gentile, Massimiliano, Paananen, Jussi, Myllykangas, Samuel, Alastalo, Tero-Pekka, Heliö, Tiina, Koskenvuo, Juha, Faculty of Medicine, HUSLAB, Department of Pathology, HUS Heart and Lung Center, HUS Medical Imaging Center, Department of Diagnostics and Therapeutics, Clinicum, Department of Medicine, Tampere University, Clinical Medicine, and TAYS Heart Centre

Subjects
MYZAP, GENETICS, RECEPTOR, 1184 Genetics, developmental biology, physiology, PROTEIN, MYOZAP, autosomal recessive, ORGANIZATION, GUIDELINES, dilated cardiomyopathy, Molecular Medicine, GCOM1, 3111 Biomedicine, cardiomyopathy, Genetics (clinical), FORM, Original Research
Abstract

Background: Familial dilated cardiomyopathy (DCM) is a monogenic disorder typically inherited in an autosomal dominant pattern. We have identified two Finnish families with familial cardiomyopathy that is not explained by a variant in any previously known cardiomyopathy gene. We describe the cardiac phenotype related to homozygous truncating GCOM1 variants. Methods and Results: This study included two probands and their relatives. All the participants are of Finnish ethnicity. Whole-exome sequencing was used to test the probands; bi-directional Sanger sequencing was used to identify the GCOM1 variants in probands’ family members. Clinical evaluation was performed, medical records and death certificates were obtained. Immunohistochemical analysis of myocardial samples was conducted. A homozygous GCOM1 variant was identified altogether in six individuals, all considered to be affected. None of the nine heterozygous family members fulfilled any cardiomyopathy criteria. Heart failure was the leading clinical feature, and the patients may have had a tendency for atrial arrhythmias. Conclusions: This study demonstrates the significance of GCOM1 variants as a cause of human cardiomyopathy and highlights the importance of searching for new candidate genes when targeted gene panels do not yield a positive outcome. publishedVersion

Published
2021

18. Glycogen synthase downregulation rescues the amylopectinosis of murine RBCK1 deficiency.

Author

Nitschke, Silvia, Sullivan, Mitchell A, Mitra, Sharmistha, Marchioni, Charlotte R, Lee, Jennifer P  Y, Smith, Brandon H, Ahonen, Saija, Wu, Jun, Chown, Erin E, Wang, Peixiang, Petković, Sara, Zhao, Xiaochu, DiGiovanni, Laura F, Perri, Ami M, Israelian, Lori, Grossman, Tamar R, Kordasiewicz, Holly, Vilaplana, Francisco, Iwai, Kazuhiro, and Nitschke, Felix

Subjects
ENZYME metabolism, PROTEINS, BIOCHEMISTRY, RESEARCH, NEUROLOGICAL disorders, EPILEPSY, ANIMAL experimentation, GLUCANS, PHENOMENOLOGICAL biology, RESEARCH methodology, EVALUATION research, COMPARATIVE studies, ENZYMES, INBORN errors of carbohydrate metabolism, TRANSFERASES, GLYCOGEN storage disease, RESEARCH funding, GLYCOGEN, ESTERASES, MICE
Abstract

Longer glucan chains tend to precipitate. Glycogen, by far the largest mammalian glucan and the largest molecule in the cytosol with up to 55 000 glucoses, does not, due to a highly regularly branched spherical structure that allows it to be perfused with cytosol. Aberrant construction of glycogen leads it to precipitate, accumulate into polyglucosan bodies that resemble plant starch amylopectin and cause disease. This pathology, amylopectinosis, is caused by mutations in a series of single genes whose functions are under active study toward understanding the mechanisms of proper glycogen construction. Concurrently, we are characterizing the physicochemical particularities of glycogen and polyglucosans associated with each gene. These genes include GBE1, EPM2A and EPM2B, which respectively encode the glycogen branching enzyme, the glycogen phosphatase laforin and the laforin-interacting E3 ubiquitin ligase malin, for which an unequivocal function is not yet known. Mutations in GBE1 cause a motor neuron disease (adult polyglucosan body disease), and mutations in EPM2A or EPM2B a fatal progressive myoclonus epilepsy (Lafora disease). RBCK1 deficiency causes an amylopectinosis with fatal skeletal and cardiac myopathy (polyglucosan body myopathy 1, OMIM# 615895). RBCK1 is a component of the linear ubiquitin chain assembly complex, with unique functions including generating linear ubiquitin chains and ubiquitinating hydroxyl (versus canonical amine) residues, including of glycogen. In a mouse model we now show (i) that the amylopectinosis of RBCK1 deficiency, like in adult polyglucosan body disease and Lafora disease, affects the brain; (ii) that RBCK1 deficiency glycogen, like in adult polyglucosan body disease and Lafora disease, has overlong branches; (iii) that unlike adult polyglucosan body disease but like Lafora disease, RBCK1 deficiency glycogen is hyperphosphorylated; and finally (iv) that unlike laforin-deficient Lafora disease but like malin-deficient Lafora disease, RBCK1 deficiency's glycogen hyperphosphorylation is limited to precipitated polyglucosans. In summary, the fundamental glycogen pathology of RBCK1 deficiency recapitulates that of malin-deficient Lafora disease. Additionally, we uncover sex and genetic background effects in RBCK1 deficiency on organ- and brain-region specific amylopectinoses, and in the brain on consequent neuroinflammation and behavioural deficits. Finally, we exploit the portion of the basic glycogen pathology that is common to adult polyglucosan body disease, both forms of Lafora disease and RBCK1 deficiency, namely overlong branches, to show that a unified approach based on downregulating glycogen synthase, the enzyme that elongates glycogen branches, can rescue all four diseases. [ABSTRACT FROM AUTHOR]

Published
2022
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19. Gys1 antisense therapy rescues neuropathological bases of murine Lafora disease.

Author

Ahonen, Saija, Nitschke, Silvia, Grossman, Tamar R, Kordasiewicz, Holly, Wang, Peixiang, Zhao, Xiaochu, Guisso, Dikran R, Kasiri, Sahba, Nitschke, Felix, and Minassian, Berge A

Subjects
*LABORATORY mice, *BIOMARKERS, *GLYCOGEN, *MOUSE diseases, *GLYCOGEN storage disease type II, *OLIGONUCLEOTIDES, *INJECTIONS, *TAKAYASU arteritis, *RESEARCH, *EPILEPSY, *ANIMAL experimentation, *RESEARCH methodology, *RNA, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *TRANSFERASES, *INTRAVENTRICULAR injections, *MICE
Abstract

Lafora disease is a fatal progressive myoclonus epilepsy. At root, it is due to constant acquisition of branches that are too long in a subgroup of glycogen molecules, leading them to precipitate and accumulate into Lafora bodies, which drive a neuroinflammatory response and neurodegeneration. As a potential therapy, we aimed to downregulate glycogen synthase, the enzyme responsible for glycogen branch elongation, in mouse models of the disease. We synthesized an antisense oligonucleotide (Gys1-ASO) that targets the mRNA of the brain-expressed glycogen synthase 1 gene (Gys1). We administered Gys1-ASO by intracerebroventricular injection and analysed the pathological hallmarks of Lafora disease, namely glycogen accumulation, Lafora body formation, and neuroinflammation. Gys1-ASO prevented Lafora body formation in young mice that had not yet formed them. In older mice that already exhibited Lafora bodies, Gys1-ASO inhibited further accumulation, markedly preventing large Lafora bodies characteristic of advanced disease. Inhibition of Lafora body formation was associated with prevention of astrogliosis and strong trends towards correction of dysregulated expression of disease immune and neuroinflammatory markers. Lafora disease manifests gradually in previously healthy teenagers. Our work provides proof of principle that an antisense oligonucleotide targeting the GYS1 mRNA could prevent, and halt progression of, this catastrophic epilepsy. [ABSTRACT FROM AUTHOR]

Published
2021
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20. Defining the molecular state of human cancer

Author

Sahu, Biswajyoti, Pihlajamaa, Päivi, Zhang, Kaiyang, Palin, Kimmo, Ahonen, Saija, Cervera, Alejandra, Ristimäki, Ari, Aaltonen, Lauri A., Hautaniemi, Sampsa, and Taipale, Jussi

Abstract

Cancer is the most complex genetic disease known, with mutations implicated in more than 250 genes. However, it is still elusive which specific mutations found in human patients lead to tumorigenesis. Here we show that a combination of oncogenes that is characteristic of liver cancer (CTNNB1, TERT, MYC) induces senescence in human fibroblasts and primary hepatocytes. However, reprogramming fibroblasts to a liver progenitor fate, induced hepatocytes (iHeps), makes them sensitive to transformation by the same oncogenes. The transformed iHeps are highly proliferative, tumorigenic in nude mice, and bear gene expression signatures of liver cancer. These results show that tumorigenesis is triggered by a combination of three elements: the set of driver mutations, the cellular lineage, and the state of differentiation of the cells along the lineage. Our results indicate that cell identity is a key determinant in transformation, and establish a paradigm for defining the molecular states of human cancer.

Published
2019
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23. Biallelic loss-of-function in NRAP is a cause of recessive dilated cardiomyopathy.

Author

Koskenvuo, Juha W., Saarinen, Inka, Ahonen, Saija, Tommiska, Johanna, Weckström, Sini, Seppälä, Eija H., Tuupanen, Sari, Kangas-Kontio, Tiia, Schleit, Jennifer, Heliö, Krista, Hathaway, Julie, Gummesson, Anders, Dahlberg, Pia, Ojala, Tiina H., Vepsäläinen, Ville, Kytölä, Ville, Muona, Mikko, Sistonen, Johanna, Salmenperä, Pertteli, and Gentile, Massimiliano

Subjects
DILATED cardiomyopathy, GENETIC testing, GENES, MOLECULAR diagnosis, DIAGNOSIS, IMPLANTABLE cardioverter-defibrillators, CREUTZFELDT-Jakob disease
Abstract

Background: Familial dilated cardiomyopathy (DCM) is typically a monogenic disorder with dominant inheritance. Although over 40 genes have been linked to DCM, more than half of the patients undergoing comprehensive genetic testing are left without molecular diagnosis. Recently, biallelic protein-truncating variants (PTVs) in the nebulin-related anchoring protein gene (NRAP) were identified in a few patients with sporadic DCM. Methods and results: We determined the frequency of rare NRAP variants in a cohort of DCM patients and control patients to further evaluate role of this gene in cardiomyopathies. A retrospective analysis of our internal variant database consisting of 31,639 individuals who underwent genetic testing (either panel or direct exome sequencing) was performed. The DCM group included 577 patients with either a confirmed or suspected DCM diagnosis. A control cohort of 31,062 individuals, including 25,912 individuals with non-cardiac (control group) and 5,150 with non-DCM cardiac indications (Non-DCM cardiac group). Biallelic (n = 6) or two (n = 5) NRAP variants (two PTVs or PTV+missense) were identified in 11 unrelated probands with DCM (1.9%) but none of the controls. None of the 11 probands had an alternative molecular diagnosis. Family member testing supports co-segregation. Biallelic or potentially biallelic NRAP variants were enriched in DCM vs. controls (OR 1052, p<0.0001). Based on the frequency of NRAP PTVs in the gnomAD reference population, and predicting full penetrance, biallelic NRAP variants could explain 0.25%-2.46% of all DCM cases. Conclusion: Loss-of-function in NRAP is a cause for autosomal recessive dilated cardiomyopathy, supporting its inclusion in comprehensive genetic testing. [ABSTRACT FROM AUTHOR]

Published
2021
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24. SUCLA2 Arg407Trp mutation can cause a nonprogressive movement disorder – deafness syndrome.

Author

Alkhater, Reem A., Ahonen, Saija, and Minassian, Berge A.

Subjects
*MOVEMENT disorders, *KREBS cycle, *NEUROLOGICAL disorders, *MITOCHONDRIAL DNA, *DEAFNESS, *MELAS syndrome, *HYPOPARATHYROIDISM
Abstract

SUCLA2 is a component of mitochondrial succinate‐CoA ligase and nucleotide diphosphokinase activities. Its absence results in Krebs cycle failure, mitochondrial DNA depletion, and a childhood‐fatal encephalomyopathy. We describe a purely neurologic allelic form of the disease consisting of deafness, putamenal hyperintensity on MRI and a myoclonic‐dystonic movement disorder unchanging from childhood into, so far, the late fourth decade. We show that succinate supplementation circumvents the Krebs cycle block, but does not correct the neurologic disease. Our patients' Arg407Trp mutation has been reported in children with (yet) no MRI abnormalities. It remains possible that early succinate supplementation could impact the disease. [ABSTRACT FROM AUTHOR]

Published
2021
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26. Different endophyte communities colonize buds of sprouts compared with mature trees of mountain birch recovered from moth herbivory.

Author

Koivusaari, Pirjo, Pohjanen, Johanna, Wäli, Piippa R, Ahonen, Saija H K, Saravesi, Karita, Markkola, Anna Mari, Haapala, Kaisa, Suokas, Marko, Koskimäki, Janne J, and Tejesvi, Mysore V

Subjects
ENDOPHYTES, SPROUTS, MOUNTAIN birch, WINTER moth, FOREST regeneration, XANTHOMONAS, BIODIVERSITY
Abstract

Plant meristems were previously thought to be sterile. Today, meristem-associated shoot endophytes are mainly reported as contaminants from plant tissue cultures, the number of observed species being very low. However, the few strains characterized have the capacity for infecting host cells and affecting plant growth and development. Here we studied the communities of endophytic bacteria in the buds of mountain birch (Betula pubescens ssp. czerepanovii (N. I. Orlova) Hämet-Ahti) exposed to winter moth (Operophtera brumata L.) herbivory, to identify differences between sprouts and branches of mature birch trees. Mountain birch of the high subarctic is cyclically exposed to winter moth and produces sprouts to generate new trees as a survival mechanism. The majority (54%) of operational taxonomic units belonged to Xanthomonadaceae and Pseudomonales of Proteobacteria. Most of the observed species were classified as Xanthomonas (28%). Sprout buds had the highest diversity, containing approximately three times more species, and significantly more (43%) Pseudomonas species than the mature trees (14%). Our results demonstrate that endophytic communities of buds are richer than previously thought. We suggest that the meristem-associated endophytes should be studied further for a possible role in sprouting and aiding regeneration of trees. [ABSTRACT FROM AUTHOR]

Published
2018
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28. An intronic LINE-1 insertion in MERTK is strongly associated with retinopathy in Swedish Vallhund dogs.

Author

Everson, Richard, Pettitt, Louise, Forman, Oliver P., Dower-Tylee, Olivia, McLaughlin, Bryan, Ahonen, Saija, Kaukonen, Maria, Komáromy, András M., Lohi, Hannes, Mellersh, Cathryn S., Sansom, Jane, and Ricketts, Sally L.

Subjects
RETINAL diseases, DIABETIC retinopathy, GENE expression, CHROMOSOMES, ANIMAL health, DOGS
Abstract

The domestic dog segregates a significant number of inherited progressive retinal diseases, several of which mirror human retinal diseases and which are collectively termed progressive retinal atrophy (PRA). In 2014, a novel form of PRA was reported in the Swedish Vallhund breed, and the disease was mapped to canine chromosome 17. The causal mutation was not identified, but expression analyses of the retinas of affected Vallhunds demonstrated a 6-fold increased expression of the MERTK gene compared to unaffected dogs. Using 24 retinopathy cases and 97 controls with no clinical signs of retinopathy, we replicated the chromosome 17 association in Swedish Vallhunds from the UK and aimed to elucidate the causal variant underlying this association using whole genome sequencing (WGS) of an affected dog. This revealed a 6–8 kb insertion in intron 1 of MERTK that was not present in WGS of 49 dogs of other breeds. Sequencing and BLASTN analysis of the inserted segment was consistent with the insertion comprising a full-length intact LINE-1 retroelement. Testing of the LINE-1 insertion for association with retinopathy in the UK set of 24 cases and 97 controls revealed a strong statistical association (P-value 6.0 x 10−11) that was subsequently replicated in the original Finnish study set (49 cases and 89 controls (P-value 4.3 x 10−19). In a pooled analysis of both studies (73 cases and 186 controls), the LINE-1 insertion was associated with a ~20-fold increased risk of retinopathy (odds ratio 23.41, 95% confidence intervals 10.99–49.86, P-value 1.3 x 10−27). Our study adds further support for regulatory disruption of MERTK in Swedish Vallhund retinopathy; however, further work is required to establish a functional overexpression model. Future work to characterise the mechanism by which this intronic mutation disrupts gene regulation will further improve the understanding of MERTK biology and its role in retinal function. [ABSTRACT FROM AUTHOR]

Published
2017
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29. Lafora disease in miniature Wirehaired Dachshunds.

Author

Swain, Lindsay, Key, Gill, Tauro, Anna, Ahonen, Saija, Wang, Peixiang, Ackerley, Cameron, Minassian, Berge A., and Rusbridge, Clare

Subjects
INFANTILE spasms, GENETIC mutation, MYOCLONUS, GENETIC disorders, NEUROLOGY
Abstract

Lafora disease (LD) is an autosomal recessive late onset, progressive myoclonic epilepsy with a high prevalence in the miniature Wirehaired Dachshund. The disease is due to a mutation in the Epm2b gene which results in intracellular accumulation of abnormal glycogen (Lafora bodies). Recent breed-wide testing suggests that the carrier plus affected rate may be as high as 20%. A characteristic feature of the disease is spontaneous and reflex myoclonus; however clinical signs and disease progression are not well described. A survey was submitted to owners of MWHD which were homozygous for Epm2b mutation (breed club testing program) or had late onset reflex myoclonus and clinical diagnosis of LD. There were 27 dogs (11 male; 16 female) for analysis after young mutation-positive dogs that had yet to develop disease were excluded. Average age of onset of clinical signs was 6.94 years (3.5–12). The most common initial presenting sign was reflex and spontaneous myoclonus (77.8%). Other presenting signs included hypnic myoclonus (51.9%) and generalized seizures (40.7%). Less common presenting signs include focal seizures, “jaw smacking”, “fly catching”, “panic attacks”, impaired vision, aggression and urinary incontinence. All these clinical signs may appear, and then increase in frequency and intensity over time. The myoclonus in particular becomes more severe and more refractory to treatment. Signs that developed later in the disease include dementia (51.9%), blindness (48.1%), aggression to people (25.9%) and dogs (33.3%), deafness (29.6%) and fecal (29.6%) and urinary (37.0%) incontinence as a result of loss of house training (disinhibited type behavior). Further prospective study is needed to further characterize the canine disease and to allow more specific therapeutic strategies and to tailor therapy as the disease progresses. [ABSTRACT FROM AUTHOR]

Published
2017
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30. Increased Expression of MERTK is Associated with a Unique Form of Canine Retinopathy.

Author

Ahonen, Saija J., Arumilli, Meharji, Seppälä, Eija, Hakosalo, Osmo, Kaukonen, Maria K., Komáromy, András M., and Lohi, Hannes

Subjects
*RETINAL degeneration, *DISEASE progression, *ATROPHY, *RETINITIS pigmentosa, *MAMMAL genetics, *GENE expression in mammals
Abstract

Progressive retinal degenerations are among the most common causes of blindness both in human and in dogs. Canine progressive retinal atrophy (PRA) resembles human retinitis pigmentosa (RP) and is typically characterized by a progressive loss of rod photoreceptors followed by a loss of cone function. The disease gradually progress from the loss of night and day vision to a complete blindness. We have recently described a unique form of retinopathy characterized by the multifocal gray/brown discoloration and thinning of the retina in the Swedish Vallhund (SV) breed. We aimed to identify the genetic cause by performing a genome wide association analysis in a cohort of 18 affected and 10 healthy control dogs using Illumina's canine 22k SNP array. We mapped the disease to canine chromosome 17 (p = 7.7×10−5) and found a 6.1 Mb shared homozygous region in the affected dogs. A combined analysis of the GWAS and replication data with additional 60 dogs confirmed the association (p = 4.3×10−8, OR = 11.2 for homozygosity). A targeted resequencing of the entire associated region in four cases and four controls with opposite risk haplotypes identified several variants in the coding region of functional candidate genes, such as a known retinopathy gene, MERTK. However, none of the identified coding variants followed a compelling case- or breed-specific segregation pattern. The expression analyses of four candidate genes in the region, MERTK, NPHP1, ANAPC1 and KRCC1, revealed specific upregulation of MERTK in the retina of the affected dogs. Collectively, these results indicate that the retinopathy is associated with overexpression of MERTK, however further investigation is needed to discover the regulatory mutation for the better understanding of the disease pathogenesis. Our study establishes a novel gain-of-function model for the MERTK biology and provides a therapy model for retinopathy MERTK inhibitors. Meanwhile, a marker-based genetic counseling can be developed to revise breeding programs. [ABSTRACT FROM AUTHOR]

Published
2014
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31. A Novel Missense Mutation in ADAMTS10 in Norwegian Elkhound Primary Glaucoma.

Author

Ahonen, Saija J., Kaukonen, Maria, Nussdorfer, Forrest D., Harman, Christine D., Komáromy, András M., and Lohi, Hannes

Subjects
*MISSENSE mutation, *NORWEGIANS, *GLAUCOMA, *ETIOLOGY of diseases, *PLOIDY
Abstract

Primary glaucoma is one of the most common causes of irreversible blindness both in humans and in dogs. Glaucoma is an optic neuropathy affecting the retinal ganglion cells and optic nerve, and elevated intraocular pressure is commonly associated with the disease. Glaucoma is broadly classified into primary open angle (POAG), primary closed angle (PCAG) and primary congenital glaucoma (PCG). Human glaucomas are genetically heterogeneous and multiple loci have been identified. Glaucoma affects several dog breeds but only three loci and one gene have been implicated so far. We have investigated the genetics of primary glaucoma in the Norwegian Elkhound (NE). We established a small pedigree around the affected NEs collected from Finland, US and UK and performed a genome-wide association study with 9 cases and 8 controls to map the glaucoma gene to 750 kb region on canine chromosome 20 (praw = 4.93×10−6, pgenome = 0.025). The associated region contains a previously identified glaucoma gene, ADAMTS10, which was subjected to mutation screening in the coding regions. A fully segregating missense mutation (p.A387T) in exon 9 was found in 14 cases and 572 unaffected NEs (pFisher = 3.5×10−27) with a high carrier frequency (25.3%). The mutation interrupts a highly conserved residue in the metalloprotease domain of ADAMTS10, likely affecting its functional capacity. Our study identifies the genetic cause of primary glaucoma in NEs and enables the development of a genetic test for breeding purposes. This study establishes also a new spontaneous canine model for glaucoma research to study the ADAMTS10 biology in optical neuropathy. [ABSTRACT FROM AUTHOR]

Published
2014
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32. A Novel Form of Progressive Retinal Atrophy in Swedish Vallhund Dogs.

Author

Cooper, Ann E., Ahonen, Saija, Rowlan, Jessica S., Duncan, Alison, Seppälä, Eija H., Vanhapelto, Päivi, Lohi, Hannes, and Komáromy, András M.

Subjects
*ATROPHY, *RETINAL diseases, *SWEDISH vallhund, *BLINDNESS, *RETINITIS pigmentosa, *ELECTRORETINOGRAPHY, *DIAGNOSIS
Abstract

Inherited retinal degenerations, such as retinitis pigmentosa (RP) and age-related macular degeneration (AMD), represent leading causes of incurable blindness in humans. This is also true in dogs, where the term progressive retinal atrophy (PRA) is used to describe inherited photoreceptor degeneration resulting in progressive vision loss. Because of the similarities in ocular anatomy, including the presence of a cone photoreceptor-rich central retinal region, and the close genotype-phenotype correlation, canine models contribute significantly to the understanding of retinal disease mechanisms and the development of new therapies. The screening of the pure-bred dog population for new forms of PRA represents an important strategy to establish new large animal models. By examining 324 dogs of the Swedish vallhund breed in seven countries and across three continents, we were able to describe a new and unique form of PRA characterized by the multifocal appearance of red and brown discoloration of the tapetal fundus followed over time by thinning of the retina. We propose three stages of the disease based on the appearance of the ocular fundus and associated visual deficits. Electroretinography revealed a gradual loss of both rod and cone photoreceptor-mediated function in Stages 2 and 3 of the disease. In the few dogs that suffered from pronounced vision loss, night-blindness occurred first in late Stage 2, followed by decreased day-vision in Stage 3. Histologic examinations confirmed the loss of photoreceptor cells at Stage 3, which was associated with the accumulation of autofluorescent material in the adjacent retinal pigment epithelium. Pedigree analysis was suggestive of an autosomal-recessive mode of inheritance. Mutations in six known canine retinal degeneration genes as well as hypovitaminosis E were excluded as causes of the disease. The observed variability in the age of disease onset and rate of progression suggest the presence of genetic and/or environmental disease modifiers. [ABSTRACT FROM AUTHOR]

Published
2014
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33. A CNGB1 Frameshift Mutation in Papillon and Phalène Dogs with Progressive Retinal Atrophy.

Author

Ahonen, Saija J., Arumilli, Meharji, and Lohi, Hannes

Subjects
*RETINAL degeneration, *FRAMESHIFT mutation, *PAPILLON dog, *DISEASE progression, *ETIOLOGY of diseases, *LABORATORY dogs, *PHOTORECEPTORS, *RETINITIS pigmentosa
Abstract

Progressive retinal degenerations are the most common causes of complete blindness both in human and in dogs. Canine progressive retinal atrophy (PRA) or degeneration resembles human retinitis pigmentosa (RP) and is characterized by a progressive loss of rod photoreceptor cells followed by a loss of cone function. The primary clinical signs are detected as vision impairment in a dim light. Although several genes have been associated with PRAs, there are still PRAs of unknown genetic cause in many breeds, including Papillons and Phalènes. We have performed a genome wide association and linkage studies in cohort of 6 affected Papillons and Phalènes and 14 healthy control dogs to map a novel PRA locus on canine chromosome 2, with a 1.9 Mb shared homozygous region in the affected dogs. Parallel exome sequencing of a trio identified an indel mutation, including a 1-bp deletion, followed by a 6-bp insertion in the CNGB1 gene. This mutation causes a frameshift and premature stop codon leading to probable nonsense mediated decay (NMD) of the CNGB1 mRNA. The mutation segregated with the disease and was confirmed in a larger cohort of 145 Papillons and Phalènes (PFisher = 1.4×10−8) with a carrier frequency of 17.2 %. This breed specific mutation was not present in 334 healthy dogs from 10 other breeds or 121 PRA affected dogs from 44 other breeds. CNGB1 is important for the photoreceptor cell function its defects have been previously associated with retinal degeneration in both human and mouse. Our study indicates that a frameshift mutation in CNGB1 is a cause of PRA in Papillons and Phalènes and establishes the breed as a large functional animal model for further characterization of retinal CNGB1 biology and possible retinal gene therapy trials. This study enables also the development of a genetic test for breeding purposes. [ABSTRACT FROM AUTHOR]

Published
2013
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34. Genome-Wide Association Study Identifies a Novel Canine Glaucoma Locus.

Author

Ahonen, Saija J., Pietilä, Elina, Mellersh, Cathryn S., Tiira, Katriina, Hansen, Liz, Johnson, Gary S., and Lohi, Hannes

Subjects
*GLAUCOMA, *NEUROPATHY, *MEDICAL genetics, *OPHTHALMOLOGY, *VETERINARY medicine, *ANIMAL genetics
Abstract

Glaucoma is an optic neuropathy and one of the leading causes of blindness. Its hereditary forms are classified into primary closed-angle (PCAG), primary open-angle (POAG) and primary congenital glaucoma (PCG). Although many loci have been mapped in human, only a few genes have been identified that are associated with the development of glaucoma and the genetic basis of the disease remains poorly understood. Glaucoma has also been described in many dog breeds, including Dandie Dinmont Terriers (DDT) in which it is a late-onset (>7 years) disease. We designed clinical and genetic studies to better define the clinical features of glaucoma in the DDT and to identify the genetic cause. Clinical diagnosis was based on ophthalmic examinations of the affected dogs and 18 additionally investigated unaffected DDTs. We collected DNA from over 400 DTTs and a genome wide association study was performed in a cohort of 23 affected and 23 controls, followed by a fine mapping, a replication study and candidate gene sequencing. The clinical study suggested that ocular abnormalities including abnormal iridocorneal angles and pectinate ligament dysplasia are common (50% and 72%, respectively) in the breed and the disease resembles human PCAG. The genetic study identified a novel 9.5 Mb locus on canine chromosome 8 including the 1.6 Mb best associated region (p = 1.63×10−10, OR = 32 for homozygosity). Mutation screening in five candidate genes did not reveal any causative variants. This study indicates that although ocular abnormalities are common in DDTs, the genetic risk for glaucoma is conferred by a novel locus on CFA8. The canine locus shares synteny to a region in human chromosome 14q, which harbors several loci associated with POAG and PCG. Our study reveals a new locus for canine glaucoma and ongoing molecular studies will likely help to understand the genetic etiology of the disease. [ABSTRACT FROM AUTHOR]

Published
2013
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35. ADAMTS17 mutation associated with primary lens luxation is widespread among breeds.

Author

Gould, David, Pettitt, Louise, McLaughlin, Bryan, Holmes, Nigel, Forman, Oliver, Thomas, Anne, Ahonen, Saija, Lohi, Hannes, O'Leary, Caroline, Sargan, David, and Mellersh, Cathryn

Subjects
GENETIC disorders in animals, GENETIC mutation, DOG diseases, EYE abnormalities, DOG breeds, HETEROZYGOSITY, DISEASE risk factors
Abstract

Primary lens luxation (PLL) is a well-recognized, painful and potentially blinding inherited ocular condition in dogs. We screened PLL-affected dogs of 30 different breeds, to identify those which carried a previously described c.1473+1 G>A mutation in ADAMTS17 that is associated with PLL in Miniature Bull terriers, Lancashire Heelers, and Jack Russell terriers. This ADAMTS17 mutation was identified in PLL-affected dogs from 14 additional breeds. PLL-affected dogs from some breeds (most notably the Shar pei and the Brittany spaniel) did not carry the G1473+1A ADAMTS17 mutation, indicating they must suffer from a genetically distinct form of the condition. We also estimated the frequency of this ADAMTS17 mutation in some of the breeds. Our findings indicate the mutation segregates in a large number of different breeds of dog, many of which are terriers or breeds with terrier co-ancestry, but some of which have more diverse origins. Our results also indicate that the mutation is present at high frequency within most of the breeds in which it segregates. In the miniature bull terrier breed estimates of mutation frequency ranged from 0.27 to 0.39, corresponding to 7.3-15.2% PLL-affected dogs in this breed. We also identified an increased risk of PLL associated with heterozygosity at ADAMTS17, suggesting that carriers carry a low risk of developing PLL. [ABSTRACT FROM AUTHOR]

Published
2011
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36. Mutation in HSF4 is associated with hereditary cataract in the Australian Shepherd.

Author

Mellersh, Cathryn S., McLaughlin, Bryan, Ahonen, Saija, Pettitt, Louise, Lohi, Hannes, and Barnett, Keith C.

Subjects
CATARACT, BLINDNESS, DOGS, GENETIC disorders, VETERINARY medicine
Abstract

Cataracts are a leading cause of blindness in dogs with approximately 100 breeds affected by primary hereditary forms. Despite the large number of breeds affected with hereditary cataracts (HC) little is known about the genetics of the condition, and to date only a single gene, HSF4, has been implicated in the development of the disease in dogs. We previously identified a recessively inherited 1-bp insertion in the transcription factor gene HSF4 resulting in the loss of the open reading frame in Boston terriers and Staffordshire bull terriers. While testing the insertion mutation in other breeds with HC, we identified a 1-bp deletion at the same nucleotide of HSF4 in some Australian Shepherds with cataract. Using DNA samples from almost 400 privately owned Australian Shepherds we have investigated the association between the deletion mutation in HSF4 and cataracts in this breed. We conclude that the mutation is significantly associated with cataracts and that a dog carrying the mutation is approximately 17 times more likely to develop binocular cataracts than dogs that are clear of the mutation. The data also indicate that additional mutations associated with the development of cataracts are likely to be co-segregating in the Australian Shepherd population. [ABSTRACT FROM AUTHOR]

Published
2009
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37. Canine Lafora Disease: An Unstable Repeat Expansion Disorder.

Author

von Klopmann, Thilo, Ahonen, Saija, Espadas-Santiuste, Irene, Matiasek, Kaspar, Sanchez-Masian, Daniel, Rupp, Stefan, Vandenberghe, Helene, Rose, Jeremy, Wang, Travis, Wang, Peixiang, Minassian, Berge Arakel, and Rusbridge, Clare

Subjects
*DOG breeds, *UBIQUITIN ligases, *COGNITIVE ability, *ANIMAL breeds, *VISION disorders, *AUTOPSY
Abstract

Canine Lafora disease is a recessively inherited, rapidly progressing neurodegenerative disease caused by the accumulation of abnormally constructed insoluble glycogen Lafora bodies in the brain and other tissues due to the loss of NHL repeat containing E3 ubiquitin protein ligase 1 (NHLRC1). Dogs have a dodecamer repeat sequence within the NHLRC1 gene, which is prone to unstable (dynamic) expansion and loss of function. Progressive signs of Lafora disease include hypnic jerks, reflex and spontaneous myoclonus, seizures, vision loss, ataxia and decreased cognitive function. We studied five dogs (one Chihuahua, two French Bulldogs, one Griffon Bruxellois, one mixed breed) with clinical signs associated with canine Lafora disease. Identification of polyglucosan bodies (Lafora bodies) in myocytes supported diagnosis in the French Bulldogs; muscle areas close to the myotendinous junction and the myofascial union segment had the highest yield of inclusions. Postmortem examination of one of the French Bulldogs revealed brain Lafora bodies. Genetic testing for the known canine NHLRC1 mutation confirmed the presence of a homozygous mutation associated with canine Lafora disease. Our results show that Lafora disease extends beyond previous known breeds to the French Bulldog, Griffon Bruxellois and even mixed-breed dogs, emphasizing the likely species-wide nature of this genetic problem. It also establishes these breeds as animal models for the devastating human disease. Genetic testing should be used when designing breeding strategies to determine the frequency of the NHLRC1 mutation in affected breeds. Lafora diseases should be suspected in any older dog presenting with myoclonus, hypnic jerks or photoconvulsions. [ABSTRACT FROM AUTHOR]

Published
2021
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38. Streams and riparian forests depend on each other: A review with a special focus on microbes.

Author

Tolkkinen, Mari J., Heino, Jani, Ahonen, Saija H.K., Lehosmaa, Kaisa, and Mykrä, Heikki

Subjects
RIPARIAN forests, BIOGEOCHEMICAL cycles, TAIGAS, BUFFER zones (Ecosystem management), RIPARIAN areas, RIVERS
Abstract

• The two-way dependency of streams and their riparian forests is reviewed. • We focus on biodiversity and ecosystem functions, including microbial processes. • Land use and climate change effects on riparian and stream ecosystems are discussed. • Potential management and protection practices are overviewed. • Future research questions are drawn together. In this review, we draw together the research on the two-way connection of streams and their riparian forests of the boreal zone from ecological points of view. Although the knowledge about stream-riparian interactions has increased considerably recently, in practice, riparian zones are still mainly seen as buffers for nutrient and sediment loading. However, recent research has shown that riparian forests disproportionately foster regional biodiversity and maintain stream ecosystem functions and diversity. On the other hand, streams contribute to riparian diversity and ecosystem functions. Microbes are key drivers of global biochemical cycles, and they also interact with plants and animals. The knowledge on microbial communities and understanding of processes they drive has considerably increased due to recent development in microbial profiling methods. However, microbes have been largely neglected in former reviews. Thus, this overview has a special focus on the role of microorganisms in controlling stream-riparian interaction. We also review the land-use pressures that are threatening biodiversity and ecosystem processes of riparian zones in forested landscapes. In addition, we review the possible effects of climate change on stream-riparian interactions. Finally, we outline the research gaps that call for future research. [ABSTRACT FROM AUTHOR]

Published
2020
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39. Encroachment of shrubs into subalpine grasslands in the Pyrenees modifies the structure of soil fungal communities and soil properties.

Author

Grau, Oriol, Saravesi, Karita, Ninot, Josep M, Geml, József, Markkola, Annamari, Ahonen, Saija HK, and Peñuelas, Josep

Subjects
FUNGAL communities, SOIL structure, ECTOMYCORRHIZAS, GRASSLANDS, SHRUBS, SOILS
Abstract

The encroachment of shrubs into grasslands is common in terrestrial ecosystems dominated by grass. Land abandonment and favourable climatic trends in recent decades have favoured the expansion of shrubs into subalpine grasslands in many mountainous regions across Europe. The advance of the succession from grassland to shrubland is expected to have a major impact on ecosystem functioning. We used DNA metabarcoding to assess whether the structure of soil fungal communities varied along the succession from subalpine grassland to shrubland in the Pyrenees, and investigated whether shrub encroachment was associated with changes in soil properties. The expansion of shrubs increased the soil C:N ratio and/or reduced the N, P or K contents. Plant-driven changes in soil properties were strongly associated with the compositional turnover of fungi, including arbuscular mycorrhizal, ectomycorrhizal, ericoid, root endophytic, saprotrophic, lichenised and pathogenic fungi. Total richness and the richness of most functional groups were correlated with soil P, N and the C:N or N:P ratios. We show that the interplay between abiotic factors (changes in soil properties) and biotic factors (occurrence and identity of shrubs) played a key role in the structure and uniqueness of soil fungal communities along the succession. [ABSTRACT FROM AUTHOR]

Published
2019
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40. Dynamics of fungal endophytic communities in bilberry (Vaccinium myrtillus L.) fruits through development is shaped by host phenolic compounds.

Author

Nguyen MP, Lehosmaa K, Martz F, Koskimäki JJ, Toth K, Ahonen SHK, Häggman H, and Pirttilä AM

Subjects
Fruit microbiology, Vaccinium myrtillus microbiology, Endophytes genetics, Endophytes isolation & purification, Endophytes classification, Endophytes metabolism, Fungi genetics, Fungi classification, Fungi isolation & purification, Fungi growth & development, Phenols metabolism, Mycobiome
Abstract

The physical and chemical properties of wild berry fruits change dramatically during development, and the ripe berries host species-specific endophytic communities. However, the development of fungal endophytic communities during berry ripening is unknown. We studied bilberries (Vaccinium myrtillus L.), valuable natural resources in northern Europe and richest sources of phenolic compounds, to characterize dynamics of the fungal communities over fruit developmental stages (raw, veraison, and ripe). Our focus was to examine the changes in the fruit phenolic compounds associated with the fungal community structure using liquid chromatography-mass spectrometry for phenolic compounds and high-throughput sequencing technology targeting the internal transcribed spacer 2 ribosomal DNA region for endophytic fungi. We found that the fungal diversity increased with the ripening stages. The fungal profile changed dramatically through fruit development, and the veraison stage was a transition stage, where the core mycobiome of fruits changed. The fungal community structure and abundance of the most dominant genera in raw and ripe stages, Monilinia and Cladosporium, respectively, were driven by the bilberry phenolic profile. We conclude that sampling time, tissue age, and phenolic compounds play important roles in the development of fruit fungal community. Moreover, phenolic compounds could be the host's strategy to recruit beneficial microbes., (© The Author(s) 2024. Published by Oxford University Press on behalf of FEMS.)

Published
2025
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41. GRINL1A Complex Transcription Unit Containing GCOM1, MYZAP, and POLR2M Genes Associates with Fully Penetrant Recessive Dilated Cardiomyopathy.

Author

Heliö K, Mäyränpää MI, Saarinen I, Ahonen S, Junnila H, Tommiska J, Weckström S, Holmström M, Toivonen M, Nikus K, Hathaway J, Siivonen P, Muona M, Sistonen J, Salmenperä P, Gentile M, Paananen J, Myllykangas S, Alastalo TP, Heliö T, and Koskenvuo J

Abstract

Background: Familial dilated cardiomyopathy (DCM) is a monogenic disorder typically inherited in an autosomal dominant pattern. We have identified two Finnish families with familial cardiomyopathy that is not explained by a variant in any previously known cardiomyopathy gene. We describe the cardiac phenotype related to homozygous truncating GCOM1 variants. Methods and Results: This study included two probands and their relatives. All the participants are of Finnish ethnicity. Whole-exome sequencing was used to test the probands; bi-directional Sanger sequencing was used to identify the GCOM1 variants in probands' family members. Clinical evaluation was performed, medical records and death certificates were obtained. Immunohistochemical analysis of myocardial samples was conducted. A homozygous GCOM1 variant was identified altogether in six individuals, all considered to be affected. None of the nine heterozygous family members fulfilled any cardiomyopathy criteria. Heart failure was the leading clinical feature, and the patients may have had a tendency for atrial arrhythmias. Conclusions: This study demonstrates the significance of GCOM1 variants as a cause of human cardiomyopathy and highlights the importance of searching for new candidate genes when targeted gene panels do not yield a positive outcome., Competing Interests: Authors IS, SA, HJ, JT, MT, JH, PS, MMU, JS, PS, MG, JP, SM, T-PA, and JK were employed by the company Blueprint Genetics, A Quest Diagnostics Company. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Heliö, Mäyränpää, Saarinen, Ahonen, Junnila, Tommiska, Weckström, Holmström, Toivonen, Nikus, Hathaway, Siivonen, Muona, Sistonen, Salmenperä, Gentile, Paananen, Myllykangas, Alastalo, Heliö and Koskenvuo.)

Published
2021
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42. Update on Pharmacological Treatment of Progressive Myoclonus Epilepsies.

Author

Ferlazzo E, Trenite DK, Haan GJ, Felix Nitschke F, Ahonen S, Gasparini S, and Minassian BA

Subjects
Animals, Humans, Anticonvulsants therapeutic use, Myoclonic Epilepsies, Progressive drug therapy, Myoclonic Epilepsies, Progressive pathology
Abstract

Background: Progressive myoclonus epilepsies (PMEs) are a group of rare inherited diseases featuring a combination of myoclonus, seizures and variable degree of cognitive impairment. Despite extensive investigations, a large number of PMEs remain undiagnosed. In this review, we focus on the current pharmacological approach to PMEs., Methods: References were mainly identified through PubMed search until February 2017 and backtracking of references in pertinent studies., Results: The majority of available data on the efficacy of antiepileptic medications in PMEs are primarily anecdotal or observational, based on individual responses in small series. Valproic acid is the drug of choice, except for PMEs due to mitochondrial diseases. Levetiracetam and clonazepam should be considered as the first add-on treatment. Zonisamide and perampanel represent promising alternatives. Phenobarbital and primidone should be reserved to patients with resistant disabling myoclonus or seizures. Lamotrigine should be used with caution due to its unpredictable effect on myoclonus. Avoidance of drugs known to aggravate myoclonus and seizures, such as carbamazepine and phenytoin, is paramount. Psychiatric (in particular depression) and other comorbidities need to be adequately managed. Although a 3- to 4-drug regimen is often necessary to control seizures and myoclonus, particular care should be paid to avoid excessive pharmacological load and neurotoxic side effects. Target therapy is possible only for a minority of PMEs., Conclusions: Overall, the treatment of PMEs remains symptomatic (i.e. pharmacological treatment of seizures and myoclonus). Further dissection of the genetic background of the different PMEs might hopefully help in the future with individualised treatment options., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.)

Published
2017
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43. Canine MPV17 truncation without clinical manifestations.

Author

Hänninen RL, Ahonen S, Màrquez M, Myöhänen MJ, Hytönen MK, and Lohi H

Abstract

Mitochondrial DNA depletion syndromes (MDS) are often serious autosomal recessively inherited disorders characterized by tissue-specific mtDNA copy number reduction. Many genes, including MPV17, are associated with the hepatocerebral form of MDS. MPV17 encodes for a mitochondrial inner membrane protein with a poorly characterized function. Several MPV17 mutations have been reported in association with a heterogeneous group of early-onset manifestations, including liver disease and neurological problems. Mpv17-deficient mice present renal and hearing defects. We describe here a MPV17 truncation mutation in dogs. We found a 1-bp insertion in exon 4 of the MPV17 gene, resulting in a frameshift and early truncation of the encoded protein. The mutation halves MPV17 expression in the lymphocytes of the homozygous dogs and the truncated protein is not translated in transfected cells. The insertion mutation is recurrent and exists in many unrelated breeds, although is highly enriched in the Boxer breed. Unexpectedly, despite the truncation of MPV17, we could not find any common phenotypes in the genetically affected dogs. The lack of observable phenotype could be due to a late onset, mild symptoms or potential tissue-specific compensatory mechanisms. This study suggests species-specific differences in the manifestation of the MPV17 defects and establishes a novel large animal model to further study MPV17 function and role in mitochondrial biology., (© 2015. Published by The Company of Biologists Ltd.)

Published
2015
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44. Assessment of canine BEST1 variations identifies new mutations and establishes an independent bestrophinopathy model (cmr3).

Author

Zangerl B, Wickström K, Slavik J, Lindauer SJ, Ahonen S, Schelling C, Lohi H, Guziewicz KE, and Aguirre GD

Subjects
Amino Acid Sequence, Animals, Base Sequence, Breeding, DNA Mutational Analysis, Dogs, Eye Proteins chemistry, Female, Fundus Oculi, Genetic Association Studies, Genome genetics, Male, Models, Biological, Molecular Sequence Data, Pedigree, Phenotype, Retina pathology, Disease Models, Animal, Eye Proteins genetics, Mutation genetics, Retinal Diseases genetics
Abstract

Purpose: Mutations in bestrophin 1 (BEST1) are associated with a group of retinal disorders known as bestrophinopathies in man and canine multifocal retinopathies (cmr) in the dog. To date, the dog is the only large animal model suitable for the complex characterization and in-depth studies of Best-related disorders. In the first report of cmr, the disease was described in a group of mastiff-related breeds (cmr1) and the Coton de Tulear (cmr2). Additional breeds, e.g., the Lapponian herder (LH) and others, subsequently were recognized with similar phenotypes, but linked loci are unknown. Analysis of the BEST1 gene aimed to identify mutations in these additional populations and extend our understanding of genotype-phenotype associations., Methods: Animals were subjected to routine eye exams, phenotypically characterized, and samples were collected for molecular studies. Known BEST1 mutations were assessed, and the canine BEST1 coding exons were amplified and sequenced in selected individuals that exhibited a cmr compatible phenotype but that did not carry known mutations. Resulting sequence changes were genotyped in several different breeds and evaluated in the context of the phenotype., Results: Seven novel coding variants were identified in exon 10 of cBEST1. Two linked mutations were associated with cmr exclusive to the LH breed (cmr3). Two individuals of Jämthund and Norfolk terrier breeds were heterozygous for two conservative changes, but these were unlikely to have disease-causing potential. Another three substitutions were found in the Bernese mountain dog that were predicted to have a deleterious effect on protein function. Previously reported mutations were excluded from segregation in these populations, but cmr1 was confirmed in another mastiff-related breed, the Italian cane corso., Conclusions: A third independent canine model for human bestrophinopathies has been established in the LH breed. While exhibiting a phenotype comparable to cmr1 and cmr2, the novel cmr3 mutation is predicted to be based on a distinctly different molecular mechanism. So far cmr2 and cmr3 are exclusive to a single dog breed each. In contrast, cmr1 is found in multiple related breeds. Additional sequence alterations identified in exon 10 of cBEST1 in other breeds exhibit potential disease-causing features. The inherent genetic and phenotypic variation observed with retinal disorders in canines is complicated further by cmr3 being one of four distinct genetic retinal traits found to segregate in LH. Thus, a combination of phenotypic, molecular, and population analysis is required to establish a strong phenotype-genotype association. These results indicate that cmr has a larger impact on the general dog population than was initially suspected. The complexity of these models further confirms the similarity to human bestrophinopathies. Moreover, analyses of multiple canine models will provide additional insight into the molecular basis underlying diseases caused by mutations in BEST1.

Published
2010

45. An ADAMTS17 splice donor site mutation in dogs with primary lens luxation.

Author

Farias FH, Johnson GS, Taylor JF, Giuliano E, Katz ML, Sanders DN, Schnabel RD, McKay SD, Khan S, Gharahkhani P, O'Leary CA, Pettitt L, Forman OP, Boursnell M, McLaughlin B, Ahonen S, Lohi H, Hernandez-Merino E, Gould DJ, Sargan DR, and Mellersh C

Subjects
Animals, Chromosome Mapping, Dogs, Genome-Wide Association Study, Genotype, Humans, Phenotype, Polymorphism, Single Nucleotide, RNA Splice Sites genetics, ADAM Proteins genetics, Dog Diseases genetics, Lens Subluxation genetics, Lens Subluxation veterinary, Weill-Marchesani Syndrome genetics
Abstract

Purpose: To identify the genetic cause of isolated canine ectopia lentis, a well-characterized veterinary disease commonly referred to as primary lens luxation (PLL) and to compare the canine disease with a newly described human Weill-Marchesani syndrome (WMS)-like disease of similar genetic etiology., Methods: Genomewide association analysis and fine mapping by homozygosity were used to identify the chromosomal segment harboring the PLL locus. The resequencing of a regional candidate gene was used to discover a mutation in a splice donor site predicted to cause exon skipping. Exon skipping was confirmed by reverse transcription-polymerase chain reaction amplification of RNA isolated from PLL-affected eyes and from skin fibroblast cultures from PLL-affected dogs. An allelic discrimination assay was used to genotype individual dogs at the splice donor site mutation., Results: The PLL locus was mapped to a 664-kb region of canine chromosome 3 containing regional candidate gene ADAMTS17. Resequencing ADAMTS17 revealed a GT-->AT splice-donor-site mutation at the 5' end of intron 10. The predicted exon 10 skipping and resultant frame shift were confirmed with RNA derived from PLL-affected dogs. The ADAMTS17 mutation was significantly associated with clinical PLL in three different dog breeds., Conclusions: A truncating mutation in canine ADAMTS17 causes PLL, a well-characterized veterinary disease, which can now be compared to a recently described rare WMS-like disease caused by truncating mutations of the human ADAMTS17 ortholog.

Published
2010
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