Monika Baxa scite author profile

Background: Huntington's disease is induced by CAG expansion in a single gene coding the huntingtin protein. The mutated huntingtin (mtHtt) primarily causes degeneration of neurons in the brain, but it also affects peripheral tissues, including testes. Objective: We studied sperm and testes of transgenic boars expressing the N-terminal region of human mtHtt. Methods: In this study, measures of reproductive parameters and electron microscopy (EM) images of spermatozoa and testes of transgenic (TgHD) and wild-type (WT) boars of F1 (24-48 months old) and F2 (12-36 months old) generations were compared. In addition, immunofluorescence, immunohistochemistry, Western blot, hormonal analysis and whole-genome sequencing were done in order to elucidate the effects of mtHtt. Results: Evidence for fertility failure of both TgHD generations was observed at the age of 13 months. Reproductive parameters declined and progressively worsened with age. EM revealed numerous pathological features in sperm tails and in testicular epithelium from 24- and 36-month-old TgHD boars. Moreover, immunohistochemistry confirmed significantly lower proliferation activity of spermatogonia in transgenic testes. mtHtt was highly expressed in spermatozoa and testes of TgHD boars and localized in all cells of seminiferous tubules. Levels of fertility-related hormones did not differ in TgHD and WT siblings. Genome analysis confirmed that insertion of the lentiviral construct did not interrupt any coding sequence in the pig genome. Conclusions: The sperm and testicular degeneration of TgHD boars is caused by gain-of-function of the highly expressed mtHtt.

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A26 Transgenic miniature pig as an animal model for Huntington's disease

Baxa

Juhás

Pavlok

et al. 2010

J Neurol Neurosurg Psychiatry

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Huntington's disease (HD) is an inherited neurodegenerative disorder, characterised by psychiatric changes, cognitive disonance and motoric dysfunctions. The mutation responsible for this fatal disease is an abnormally expanded polyQ repeat within the gene encoding the huntingtin (htt) protein. Unfortunately, there is no specific cure available to stop disease progression. Numerous drugs have been developed to produce benefits in this disease, however, preclinical tests are required for confirmation of their effectiveness in treating HD. There are different animal models, each model with its own advantages and limitations, but there is still a huge demand for large animal models for testing the possibilities of HD therapies. As the extensive neuroanatomical and physiological studies indicate, a close similarity of the miniature pig brain to the human brain exists in term of neurochemical and neurotransmitter repertoire. Hence we chose this model for the generation of a transgenic model of HD. Lentiviral constructs encoding N terminal truncated (548aa) htt with 145 polyQ repeats under the control of human HD promoter were microinjected into the one cell stage embryos. The offspring born after embryo transfer were genotyped and one female piglet was transgenic. Both mutant htt incorporation into genome and its mRNA expression were proved using PCR. Western blot analysis confirmed the presence of the mutant htt protein. The transgenic gilt was mated with its brother to produce F1 generation. Three of eight newborn piglets are transgenic. The suitable and publicly acceptable large animal model of HD that can serve to validate the efficacy of treatment approaches targeted to modulate HD was generated. Mutant htt gene incorporated into porcine genome is not only transcribed into mRNA but is also expressed at the protein level. HD transgenic miniature gilt successfully conceived and delivered eight healthy offsprings. Three male piglets are transgenic in the litter.

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A transgenic minipig model of Huntington's disease shows early signs of behavioral and molecular pathologies

Askeland

Rodinová

Stufkova

et al. 2018

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Huntington's disease (HD) is a monogenic, progressive, neurodegenerative disorder with currently no available treatment. The Libechov transgenic minipig model for HD (TgHD) displays neuroanatomical similarities to humans and exhibits slow disease progression, and is therefore more powerful than available mouse models for the development of therapy. The phenotypic characterization of this model is still ongoing, and it is essential to validate biomarkers to monitor disease progression and intervention. In this study, the behavioral phenotype (cognitive, motor and behavior) of the TgHD model was assessed, along with biomarkers for mitochondrial capacity, oxidative stress, DNA integrity and DNA repair at different ages (24, 36 and 48 months), and compared with age-matched controls. The TgHD minipigs showed progressive accumulation of the mutant huntingtin (mHTT) fragment in brain tissue and exhibited locomotor functional decline at 48 months. Interestingly, this neuropathology progressed without any significant age-dependent changes in any of the other biomarkers assessed. Rather, we observed genotype-specific effects on mitochondrial DNA (mtDNA) damage, mtDNA copy number, 8-oxoguanine DNA glycosylase activity and global level of the epigenetic marker 5-methylcytosine that we believe is indicative of a metabolic alteration that manifests in progressive neuropathology. Peripheral blood mononuclear cells (PBMCs) were relatively spared in the TgHD minipig, probably due to the lack of detectable mHTT. Our data demonstrate that neuropathology in the TgHD model has an age of onset of 48 months, and that oxidative damage and electron transport chain impairment represent later states of the disease that are not optimal for assessing interventions..

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Transgenic minipig model of Huntington's disease exhibiting gradually progressing neurodegeneration

Ardan

Baxa

Levinská

et al. 2019

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Recently developed therapeutic approaches for the treatment of Huntington's disease (HD) require preclinical testing in large animal models. The minipig is a suitable experimental animal because of its large gyrencephalic brain, body weight of 70-100 kg, long lifespan, and anatomical, physiological and metabolic resemblance to humans. The Libechov transgenic minipig model for HD (TgHD) has proven useful for proof of concept of developing new therapies. However, to evaluate the efficacy of different therapies on disease progression, a broader phenotypic characterization of the TgHD minipig is needed. In this study, we analyzed the brain tissues of TgHD minipigs at the age of 48 and 60-70 months, and compared them to wild-type animals. We were able to demonstrate not only an accumulation of different forms of mutant huntingtin (mHTT) in TgHD brain, but also pathological changes associated with cellular damage caused by mHTT. At 48 months, we detected pathological changes that included the demyelination of brain white matter, loss of function of striatal neurons in the putamen and activation of microglia. At 60-70 months, we found a clear marker of neurodegeneration: significant cell loss detected in the caudate nucleus, putamen and cortex. This was accompanied by clusters of structures accumulating in the neurites of some neurons, a sign of their degeneration that is also seen in Alzheimer's disease, and a significant activation of astrocytes. In summary, our data demonstrate age-dependent neuropathology with later onset of neurodegeneration in TgHD minipigs.

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Gradual Phenotype Development in Huntington Disease Transgenic Minipig Model at 24 Months of Age

et al. 2018

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Background: Huntington disease (HD) is an incurable neurodegenerative disease caused by the expansion of a polyglutamine sequence in a gene encoding the huntingtin (Htt) protein, which is expressed in almost all cells of the body. In addition to small animal models, new therapeutic approaches (including gene therapy) require large animal models as their large brains are a more realistic model for translational research. Objective: In this study, we describe phenotype development in transgenic minipigs (TgHD) expressing the N-terminal part of mutated human Htt at the age of 24 months. Methods: TgHD and wild-type littermates were compared. Western blot analysis and subcellular fractionation of different tissues was used to determine the fragmentation of Htt. Immunohistochemistry and optical analysis of coronal sections measuring aggregates, Htt expression, neuroinflammation, and myelination was applied. Furthermore, the expression of Golgi protein acyl-CoA binding domain containing 3 (ACBD3) was analyzed. Results: We found age-correlated Htt fragmentation in the brain. Among various tissues studied, the testes displayed the highest fragmentation, with Htt fragments detectable even in cell nuclei. Also, Golgi protein ACBD3 was upregulated in testes, which is in agreement with previously reported testicular degeneration in TgHD minipigs. Nevertheless, the TgHD-specific mutated Htt fragments were also present in the cytoplasm of striatum and cortex cells. Moreover, microglial cells were activated and myelination was slightly decreased, suggesting the development of a premanifest stage of neurodegeneration in TgHD minipigs. Conclusions: The gradual development of a neurodegenerative phenotype, accompanied with testicular degeneration, is observed in 24- month-old TgHD minipigs.

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Instrumented pig gait analysis: State-of-the-art

Neťuková

Duspivová

Tesar

et al. 2021

Journal of Veterinary Behavior

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Longitudinal study revealing motor, cognitive and behavioral decline in a transgenic minipig model of Huntington's disease

Baxa

Levinská

Skrivankova

et al. 2019

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Huntington's disease (HD) is an inherited devastating neurodegenerative disease with no known cure to date. Several therapeutic treatments for HD are in development, but their safety, tolerability and efficacy need to be tested before translation to bedside. The monogenetic nature of this disorder has enabled the generation of transgenic animal models carrying a mutant huntingtin (mHTT) gene causing HD. A large animal model reflecting disease progression in humans would be beneficial for testing the potential therapeutic approaches. Progression of the motor, cognitive and behavioral phenotype was monitored in transgenic Huntington's disease minipigs (TgHD) expressing the N-terminal part of human mHTT. New tests were established to investigate physical activity by telemetry, and to explore the stress-induced behavioral and cognitive changes in minipigs. The longitudinal study revealed significant differences between 6-to 8-year-old TgHD animals and their wildtype (WT) controls in a majority of the tests. The telemetric study showed increased physical activity of 4.6-to 6.5-year-old TgHD boars compared to their WT counterparts during the lunch period as well as in the afternoon. Our phenotypic study indicates progression in adult TgHD minipigs and therefore this model could be suitable for longstanding preclinical studies of HD.

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Monika Baxa

A Transgenic Minipig Model of Huntington's Disease

Mutated Huntingtin Causes Testicular Pathology in Transgenic Minipig Boars

A26 Transgenic miniature pig as an animal model for Huntington's disease

A transgenic minipig model of Huntington's disease shows early signs of behavioral and molecular pathologies

Transgenic minipig model of Huntington's disease exhibiting gradually progressing neurodegeneration

Gradual Phenotype Development in Huntington Disease Transgenic Minipig Model at 24 Months of Age

Instrumented pig gait analysis: State-of-the-art

Longitudinal study revealing motor, cognitive and behavioral decline in a transgenic minipig model of Huntington's disease

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