Your search keyword '"Mejia Maza, Alan"' showing total 9 results

1. Dissecting pathology in mouse models in Amyotrophic Lateral Sclerosis and Charcot-Marie-Tooth disease

Author

Mejia Maza, Alan Jesus

Subjects

616.8

Abstract

Neuromuscular junctions (NMJs) are the synapses connecting motor neurons to muscle fibres. Dysfunction of the NMJ has been implicated in the pathology of amyotrophic lateral sclerosis (ALS) and Charcot-Marie- Tooth (CMT) disease, partly due to the progressive loss of skeletal muscle control in these disorders, and due to the common final NMJ phenotype, regardless of the genetic mutation. These motor system diseases are associated with skeletal muscle fibre and protein pathologies in the central or peripheral nervous system. Modelling NMJ dysfunction using mouse models is important for us to investigate pathological mechanisms and to identify how gene mutations involved in diverse biological functions lead to a common NMJ phenotype. However, NMJ structural studies are based mostly on manual analysis with potential intra- and inter-rater variability, limiting reproducibility. Methods: Mouse models of ALS and CMT were investigated, each containing a single mutation caused by transgenic or knock-in technology or chemical mutagenesis. We carried out an extensive pathological analysis in the nervous tissues and hindlimb muscles in the ALS mice and NMJ studies in both ALS and CMT mice. The NMJ studies were further developed by creating a python- script coupled to a machine learning algorithm. Results and discussion: To address the subjective nature of manual NMJ analysis, we developed a novel high-throughput screening method for NMJ structural analysis and a machine learning system for automatic identification of NMJ innervation status. Using this system, ‘NMJ analyser’ we have identified changes in multiple morphological parameters across ALS and CMT mouse strains supporting the idea that the NMJ denervation process seems to be different in these models. Furthermore, within FUS-ALS mice, we did not find upper motor neuron loss and gliosis in the motor cortex nor fibretype pathology at multiple timepoints analysed. Our results lead to a 1) more comprehensive and precise study of NMJ pathology, 2) systematic study of NMJs in mice and 3) precise identification of NMJ morphological changes across different mouse models with NMJ pathology. Further understanding of NMJ denervation process could lead to novel and earlier therapeutic interventions in patients where NMJ pathology is observed.

Published

2020

2. Correction to: Tissue-specific and repeat length-dependent somatic instability of the X-linked dystonia parkinsonism-associated CCCTCT repeat

Author

Campion, Lindsey N., Mejia Maza, Alan, Yadav, Rachita, Penney, Ellen B., Murcar, Micaela G., Correia, Kevin, Gillis, Tammy, Fernandez-Cerado, Cara, Velasco-Andrada, M. Salvie, Legarda, G. Paul, Ganza-Bautista, Niecy G., Lagarde, J. Benedict B., Acuña, Patrick J., Multhaupt-Buell, Trisha, Aldykiewicz, Gabrielle, Supnet, Melanie L., De Guzman, Jan K., Go, Criscely, Sharma, Nutan, Munoz, Edwin L., Ang, Mark C., Diesta, Cid Czarina E., Bragg, D. Cristopher, Ozelius, Laurie J., and Wheeler, Vanessa C.

Published

2022

3. Tissue-specific and repeat length-dependent somatic instability of the X-linked dystonia parkinsonism-associated CCCTCT repeat

Author

Campion, Lindsey N., Mejia Maza, Alan, Yadav, Rachita, Penney, Ellen B., Murcar, Micaela G., Correia, Kevin, Gillis, Tammy, Fernandez-Cerado, Cara, Velasco-Andrada, M. Salvie, Legarda, G. Paul, Ganza-Bautista, Niecy G., Lagarde, J. Benedict B., Acuña, Patrick J., Multhaupt-Buell, Trisha, Aldykiewicz, Gabrielle, Supnet, Melanie L., De Guzman, Jan K., Go, Criscely, Sharma, Nutan, Munoz, Edwin L., Ang, Mark C., Diesta, Cid Czarina E., Bragg, D. Cristopher, Ozelius, Laurie J., and Wheeler, Vanessa C.

Published

2022

4. NMJ-Analyser identifies subtle early changes in mouse models of neuromuscular disease

Author

Mejia Maza, Alan, Jarvis, Seth, Lee, Weaverly Colleen, Cunningham, Thomas J., Schiavo, Giampietro, Secrier, Maria, Fratta, Pietro, Sleigh, James N., Fisher, Elizabeth M. C., and Sudre, Carole H.

Published

2021

5. Mice with endogenous TDP‐43 mutations exhibit gain of splicing function and characteristics of amyotrophic lateral sclerosis

Author

Fratta, Pietro, Sivakumar, Prasanth, Humphrey, Jack, Lo, Kitty, Ricketts, Thomas, Oliveira, Hugo, Brito‐Armas, Jose M, Kalmar, Bernadett, Ule, Agnieszka, Yu, Yichao, Birsa, Nicol, Bodo, Cristian, Collins, Toby, Conicella, Alexander E, Mejia Maza, Alan, Marrero‐Gagliardi, Alessandro, Stewart, Michelle, Mianne, Joffrey, Corrochano, Silvia, Emmett, Warren, Codner, Gemma, Groves, Michael, Fukumura, Ryutaro, Gondo, Yoichi, Lythgoe, Mark, Pauws, Erwin, Peskett, Emma, Stanier, Philip, Teboul, Lydia, Hallegger, Martina, Calvo, Andrea, Chiò, Adriano, Isaacs, Adrian M, Fawzi, Nicolas L, Wang, Eric, Housman, David E, Baralle, Francisco, Greensmith, Linda, Buratti, Emanuele, Plagnol, Vincent, Fisher, Elizabeth MC, and Acevedo‐Arozena, Abraham

Published

2018

6. Humanized mutant FUS drives progressive motor neuron degeneration without aggregation in ‘FUSDelta14’ knockin mice

Author

Devoy, Anny, Kalmar, Bernadett, Stewart, Michelle, Park, Heesoon, Burke, Beverley, Noy, Suzanna J, Redhead, Yushi, Humphrey, Jack, Lo, Kitty, Jaeger, Julian, Mejia Maza, Alan, Sivakumar, Prasanth, Bertolin, Cinzia, Soraru, Gianni, Plagnol, Vincent, Greensmith, Linda, Acevedo Arozena, Abraham, Isaacs, Adrian M, Davies, Benjamin, Fratta, Pietro, and Fisher, Elizabeth M C

Published

2017

7. Additional file 1 of Tissue-specific and repeat length-dependent somatic instability of the X-linked dystonia parkinsonism-associated CCCTCT repeat

Author

Campion, Lindsey N., Mejia Maza, Alan, Yadav, Rachita, Penney, Ellen B., Murcar, Micaela G., Correia, Kevin, Gillis, Tammy, Fernandez-Cerado, Cara, Velasco-Andrada, M. Salvie, Legarda, G. Paul, Ganza-Bautista, Niecy G., Lagarde, J. Benedict B., Acuña, Patrick J., Multhaupt-Buell, Trisha, Aldykiewicz, Gabrielle, Supnet, Melanie L., De Guzman, Jan K., Go, Criscely, Sharma, Nutan, Munoz, Edwin L., Ang, Mark C., Diesta, Cid Czarina E., Bragg, D. Cristopher, Ozelius, Laurie J., and Wheeler, Vanessa C.

Abstract

Additional file 1. Tables S1–S7.

Published

2022

8. Faculty Opinions recommendation of Apical dendrite degeneration, a novel cellular pathology for Betz cells in ALS.

Author

Fisher, Elizabeth, primary and Mejia Maza, Alan, additional

Published

2017

9. Axonal swellings and spheroids: a new insight into the pathology of neurocysticercosis.

Author

Mejia Maza, Alan, Carmen‐Orozco, Rogger P., Carter, Emma S, Dávila‐Villacorta, Danitza G., Castillo, Gino, Morales, Jemina D., Mamani, Javier, Gavídia, Cesar M, Alroy, Joseph, Sterling, Charles R., Gonzalez, Armando E., García, Héctor H., Woltjer, Randy L., Verástegui, Manuela R., and Gilman, Robert H.

Subjects

*NEUROCYSTICERCOSIS, *AMYLOID beta-protein precursor, *PATHOLOGY, *TAENIA solium, *ETIOLOGY of diseases, *PARASITIC diseases

Abstract

Neurocysticercosis is a parasitic brain disease caused by the larval form (Cysticercus cellulosae) of Taenia solium and is the leading cause of preventable epilepsy worldwide. However, the pathophysiology and relation to the wide range of clinical features remains poorly understood. Axonal swelling is emerging as an important early pathological finding in multiple neurodegenerative diseases and as a cause of brain injury, but has not been well described in neurocysticercosis. Histological analysis was performed on human, rat and porcine NCC brain specimens to identify axonal pathology. Rat infection was successfully carried out via two routes of inoculation: direct intracranial injection and oral feeding. Extensive axonal swellings, in the form of spheroids, were observed in both humans and rats and to a lesser extent in pigs with NCC. Spheroids demonstrated increased immunoreactivity to amyloid precursor protein and neurofilament indicating probable impairment of axonal transport. These novel findings demonstrate that spheroids are present in NCC which is conserved across species. Not only is this an important contribution toward understanding the pathogenesis of NCC, but it also provides a model to analyze the association of spheroids with specific clinical features and to investigate the reversibility of spheroid formation with antihelminthic treatment. [ABSTRACT FROM AUTHOR]

Published

2019