Your search keyword '"Salomonsson, Sally"' showing total 11 results

1. Building CRISPR Gene Therapies for the Central Nervous System

Author

Salomonsson, Sally E and Clelland, Claire D

Subjects

Medical Biotechnology, Biomedical and Clinical Sciences, Genetics, Gene Therapy, Neurosciences, Biotechnology, 5.2 Cellular and gene therapies, Generic health relevance, Infection, Animals, Humans, CRISPR-Cas Systems, Clustered Regularly Interspaced Short Palindromic Repeats, Genetic Therapy, Gene Editing, Central Nervous System

Abstract

ImportanceGene editing using clustered regularly interspaced short palindromic repeats (CRISPR) holds the promise to arrest or cure monogenic disease if it can be determined which genetic change to create without inducing unintended cellular dysfunction and how to deliver this technology to the target organ reliably and safely. Clinical trials for blood and liver disorders, for which delivery of CRISPR is not limiting, show promise, yet no trials have begun for central nervous system (CNS) indications.ObservationsThe CNS is arguably the most challenging target given its innate exclusion of large molecules and its defenses against bacterial invasion (from which CRISPR originates). Herein, the types of CRISPR editing (DNA cutting, base editing, and templated repair) and how these are applied to different genetic variants are summarized. The challenges of delivering genome editors to the CNS, including the viral and nonviral delivery vehicles that may ultimately circumvent these challenges, are discussed. Also, ways to minimize the potential in vivo genotoxic effects of genome editors through delivery vehicle design and preclinical off-target testing are considered. The ethical considerations of germline editing, a potential off-target outcome of any gene editing therapy, are explored. The unique regulatory challenges of a human-specific therapy that cannot be derisked solely in animal models are also discussed.Conclusions and relevanceAn understanding of both the potential benefits and challenges of CRISPR gene therapy better informs the scientific, clinical, regulatory, and timeline considerations of developing CRISPR gene therapy for neurologic diseases.

Published

2024

2. PolyGR and polyPR knock-in mice reveal a conserved neuroprotective extracellular matrix signature in C9orf72 ALS/FTD neurons

Author

Milioto, Carmelo, Carcolé, Mireia, Giblin, Ashling, Coneys, Rachel, Attrebi, Olivia, Ahmed, Mhoriam, Harris, Samuel S., Lee, Byung Il, Yang, Mengke, Ellingford, Robert A., Nirujogi, Raja S., Biggs, Daniel, Salomonsson, Sally, Zanovello, Matteo, de Oliveira, Paula, Katona, Eszter, Glaria, Idoia, Mikheenko, Alla, Geary, Bethany, Udine, Evan, Vaizoglu, Deniz, Anoar, Sharifah, Jotangiya, Khrisha, Crowley, Gerard, Smeeth, Demelza M., Adams, Mirjam L., Niccoli, Teresa, Rademakers, Rosa, van Blitterswijk, Marka, Devoy, Anny, Hong, Soyon, Partridge, Linda, Coyne, Alyssa N., Fratta, Pietro, Alessi, Dario R., Davies, Ben, Busche, Marc Aurel, Greensmith, Linda, Fisher, Elizabeth M. C., and Isaacs, Adrian M.

Published

2024

3. Investigation of repeat-associated non-AUG translation and dipeptide repeat proteins in C9orf72-associated ALS/FTD

Author

Salomonsson, Sally Evita

Abstract

A hexanucleotide repeat expansion in the gene C9orf72 is the most common known cause of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). The repeat expansion causes intranuclear RNA foci and repeat-associated non-AUG (RAN) translation of five aberrant dipeptide repeat proteins (DPRs). Both RNA foci and DPRs are widely distributed in the patient brain, alongside reduced expression of the C9orf72 protein, involved in proteostasis, vesicle trafficking and immunity. TDP-43 neuropathology arises in nearly all cases and correlates with clinical symptoms and neurodegeneration. The primary cause of C9orf72-associated ALS/FTD is unknown, as the putative pathomechanisms may synergise to exert neurotoxicity. Evidence supports a pathogenic role of DPRs, although endogenous neuronal RAN translation of DPRs is not well understood. Moreover, the effects of the mutation on selectively vulnerable motor neurons are incompletely understood, e.g. in terms of functional connectivity development and synaptic integrity. Consequently, the overarching aims of this thesis are to uncover mechanisms regulating endogenous neuronal DPR levels and to identify mutation-related and DPR-specific changes to motor neuron phenotypes to ultimately aid discovery of therapeutic targets, as currently no effective therapeutics exist. First, a C9orf72 ALS/FTD patient-derived iPSC-motor neuron model was generated to investigate early molecular and functional phenotypes and endogenous RAN translation modifiers, which revealed network hyposynchrony and a novel pathway involved in RAN translation. Next, neuromuscular junction integrity was assessed in the context of selective DPR expression, in novel C9orf72 ALS/FTD knock-in mouse models with temporally and spatially relevant expression of DPRs driven by the mouse C9orf72 promoter and concomitant C9orf72 haploinsufficiency, which led to discovery of presynaptic structural abnormalities at neuromuscular junctions. This work contributes new insights into the pathomechanisms of C9orf72 ALS/FTD within the motor system and new directions in the search for therapeutic targets, with potential relevance for other neurodegenerative diseases and polynucleotide repeat disorders.

Published

2022

4. Zfp106 binds to G-quadruplex RNAs and inhibits RAN translation and formation of RNA foci caused by G4C2 repeats.

Author

Celona, Barbara, Salomonsson, Sally E., Wu, Haifan, Dang, Bobo, Kratochvil, Huong T., Clelland, Claire D., DeGrado, William F., and Black, Brian L.

Subjects

*RNA metabolism, *AMYOTROPHIC lateral sclerosis, *GENETIC translation, *QUADRUPLEX nucleic acids, *RNA-binding proteins

Abstract

Expansion of intronic GGGGCC repeats in the C9orf72 gene causes amyotrophic lateral sclerosis (ALS) and frontotemporal dementia. Transcription of the expanded repeats results in the formation of RNA-containing nuclear foci and altered RNA metabolism. In addition, repeat-associated non-AUG (RAN) translation of the expanded GGGGCC-repeat sequence results in the production of highly toxic dipeptide-repeat (DPR) proteins. GGGGCC repeat-containing transcripts form G-quadruplexes, which are associated with formation of RNA foci and RAN translation. Zfp106, an RNA-binding protein essential for motor neuron survival in mice, suppresses neurotoxicity in a Drosophila model of C9orf72 ALS. Here, we show that Zfp106 inhibits formation of RNA foci and significantly reduces RAN translation caused by GGGGCC repeats in cultured mammalian cells, and we demonstrate that Zfp106 coexpression reduces the levels of DPRs in C9orf72 patient-derived cells. Further, we show that Zfp106 binds to RNA G-quadruplexes and causes a conformational change in the G-quadruplex structure formed by GGGGCC repeats. Together, these data demonstrate that Zfp106 suppresses the formation of RNA foci and DPRs caused by GGGGCC repeats and suggest that the G-quadruplex RNA-binding function of Zfp106 contributes to its suppression of GGGGCC repeat-mediated cytotoxicity. [ABSTRACT FROM AUTHOR]

Published

2024

5. C9orf72 ALS/FTD dipeptide repeat protein levels are reduced by small molecules that inhibit PKA or enhance protein degradation

Author

Licata, Nausicaa V, Cristofani, Riccardo, Salomonsson, Sally, Wilson, Katherine M, Kempthorne, Liam, Vaizoglu, Deniz, D’Agostino, Vito G, Pollini, Daniele, Loffredo, Rosa, Pancher, Michael, Adami, Valentina, Bellosta, Paola, Ratti, Antonia, Viero, Gabriella, Quattrone, Alessandro, Isaacs, Adrian M, Poletti, Angelo, and Provenzani, Alessandro

Published

2022

6. PolyGR and polyPR knock-in mice reveal a conserved neuroprotective extracellular matrix signature inC9orf72ALS/FTD neurons

Author

Milioto, Carmelo, primary, Carcolé, Mireia, additional, Giblin, Ashling, additional, Coneys, Rachel, additional, Attrebi, Olivia, additional, Ahmed, Mhoriam, additional, Harris, Samuel S., additional, Lee, Byung Il, additional, Yang, Mengke, additional, Nirujogi, Raja S., additional, Biggs, Daniel, additional, Salomonsson, Sally, additional, Zanovello, Matteo, additional, Oliveira, Paula De, additional, Katona, Eszter, additional, Glaria, Idoia, additional, Mikheenko, Alla, additional, Geary, Bethany, additional, Udine, Evan, additional, Vaizoglu, Deniz, additional, Rademakers, Rosa, additional, van Blitterswijk, Marka, additional, Devoy, Anny, additional, Hong, Soyon, additional, Partridge, Linda, additional, Fratta, Pietro, additional, Alessi, Dario R., additional, Davies, Ben, additional, Busche, Marc Aurel, additional, Greensmith, Linda, additional, Fisher, Elizabeth M.C., additional, and Isaacs, Adrian M., additional

Published

2023

7. Synapse loss in the prefrontal cortex is associated with cognitive decline in amyotrophic lateral sclerosis

Author

Henstridge, Christopher M., Sideris, Dimitrios I., Carroll, Emily, Rotariu, Sanziana, Salomonsson, Sally, Tzioras, Makis, McKenzie, Chris-Anne, Smith, Colin, von Arnim, Christine A. F., Ludolph, Albert C., Lulé, Dorothée, Leighton, Danielle, Warner, Jon, Cleary, Elaine, Newton, Judith, Swingler, Robert, Chandran, Siddharthan, Gillingwater, Thomas H., Abrahams, Sharon, and Spires-Jones, Tara L.

Published

2017

8. PolyGR and polyPR knock-in mice reveal a conserved neuroprotective extracellular matrix signature in C9orf72ALS/FTD neurons

Author

Milioto, Carmelo, Carcolé, Mireia, Giblin, Ashling, Coneys, Rachel, Attrebi, Olivia, Ahmed, Mhoriam, Harris, Samuel S., Lee, Byung Il, Yang, Mengke, Ellingford, Robert A., Nirujogi, Raja S., Biggs, Daniel, Salomonsson, Sally, Zanovello, Matteo, de Oliveira, Paula, Katona, Eszter, Glaria, Idoia, Mikheenko, Alla, Geary, Bethany, Udine, Evan, Vaizoglu, Deniz, Anoar, Sharifah, Jotangiya, Khrisha, Crowley, Gerard, Smeeth, Demelza M., Adams, Mirjam L., Niccoli, Teresa, Rademakers, Rosa, van Blitterswijk, Marka, Devoy, Anny, Hong, Soyon, Partridge, Linda, Coyne, Alyssa N., Fratta, Pietro, Alessi, Dario R., Davies, Ben, Busche, Marc Aurel, Greensmith, Linda, Fisher, Elizabeth M. C., and Isaacs, Adrian M.

Abstract

Dipeptide repeat proteins are a major pathogenic feature of C9orf72amyotrophic lateral sclerosis (C9ALS)/frontotemporal dementia (FTD) pathology, but their physiological impact has yet to be fully determined. Here we generated C9orf72dipeptide repeat knock-in mouse models characterized by expression of 400 codon-optimized polyGR or polyPR repeats, and heterozygous C9orf72reduction. (GR)400 and (PR)400 knock-in mice recapitulate key features of C9ALS/FTD, including cortical neuronal hyperexcitability, age-dependent spinal motor neuron loss and progressive motor dysfunction. Quantitative proteomics revealed an increase in extracellular matrix (ECM) proteins in (GR)400 and (PR)400 spinal cord, with the collagen COL6A1 the most increased protein. TGF-β1 was one of the top predicted regulators of this ECM signature and polyGR expression in human induced pluripotent stem cell neurons was sufficient to induce TGF-β1 followed by COL6A1. Knockdown of TGF-β1 or COL6A1 orthologues in polyGR model Drosophilaexacerbated neurodegeneration, while expression of TGF-β1 or COL6A1 in induced pluripotent stem cell-derived motor neurons of patients with C9ALS/FTD protected against glutamate-induced cell death. Altogether, our findings reveal a neuroprotective and conserved ECM signature in C9ALS/FTD.

Published

2024

9. C9orf72 ALS/FTD dipeptide repeat protein levels are reduced by small molecules that inhibit PKA or enhance protein degradation

Author

Licata, Nausicaa V, primary, Cristofani, Riccardo, additional, Salomonsson, Sally, additional, Wilson, Katherine M, additional, Kempthorne, Liam, additional, Vaizoglu, Deniz, additional, D’Agostino, Vito G, additional, Pollini, Daniele, additional, Loffredo, Rosa, additional, Pancher, Michael, additional, Adami, Valentina, additional, Bellosta, Paola, additional, Ratti, Antonia, additional, Viero, Gabriella, additional, Quattrone, Alessandro, additional, Isaacs, Adrian M, additional, Poletti, Angelo, additional, and Provenzani, Alessandro, additional

Published

2021

10. Personality development in monozygotic twins of varying IQ discordance

Author

Salomonsson, Sally and Johnson, Wendy

Subjects

personality, twins, intelligence, development

Abstract

The present study sought to investigate the personality-intelligence association by using longitudinal MZ twin data to examine if intelligence and personality are developmentally linked. If twins discordant for IQ in childhood grew up to differ more in personality than twins of very similar intelligence, it would support theories of personality and intelligence that posit a developmental interaction between the two and a non-shared environmental influence can be inferred. It was also investigated if twins concordant for either low or high childhood IQ had personalities that on average differed more from their co-twins later in life. The sample consisted of 789 MZ twin pairs participating in the Minnesota Twin Family Study. The analysis used a series of one-way ANOVAs comparing the mean personality difference scores at ages 17 and 25 of groups of twins discordant for IQ to twins concordant for high or low IQ. Twins discordant for childhood IQ did not show a pattern of more discordance in personality at either age 17 or 25. When IQ was divided into performance IQ and verbal IQ conflicting results were obtained. The final finding was that differences were greater between twins concordant for higher than for lower intelligence on the traits Wellbeing and Social Potency. This tentatively suggests that a positive, outgoing and social side to Extraversion is more variable at higher levels of intelligence. There is no straight forward interpretation of the overall lack of relation between early intelligence and subsequent personality. Interpretations related to limitations in the study design and an absence of a direct influence of intelligence on personality are discussed.

Published

2013

11. Synapse loss in the prefrontal cortex is associated with cognitive decline in amyotrophic lateral sclerosis.

Author

Henstridge, Christopher M., Sideris, Dimitrios I., Carroll, Emily, Rotariu, Sanziana, Salomonsson, Sally, Tzioras, Makis, McKenzie, Chris�€�Anne, Smith, Colin, von Arnim, Christine A. F., Ludolph, Albert C., Lulé, Dorothée, Leighton, Danielle, Warner, Jon, Cleary, Elaine, Newton, Judith, Swingler, Robert, Chandran, Siddharthan, Gillingwater, Thomas H., Abrahams, Sharon, and Spires�€�Jones, Tara L.

Subjects

NEURODEGENERATION, AMYOTROPHIC lateral sclerosis

Abstract

In addition to motor neurone degeneration, up to 50% of amyotrophic lateral sclerosis (ALS) patients present with cognitive decline. Understanding the neurobiological changes underlying these cognitive deficits is critical, as cognitively impaired patients exhibit a shorter survival time from symptom onset. Given the pathogenic role of synapse loss in other neurodegenerative diseases in which cognitive decline is apparent, such as Alzheimer's disease, we aimed to assess synaptic integrity in the ALS brain. Here, we have applied a unique combination of high-resolution imaging of post-mortem tissue with neuropathology, genetic screening and cognitive profiling of ALS cases. Analyses of more than 1 million synapses using two complimentary high-resolution techniques (electron microscopy and array tomography) revealed a loss of synapses from the prefrontal cortex of ALS patients. Importantly, synapse loss was significantly greater in cognitively impaired cases and was not due to cortical atrophy, nor associated with dementia-associated neuropathology. Interestingly, we found a trend between pTDP-43 pathology and synapse loss in the frontal cortex and discovered pTDP-43 puncta at a subset of synapses in the ALS brains. From these data, we postulate that synapse loss in the prefrontal cortex represents an underlying neurobiological substrate of cognitive decline in ALS. [ABSTRACT FROM AUTHOR]

Published

2018