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1.
Mol Neurobiol ; 60(4): 2223-2235, 2023 Apr.
Article in English | MEDLINE | ID: mdl-36646969

ABSTRACT

Epigenetic processes have become increasingly relevant in understanding disease-modifying mechanisms. 5-Methylcytosine methylations of DNA (5mC) and RNA (m5C) have functional transcriptional and RNA translational consequences and are tightly regulated by writer, reader and eraser effector proteins. To investigate the involvement of 5mC/5hmC and m5C effector proteins contributing to the development of dementia neuropathology, RNA sequencing data of 31 effector proteins across four brain regions was examined in 56 aged non-affected and 51 Alzheimer's disease (AD) individuals obtained from the Aging, Dementia and Traumatic Brain Injury Study. Gene expression profiles were compared between AD and controls, between neuropathological Braak and CERAD scores and in individuals with a history of traumatic brain injury (TBI). We found an increase in the DNA methylation writers DNMT1, DNMT3A and DNMT3B messenger RNA (mRNA) and a decrease in the reader UHRF1 mRNA in AD samples across three brain regions whilst the DNA erasers GADD45B and AICDA showed changes in mRNA abundance within neuropathological load groupings. RNA methylation writers NSUN6 and NSUN7 showed significant expression differences with AD and, along with the reader ALYREF, differences in expression for neuropathologic ranking. A history of TBI was associated with a significant increase in the DNA readers ZBTB4 and MeCP2 (p < 0.05) and a decrease in NSUN6 (p < 0.001) mRNA. These findings implicate regulation of protein pathways disrupted in AD and TBI via multiple pre- and post-transcriptional mechanisms including potentially acting upon transfer RNAs, enhancer RNAs as well as nuclear-cytoplasmic shuttling and cytoplasmic translational control. The targeting of such processes provides new therapeutic avenues for neurodegenerative brain conditions.


Subject(s)
Alzheimer Disease , Brain Injuries, Traumatic , Humans , Aged , Alzheimer Disease/pathology , RNA/metabolism , Brain Injuries, Traumatic/pathology , DNA Methylation , Methyltransferases/metabolism , RNA, Messenger/metabolism , CCAAT-Enhancer-Binding Proteins/metabolism , Ubiquitin-Protein Ligases/metabolism , tRNA Methyltransferases/genetics , tRNA Methyltransferases/metabolism
2.
Eur J Neurol ; 30(3): 612-621, 2023 03.
Article in English | MEDLINE | ID: mdl-36421025

ABSTRACT

BACKGROUND AND PURPOSE: Juvenile-onset Huntington disease (JHD) is defined when symptoms initiate before 20 years of age. Mechanisms explaining differences between juvenile and adult onset are not fully understood. Our aim was to analyze the distribution of initial symptoms in a cohort of JHD patients and to explore its relationship with CAG expansion and relative telomere length (RTL). METHODS: A total of 84 JHD patients and 54 neurologically healthy age and sex matched individuals were recruited. CAG length was measured by southern blot or triplet repeat primed polymerase chain reaction. RTL was measured using the Cawthon method. RESULTS: Psychiatric symptoms were most frequent when considering the entire cohort. When divided into onset before or after 10 years, cognitive symptoms were more frequent in the youngest, whilst in the older group psychiatric symptoms prevailed. Motor symptoms were rare in the youngest and epilepsy was observed only in this group as well as a larger CAG expansion. RTL analysis revealed shorter telomeres in JHD patients compared to controls. This difference is not influenced by age, initial symptoms, time of disease or CAG expansion. CONCLUSIONS: To the best of our knowledge this is the largest cohort of JHD patients reported. Psychiatric manifestations deserve special attention when JHD is suspected and epilepsy is especially important in the youngest patients. Initial symptoms seem to be influenced by CAG expansion and therefore age of onset. RTL is significantly reduced in JHD patients which can influence the characteristic neurodegeneration of JHD and contribute to the clinical discrepancy between adult and juvenile forms of Huntington disease.


Subject(s)
Huntington Disease , Adult , Humans , Huntington Disease/genetics , Huntington Disease/diagnosis , Trinucleotide Repeats/genetics , Telomere , Age of Onset
3.
Mol Neurobiol ; 58(12): 6222-6231, 2021 Dec.
Article in English | MEDLINE | ID: mdl-34476673

ABSTRACT

Huntington disease (HD) is the most common neurogenetic disorder caused by expansion of the CAG repeat in the HTT gene; nevertheless, the molecular bases of the disease are not fully understood. Non-coding RNAs have demonstrated to be involved in the physiopathology of HD. However, the role of circRNAs has not been investigated. The aim of this study was to identify the circRNAs with differential expression in a murine cell line model of HD and to identify the biological pathways regulated by the differentially expressed circRNAs. CircRNA expression was analyzed through a microarray, which specifically detects circular species of RNA. The expression patterns between a murine cell line expressing mutant Huntingtin and cells expressing wild-type Huntingtin were compared. We predicted the miRNAs with binding sites for the differentially expressed circRNAs and the corresponding target genes for those miRNAs. Using the target genes, we performed a function enrichment analysis. We identified 23 circRNAs differentially expressed, 19 downregulated and four upregulated. Most of the downregulated circRNAs derive from the Rere gene. The dopaminergic synapse, MAPK, and long-term depression pathways were significantly enriched. The three identified pathways have been previously associated with the physiopathology of HD. The understanding of the circRNA-miRNA-mRNA network involved in the molecular mechanisms driving HD can lead us to identify novel biomarkers and potential therapeutic targets. To the best of our knowledge, this is the first study analyzing circRNAs in a model of Huntington disease.


Subject(s)
Dopaminergic Neurons/metabolism , Extracellular Signal-Regulated MAP Kinases/metabolism , Huntington Disease/metabolism , Long-Term Synaptic Depression/physiology , RNA, Circular/metabolism , Synapses/metabolism , Animals , Down-Regulation , Gene Expression Profiling , Huntington Disease/physiopathology , MicroRNAs/metabolism , PC12 Cells , RNA, Messenger/metabolism , Rats
4.
Mech Ageing Dev ; 185: 111189, 2020 01.
Article in English | MEDLINE | ID: mdl-31759995

ABSTRACT

INTRODUCTION: Huntington´s disease (HD) is a neurodegenerative disorder characterized by neuropsychiatric, motor and cognitive manifestations. It is caused by expansion of the trinucleotide CAG on HTT. The molecular bases are not completely understood, DNA damage, such as double and single strand breaks and oxidative stress (OS) have been implicated. At telomeres, DNA breaks are less efficiently repaired. Double strand breaks evoke the break induced replication (BIR) mechanism. BIR, plus inefficient repair can produce telomere shortening and cellular senescence. Our aim was to investigate the correlation between leukocyte relative telomeric length (RTL) and HD. METHODS: 206 samples were analyzed, 71 patients with molecular diagnosis and symptomatology (HD), 29 individuals with positive molecular test but asymptomatic (PP) and 106 healthy individuals (NP). RESULTS: We found a significant difference in RTL between HD patients compared with both, PP and NP, independently of subjects' age. DISCUSSION: Here we present evidence supporting an association between telomere shortening and HD. Telomere shortening could be related to DNA damage caused by ROS and defective DNA repair mechanism. Both events have been probed to occur in the presence of a mutant Huntingtin. This study contributes with current evidence suggesting a potential role of telomere shortening as HD biomarker.


Subject(s)
Biomarkers , Huntingtin Protein/genetics , Huntington Disease , Telomere Shortening , Asymptomatic Diseases , Cellular Senescence , Correlation of Data , DNA Damage , Female , Humans , Huntington Disease/diagnosis , Huntington Disease/genetics , Huntington Disease/metabolism , Male , Middle Aged , Oxidative Stress , Symptom Assessment/methods , Trinucleotide Repeat Expansion
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