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3. A Parkinson's disease CircRNAs Resource reveals a link between circSLC8A1 and oxidative stress

Author

Mor Hanan, Alon Simchovitz, Nadav Yayon, Shani Vaknine, Roni Cohen‐Fultheim, Miriam Karmon, Nimrod Madrer, Talia Miriam Rohrlich, Moria Maman, Estelle R Bennett, David S Greenberg, Eran Meshorer, Erez Y Levanon, Hermona Soreq, and Sebastian Kadener

Subjects
AGO2, CircRNA, CircSLC8A1, Parkinson's disease, RNA sequencing, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract Circular RNAs (circRNAs) are brain‐abundant RNAs of mostly unknown functions. To seek their roles in Parkinson's disease (PD), we generated an RNA sequencing resource of several brain region tissues from dozens of PD and control donors. In the healthy substantia nigra (SN), circRNAs accumulate in an age‐dependent manner, but in the PD SN this correlation is lost and the total number of circRNAs reduced. In contrast, the levels of circRNAs are increased in the other studied brain regions of PD patients. We also found circSLC8A1 to increase in the SN of PD individuals. CircSLC8A1 carries 7 binding sites for miR‐128 and is strongly bound to the microRNA effector protein Ago2. Indeed, RNA targets of miR‐128 are also increased in PD individuals, suggesting that circSLC8A1 regulates miR‐128 function and/or activity. CircSLC8A1 levels also increased in cultured cells exposed to the oxidative stress‐inducing agent paraquat but were decreased in cells treated with the neuroprotective antioxidant regulator drug Simvastatin. Together, our work links circSLC8A1 to oxidative stress‐related Parkinsonism and suggests further exploration of its molecular function in PD.

Published
2020
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7. Alzheimer's brains show inter-related changes in RNA and lipid metabolism

Author

Shahar Barbash, Benjamin P. Garfinkel, Rotem Maoz, Alon Simchovitz, Bettina Nadorp, Alessandro Guffanti, Estelle R. Bennett, Courtney Nadeau, Andreas Türk, Lukas Paul, Torsten Reda, Yan Li, Aron S. Buchman, David S. Greenberg, Alexander Seitz, David A. Bennett, Patrick Giavalisco, and Hermona Soreq

Subjects
Alzheimer's disease, Alternative polyadenylation, Lipidomics, RNA sequencing, Cognitive decline, Neuropathology, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Alzheimer's disease (AD) involves changes in both lipid and RNA metabolism, but it remained unknown if these differences associate with AD's cognition and/or post-mortem neuropathology indices. Here, we report RNA-sequencing evidence of inter-related associations between lipid processing, cognition level, and AD neuropathology. In two unrelated cohorts, we identified pathway-enriched facilitation of lipid processing and alternative splicing genes, including the neuronal-enriched NOVA1 and hnRNPA1. Specifically, this association emerged in temporal lobe tissue samples from donors where postmortem evidence demonstrated AD neuropathology, but who presented normal cognition proximate to death. The observed changes further associated with modified ATP synthesis and mitochondrial transcripts, indicating metabolic relevance; accordingly, mass-spectrometry-derived lipidomic profiles distinguished between individuals with and without cognitive impairment prior to death. In spite of the limited group sizes, tissues from persons with both cognitive impairment and AD pathology showed elevation in several drug-targeted genes of other brain, vascular and autoimmune disorders, accompanied by pathology-related increases in distinct lipid processing transcripts, and in the RNA metabolism genes hnRNPH2, TARDBP, CLP1 and EWSR1. To further detect 3′-polyadenylation variants, we employed multiple cDNA primer pairs. This identified variants that showed limited differences in scope and length between the tested cohorts, yet enabled superior clustering of demented and non-demented AD brains versus controls compared to total mRNA expression values. Our findings indicate inter-related cognition-associated differences in AD's lipid processing, alternative splicing and 3′-polyadenylation, calling for pursuing the underlying psychological and therapeutics implications.

Published
2017
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9. Interleukin 1 Receptor-Like 1 Protein (ST2) is a Potential Biomarker for Cardiomyopathy in Duchenne Muscular Dystrophy

Author

Anderson, Julia, Seol, Haeri, Gordish-Dressman, Heather, Hathout, Yetrib, Spurney, Christopher F., McDonald, C., Abresch, R. T., Henricson, E., Cregan, M., Goude, E., Johnson, L., Han, J., Joyce, N., Reedy, D., Viswanathan, V., Chidambaranathan, C., Kumar, S., Lakshmi, V., Reddappa, P., Biggar, D., McAdam, L., Dermody, M., Eliasoph, L., Harris., V., Lee, G., Mah, J., Chiu, A., Haig, T., Harris, M., Sanchez, K., Thannhauser, J., Walker, L., Wright, C., Tulinius, M., Alhander, A., Ekstrom, A., Gustafsson, A., Kroksmark, A., Sterky, U., Wahlgren, L., Thangarajh, M., Birkmeier, M., Kaminski, S., Tadesse, B., Toles, A., Kornberg, A., Ryan, M., Carroll, K., DeValle, K., Kennedy, R., Rodriguez, V., Villano, D., Nevo, Y., Adani, R., Chen-Joseph, L., Simchovitz, E., Yaffe, D., Dubrovsky, A., Andreone, L., Bonaudo, F., Corderi, J., Mesa, L., Marco, P., Levi, L., Clemens, P., Abdel-Hamid, H., Bendixen, R., Bise, C., Craig, A., Karnavas, K., Matthews, C., Niizawa, G., Smith, A., Weimer, J., Connolly, A., Pestronk, A., Florence, J., Christenson, T., Golumbak, P., Lopate, G., Malane, J., Malkus, B., Renna, R., Schierbacker, J., Seiner, C., Wulf, C., Teasley, J., Blair, S., Grillo, B., Jones, K., Monasterio, E., Bertorini, T., Igarashi, M., Barrett-Adair, M., Carter, K., Clift, J., Feliciano, C., Gatlin, B., Holloway, J., Young, R., Webster, R., North, K., Cornett, K., Gabriel, N., Miller, C., Rose, K., Wicks, S., Kolski, H., Chen, L., Kennedy, C., Gorni, K., Beneggi, M., Capone, L., Molteni, A., Morettini, V., Lotze, T., Gupta, A., Knight, A., Lott, B., McNeil, R., Karachunski, P., Day, J., Chambers, G., Dalton, J., Erickson, A., Margolis, M., Marsh, J., Naughton, C., Cnaan, A., Ahmed, M., Arrieta, A., Bartley, N., Brown-Caines, T., Canelos, P., Casper, R., Duong, T., Feng, J., Gordish-Dressman, H., Morgenroth, L., Hu, F., Hunegs, L., Sund, Z., Zimmerman, A., and On behalf of the CINRG Investigators

Published
2017
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11. Pharmaceutical Implications of Sex-Related RNA Divergence in Psychiatric Disorders

Author

Alon Simchovitz-Gesher and Hermona Soreq

Subjects
Male, 0301 basic medicine, Pharmacology, medicine.medical_specialty, Mental Disorders, RNA, Neurodegenerative Diseases, Genomics, Sex related, Biology, Toxicology, Sexual dimorphism, 03 medical and health sciences, Sex Factors, 030104 developmental biology, 0302 clinical medicine, medicine, Animals, Humans, Female, RNA, Long Noncoding, Transcriptome, Psychiatry, 030217 neurology & neurosurgery
Abstract

Male-female differences have long been observed in the epidemiology and clinical presentation of psychiatric disorders. Current understanding is based on sex hormones and on transcription patterns governed by the sex chromosomes, and specific sexually dimorphic pathways were only recently identified. However, the underlying molecular mechanisms and pharmaceutical implications remain unclear. We highlight the importance of studying the sex-specific patterns of mental diseases at all levels from genomics to pharmaceutics. In particular, we discuss transcriptional level differences between the sexes in psychiatric disorders and outline the possible impact of such research on future pharmaceutical developments.

Published
2020
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14. NEAT1 is overexpressed in Parkinson’s disease substantia nigra and confers drug-inducible neuroprotection from oxidative stress

Author

Estelle R. Bennett, Nadav Yayon, Hermona Soreq, David S. Greenberg, Alon Simchovitz, Sebastian Kadener, Mor Hanan, Nimrod Madrer, and Naomi Niederhoffer

Subjects
0301 basic medicine, Parkinson's disease, paraspeckles, Substantia nigra, Biology, medicine.disease_cause, Biochemistry, Neuroprotection, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, lncRNA, Paraquat, Genetics, medicine, Humans, Molecular Biology, Neurons, Research, Neurodegeneration, neurodegeneration, RNA, Brain, Parkinson Disease, medicine.disease, Paraspeckles, Substantia Nigra, Oxidative Stress, 030104 developmental biology, HEK293 Cells, chemistry, Cancer research, RNA Interference, RNA, Long Noncoding, 030217 neurology & neurosurgery, Oxidative stress, Biotechnology
Abstract

Recent reports attribute numerous regulatory functions to the nuclear paraspeckle-forming long noncoding RNA, nuclear enriched assembly transcript 1 (NEAT1), but the implications of its involvement in Parkinson's disease (PD) remain controversial. To address this issue, we assessed NEAT1 expression levels and cell type patterns in the substantia nigra (SN) from 53 donors with and without PD, as well as in interference tissue culture tests followed by multiple in-house and web-available models of PD. PCR quantification identified elevated levels of NEAT1 expression in the PD SN compared with control brains, an elevation that was reproducible across a multitude of disease models. In situ RNA hybridization supported neuron-specific formation of NEAT1-based paraspeckles at the SN and demonstrated coincreases of NEAT1 and paraspeckles in cultured cells under paraquat (PQ)-induced oxidative stress. Furthermore, neuroprotective agents, including fenofibrate and simvastatin, induced NEAT1 up-regulation, whereas RNA interference-mediated depletion of NEAT1 exacerbated death of PQ-exposed cells in a leucine-rich repeat kinase 2-mediated manner. Our findings highlight a novel protective role for NEAT1 in PD and suggest a previously unknown mechanism for the neuroprotective traits of widely used preventive therapeutics.-Simchovitz, A., Hanan, M., Niederhoffer, N., Madrer, N., Yayon, N., Bennett, E. R., Greenberg, D. S., Kadener, S., Soreq, H. NEAT1 is overexpressed in Parkinson's disease substantia nigra and confers drug-inducible neuroprotection from oxidative stress.

Published
2019

15. Safety and clinical outcome of tamoxifen in Duchenne muscular dystrophy

Author

Shmuel A. Ben-Sasson, Elana Simchovitz, Reuven Tsabari, Ran Avrahami, Osnat Eliav, Talya Dor, and Eran Lavi

Subjects
0301 basic medicine, Male, Selective Estrogen Receptor Modulators, medicine.medical_specialty, Adolescent, Duchenne muscular dystrophy, Walk Test, Motor Activity, Pulmonary function testing, 03 medical and health sciences, 0302 clinical medicine, Adrenal Cortex Hormones, Internal medicine, Clinical endpoint, medicine, Humans, Respiratory function, Prospective Studies, Israel, Prospective cohort study, Adverse effect, Child, Genetics (clinical), business.industry, medicine.disease, Clinical trial, Muscular Dystrophy, Duchenne, Tamoxifen, 030104 developmental biology, Treatment Outcome, Neurology, Pediatrics, Perinatology and Child Health, Disease Progression, Neurology (clinical), business, 030217 neurology & neurosurgery, medicine.drug
Abstract

Patients having Duchenne muscular dystrophy (DMD) are currently being treated with corticosteroids, which slow down disease progression at the expense of serious adverse effects. Tamoxifen is a pro-drug some of whose metabolites interact with the nuclear estrogen receptor, leading to anti-fibrotic and muscle-protective effects as has been demonstrated in a murine model of DMD. Here we report the results from a monocentric single arm prospective study in 13 ambulant boys aged 6–14 years with genetically confirmed DMD, aimed to assess the safety of tamoxifen and its impact on disease progression. Boys were treated for up to 3 years with 20 mg/day of oral tamoxifen, in addition to their ongoing corticosteroid treatment. For 8 of these patients, outcome was compared to an age- and performance-matched 12-month natural history dataset. The primary end point was the 6-minute walk test. Secondary end points were the NorthStar assessment, timed function tests, pulmonary function, the biomarker creatine phosphokinase and adverse effects. No adverse effects were noticed other than mild gynecomastia in 4 boys. Tamoxifen-treated patients retained motor and respiratory function, compared with a significant deterioration of age-matched historical control patients receiving corticosteroids only. These encouraging findings warrant a larger clinical trial to substantiate the use of tamoxifen in Duchenne muscular dystrophy.

Published
2020

16. A Parkinson’s disease CircRNAs Resource reveals a link between circSLC8A1 and oxidative stress

Author

Talia Miriam Rohrlich, Eran Meshorer, Erez Y. Levanon, David S. Greenberg, Alon Simchovitz, Nadav Yayon, Roni Cohen-Fultheim, Mor Hanan, Nimrod Madrer, Sebastian Kadener, Moria Maman, Shani Vaknine, Hermona Soreq, Miriam Karmon, and Estelle R. Bennett

Subjects
0301 basic medicine, Medicine (General), Parkinson's disease, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Substantia nigra, QH426-470, medicine.disease_cause, Neuroprotection, 03 medical and health sciences, R5-920, 0302 clinical medicine, microRNA, Genetics, medicine, ComputingMilieux_MISCELLANEOUS, Effector, Chemistry, Parkinsonism, RNA, medicine.disease, Cell biology, 030104 developmental biology, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Molecular Medicine, Corrigendum, 030217 neurology & neurosurgery, Oxidative stress
Abstract

Circular RNAs (circRNAs) are brain-abundant RNAs of mostly unknown functions. To seek their roles in Parkinson's disease (PD), we generated an RNA sequencing resource of several brain region tissues from dozens of PD and control donors. In the healthy substantia nigra (SN), circRNAs accumulate in an age-dependent manner, but in the PD SN this correlation is lost and the total number of circRNAs reduced. In contrast, the levels of circRNAs are increased in the other studied brain regions of PD patients. We also found circSLC8A1 to increase in the SN of PD individuals. CircSLC8A1 carries 7 binding sites for miR-128 and is strongly bound to the microRNA effector protein Ago2. Indeed, RNA targets of miR-128 are also increased in PD individuals, suggesting that circSLC8A1 regulates miR-128 function and/or activity. CircSLC8A1 levels also increased in cultured cells exposed to the oxidative stress-inducing agent paraquat but were decreased in cells treated with the neuroprotective antioxidant regulator drug Simvastatin. Together, our work links circSLC8A1 to oxidative stress-related Parkinsonism and suggests further exploration of its molecular function in PD.

Published
2020

17. A lncRNA survey finds increases in neuroprotective LINC‐PINT in Parkinson’s disease substantia nigra

Author

Hermona Soreq, Mor Hanan, Sebastian Kadener, David S. Greenberg, Songhua Lee, Alon Simchovitz, Nadav Yayon, and Estelle R. Bennett

Subjects
Male, 0301 basic medicine, Aging, Parkinson's disease, Disease, medicine.disease_cause, Cohort Studies, Mice, Neuroblastoma, lncRNA, 0302 clinical medicine, Gyrus, RNA-Seq, Aged, 80 and over, Cell Death, Neurodegeneration, neurodegeneration, Parkinson Disease, Middle Aged, Alzheimer's disease, Neuroprotection, Peroxides, Gene Expression Regulation, Neoplastic, Substantia Nigra, medicine.anatomical_structure, Female, RNA Interference, RNA, Long Noncoding, Original Article, Cell Survival, Substantia nigra, Biology, Amygdala, 03 medical and health sciences, Cell Line, Tumor, medicine, Animals, Humans, LINC‐PINT, RNA‐Seq, Aged, Cell Biology, medicine.disease, Oxidative Stress, 030104 developmental biology, nervous system, Neuroscience, 030217 neurology & neurosurgery, Oxidative stress
Abstract

Recent reports highlight regulatory functions of long noncoding RNAs (lncRNAs) in neurodegeneration and aging, but biomedical implications remain limited. Here, we report an rRNA‐depletion‐based long RNA‐Sequencing Resource of 65 substantia nigra, amygdala, and medial temporal gyrus samples from Parkinson's disease (PD) and matched control brains. Using a lncRNA‐focused analysis approach to identify functionally important transcripts, we discovered and prioritized many lncRNAs dysregulated in PD. Those included pronounced elevation of the P53‐induced noncoding transcript LINC‐PINT in the substantia nigra of PD patients, as well as in additional models of oxidative stress and PD. Intriguingly, we found that LINC‐PINT is a primarily neuronal transcript which showed conspicuous increases in maturing primary culture neurons. LINC‐PINT also accumulated in several brain regions of Alzheimer's and Huntington's disease patients and decreased with healthy brain aging, suggesting a general role in aging and neurodegeneration for this lncRNA. RNAi‐mediated depletion of LINC‐PINT exacerbated the death of cultured N2A and SH‐SY5Y cells exposed to oxidative stress, highlighting a previously undiscovered neuroprotective role for this tumor‐inducible lncRNA in the brains of patients with neurodegenerative disorders., We performed RNA‐Seq on a large cohort of brain tissues from Parkinson's disease patients and controls. Next, we applied a novel lncRNA‐based analysis method to the data to screen for functionally relevant lncRNAs, identifying LINC‐PINT. Comparison to other models identified LINC‐PINT as a neuronal transcript dysregulated in additional neurodegenerative diseases and in brain aging. Finally, functional analysis revealed LINC‐PINT to be neuroprotective in the context of oxidative stress.

Published
2020
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18. A Parkinson's disease Circ RNA s Resource reveals a link between circ SLC 8A1 and oxidative stress

Author

Hanan, Mor, primary, Simchovitz, Alon, additional, Yayon, Nadav, additional, Vaknine, Shani, additional, Cohen‐Fultheim, Roni, additional, Karmon, Miriam, additional, Madrer, Nimrod, additional, Rohrlich, Talia Miriam, additional, Maman, Moria, additional, Bennett, Estelle R, additional, Greenberg, David S, additional, Meshorer, Eran, additional, Levanon, Erez Y, additional, Soreq, Hermona, additional, and Kadener, Sebastian, additional

Published
2020
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20. Alzheimer's brains show inter-related changes in RNA and lipid metabolism

Author

Aron S. Buchman, Yan Li, Alexander Seitz, Rotem Maoz, Estelle R. Bennett, Alon Simchovitz, Alessandro Guffanti, Andreas Türk, Benjamin P. Garfinkel, Lukas Paul, Courtney Nadeau, Torsten Reda, Hermona Soreq, David S. Greenberg, David A. Bennett, Bettina Nadorp, Patrick Giavalisco, and Shahar Barbash

Subjects
Male, 0301 basic medicine, Polyadenylation, Cognitive decline, Neuropathology, Biology, Bioinformatics, TARDBP, Article, lcsh:RC321-571, Cohort Studies, 03 medical and health sciences, Cognition, Alzheimer Disease, Humans, Cognitive Dysfunction, Gene, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Aged, Aged, 80 and over, Genetics, Sequence Analysis, RNA, Alternative splicing, RNA, Alternative polyadenylation, Lipid metabolism, RNA sequencing, Alzheimer's disease, Lipid Metabolism, Temporal Lobe, Alternative Splicing, 030104 developmental biology, Neurology, Lipidomics
Abstract

Alzheimer's disease (AD) involves changes in both lipid and RNA metabolism, but it remained unknown if these differences associate with AD's cognition and/or post-mortem neuropathology indices. Here, we report RNA-sequencing evidence of inter-related associations between lipid processing, cognition level, and AD neuropathology. In two unrelated cohorts, we identified pathway-enriched facilitation of lipid processing and alternative splicing genes, including the neuronal-enriched NOVA1 and hnRNPA1. Specifically, this association emerged in temporal lobe tissue samples from donors where postmortem evidence demonstrated AD neuropathology, but who presented normal cognition proximate to death. The observed changes further associated with modified ATP synthesis and mitochondrial transcripts, indicating metabolic relevance; accordingly, mass-spectrometry-derived lipidomic profiles distinguished between individuals with and without cognitive impairment prior to death. In spite of the limited group sizes, tissues from persons with both cognitive impairment and AD pathology showed elevation in several drug-targeted genes of other brain, vascular and autoimmune disorders, accompanied by pathology-related increases in distinct lipid processing transcripts, and in the RNA metabolism genes hnRNPH2, TARDBP, CLP1 and EWSR1. To further detect 3′-polyadenylation variants, we employed multiple cDNA primer pairs. This identified variants that showed limited differences in scope and length between the tested cohorts, yet enabled superior clustering of demented and non-demented AD brains versus controls compared to total mRNA expression values. Our findings indicate inter-related cognition-associated differences in AD's lipid processing, alternative splicing and 3′-polyadenylation, calling for pursuing the underlying psychological and therapeutics implications., Highlights • RNA transcripts differ between brains from Alzheimer's patients with or without dementia. • In non-demented patients with pathology, brain neurons show facilitated RNA and lipid processing. • Cognition-related differences included brain, vascular and autoimmune disease-related genes. • Polyadenylation changes classify patients better than transcript expression levels.

Published
2017

21. Personalized genetics of the cholinergic blockade of neuroinflammation

Author

Michael T. Heneka, Alon Simchovitz, and Hermona Soreq

Subjects
0301 basic medicine, Single-nucleotide polymorphism, Review, Biology, Polymorphism, Single Nucleotide, Biochemistry, neuroinflammation, 03 medical and health sciences, Cellular and Molecular Neuroscience, chemistry.chemical_compound, microRNA, medicine, Animals, Homeostasis, Humans, genetics, acetylcholinesterase (AChE), Review Articles, Neuroinflammation, Inflammasome, single nucleotide polymorphisms (SNPs), Alzheimer's disease, Special issue on Cholinergic Mechanisms, Guest Editor: Israel Silman, Associate Guest Editors: Pascale Marchot and Marco Prado, Acetylcholinesterase, Acetylcholine, MicroRNAs, 030104 developmental biology, chemistry, Cholinergic, Cholinesterase Inhibitors, Neuroscience, medicine.drug
Abstract

Acetylcholine signaling is essential for cognitive functioning and blocks inflammation. To maintain homeostasis, cholinergic signaling is subjected to multi‐leveled and bidirectional regulation by both proteins and non‐coding microRNAs (‘CholinomiRs’). CholinomiRs coordinate the cognitive and inflammatory aspects of cholinergic signaling by targeting major cholinergic transcripts including the acetylcholine hydrolyzing enzyme acetylcholinesterase (AChE). Notably, AChE inhibitors are the only currently approved line of treatment for Alzheimer's disease patients. Since cholinergic signaling blocks neuroinflammation which is inherent to Alzheimer's disease, genomic changes modifying AChE's properties and its susceptibility to inhibitors and/or to CholinomiRs regulation may affect the levels and properties of inflammasome components such as NLRP3. This calls for genomic‐based medicine approaches based on genotyping of both coding and non‐coding single nucleotide polymorphisms (SNPs) in the genes involved in cholinergic signaling. An example is a SNP in a recognition element for the primate‐specific microRNA‐608 within the 3′ untranslated region of the AChE transcript. Carriers of the minor allele of that SNP present massively elevated brain AChE levels, increased trait anxiety and inflammation, accompanied by perturbed CholinomiR‐608 regulatory networks and elevated prefrontal activity under exposure to stressful insults. Several additional SNPs in the AChE and other cholinergic genes await further studies, and might likewise involve different CholinomiRs and pathways including those modulating the initiation and progression of neurodegenerative diseases. CholinomiRs regulation of the cholinergic system thus merits in‐depth interrogation and is likely to lead to personalized medicine approaches for achieving better homeostasis in health and disease. This is an article for the special issue XVth International Symposium on Cholinergic Mechanisms.

Published
2017
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23. Functional segregation of voltage-activated calcium channels in motoneurons of the dorsal motor nucleus of the vagus

Author

Ronit Sharon, Joshua A. Goldberg, Garry Cooper, D. James Surmeier, Hermona Soreq, Alon Simchovitz, and Efrat Lasser-Katz

Subjects
Calcium Channels, L-Type, Physiology, Action Potentials, Cav1.2, Cav1.3, Mice, Potassium Channels, Calcium-Activated, Calcium imaging, Cellular and Molecular Properties of Neurons, medicine, Animals, Motor Neurons, Isradipine, Voltage-dependent calcium channel, biology, Chemistry, General Neuroscience, T-type calcium channel, Vagus Nerve, Mice, Inbred C57BL, Electrophysiology, Dorsal motor nucleus, biology.protein, Calcium, Neuroscience, medicine.drug
Abstract

Calcium influx elevates mitochondrial oxidant stress (mOS) in dorsal motor nucleus of the vagus (DMV) neurons that are prone to Lewy body pathologies in presymptomatic Parkinson's disease (PD) patients. In experimental PD models, treatment with isradipine, the dihydropyridine with the highest affinity to Cav1.3 channels, prevents subthreshold calcium influx via Cav1.3 channels into midbrain dopamine neurons and protects them from mOS. In DMV neurons, isradipine is also effective in reducing mOS despite overwhelming evidence that subthreshold calcium influx is negligible compared with spike-triggered influx. To solve this conundrum we combined slice electrophysiology, two-photon laser scanning microscopy, mRNA profiling, and computational modeling. We find that the unusually depolarized subthreshold voltage trajectory of DMV neurons is positioned between the relatively hyperpolarized activation curve of Cav1.3 channels and that of other high-voltage activated (HVA) calcium channels, thus creating a functional segregation between Cav1.3 and HVA calcium channels. The HVA channels flux the bulk of calcium during spikes but can only influence pacemaking through their coupling to calcium-activated potassium currents. In contrast, Cav1.3 currents, which we show to be more than an order-of-magnitude smaller than the HVA calcium currents, are able to introduce sufficient inward current to speed up firing. However, Kv4 channels that are constitutively open in the subthreshold range guarantee slow pacemaking, despite the depolarizing action of Cav1.3 and other pacemaking currents. We propose that the efficacy of isradipine in preventing mOS in DMV neurons arises from its mixed effect on Cav1.3 channels and on HVA Cav1.2 channels.

Published
2015
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24. Mutant α-Synuclein Overexpression Induces Stressless Pacemaking in Vagal Motoneurons at Risk in Parkinson's Disease

Author

Wei-Hua Chiu, Efrat Lasser-Katz, Wolfgang H. Oertel, Jochen Roeper, Alon Simchovitz, Hermona Soreq, Ronit Sharon, and Joshua A. Goldberg

Subjects
0301 basic medicine, Male, Substantia nigra, Mice, Transgenic, Biology, Neuroprotection, 03 medical and health sciences, Mice, 0302 clinical medicine, Dopamine, Biological Clocks, medicine, Animals, Humans, Calcium Signaling, Cholinergic neuron, Research Articles, Motor Neurons, Voltage-dependent calcium channel, General Neuroscience, Dopaminergic Neurons, Dopaminergic, Neurodegeneration, Parkinson Disease, Vagus Nerve, medicine.disease, Mitochondria, Mice, Inbred C57BL, Substantia Nigra, Oxidative Stress, 030104 developmental biology, Dorsal motor nucleus, Shal Potassium Channels, nervous system, alpha-Synuclein, Female, Calcium Channels, Neuroscience, 030217 neurology & neurosurgery, medicine.drug, Signal Transduction
Abstract

α-Synuclein overexpression (ASOX) drives the formation of toxic aggregates in neurons vulnerable in Parkinson's disease (PD), including dopaminergic neurons of the substantia nigra (SN) and cholinergic neurons of the dorsal motor nucleus of the vagus (DMV). Just as these populations differ in when they exhibit α-synucleinopathies during PD pathogenesis, they could also differ in their physiological responses to ASOX. An ASOX-mediated hyperactivity of SN dopamine neurons, which was caused by oxidative dysfunction of Kv4.3 potassium channels, was recently identified in transgenic (A53T-SNCA) mice overexpressing mutated human α-synuclein. Noting that DMV neurons display extensive α-synucleinopathies earlier than SN dopamine neurons while exhibiting milder cell loss in PD, we aimed to define the electrophysiological properties of DMV neurons inA53T-SNCAmice. We found that DMV neurons maintain normal firing rates in response to ASOX. Moreover, Kv4.3 channels in DMV neurons exhibit no oxidative dysfunction in theA53T-SNCAmice, which could only be recapitulated in wild-type mice by glutathione dialysis. Two-photon imaging of redox-sensitive GFP corroborated the finding that mitochondrial oxidative stress was diminished in DMV neurons in theA53T-SNCAmice. This reduction in oxidative stress resulted from a transcriptional downregulation of voltage-activated (Cav) calcium channels in DMV neurons, which led to a reduction in activity-dependent calcium influx via Cav channels. Thus, ASOX induces a homeostatic remodeling with improved redox signaling in DMV neurons, which could explain the differential vulnerability of SN dopamine and DMV neurons in PD and could promote neuroprotective strategies that emulate endogenous homeostatic responses to ASOX (e.g., stressless pacemaking) in DMV neurons.SIGNIFICANCE STATEMENTOverexpression of mutant α-synuclein causes Parkinson's disease, presumably by driving neurodegeneration in vulnerable neuronal target populations. However, the extent of α-synuclein pathology (e.g., Lewy bodies) is not directly related to the degree of neurodegeneration across various vulnerable neuronal populations. Here, we show that, in contrast to dopamine neurons in the substantia nigra, vagal motoneurons do not enhance their excitability and oxidative load in response to chronic mutant α-synuclein overexpression. Rather, by downregulating their voltage-activated calcium channels, vagal motoneurons acquire a stressless form of pacemaking that diminishes mitochondrial and cytosolic oxidative stress. Emulating this endogenous adaptive response to α-synuclein overexpression could lead to novel strategies to protect dopamine neurons and perhaps delay the onset of Parkinson's disease.

Published
2017

26. Intensified vmPFC surveillance over PTSS under perturbed microRNA-608/AChE interaction

Author

Yair Bar-Haim, Hermona Soreq, Roee Admon, Geula Hanin, Efrat Kliper, Noam Shomron, Guillén Fernández, Eyal Fruchter, Talma Hendler, Shani Shenhar-Tsarfaty, Tamar Lin, Gadi Lubin, Alon Simchovitz, S. Vaisvaser, and Mor Hanan

Subjects
Adult, Male, 0301 basic medicine, Adolescent, Stress-related disorders Donders Center for Medical Neuroscience [Radboudumc 13], Ventromedial prefrontal cortex, Prefrontal Cortex, GPI-Linked Proteins, Polymorphism, Single Nucleotide, Brain mapping, Amygdala, Stress Disorders, Post-Traumatic, Young Adult, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, 130 000 Cognitive Neurology & Memory, medicine, Humans, Israel, Allele, Prefrontal cortex, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Biological Psychiatry, Brain Mapping, medicine.diagnostic_test, medicine.disease, Magnetic Resonance Imaging, Minor allele frequency, MicroRNAs, Psychiatry and Mental health, Military Personnel, 030104 developmental biology, medicine.anatomical_structure, Schizophrenia, Acetylcholinesterase, Original Article, Female, Functional magnetic resonance imaging, Psychology, Neuroscience, 030217 neurology & neurosurgery
Abstract

Trauma causes variable risk of posttraumatic stress symptoms (PTSS) owing to yet-unknown genome–neuronal interactions. Here, we report co-intensified amygdala and ventromedial prefrontal cortex (vmPFC) emotional responses that may overcome PTSS in individuals with the single-nucleotide polymorphism (SNP) rs17228616 in the acetylcholinesterase (AChE) gene. We have recently shown that in individuals with the minor rs17228616 allele, this SNP interrupts AChE suppression by microRNA (miRNA)-608, leading to cortical elevation of brain AChE and reduced cortisol and the miRNA-608 target GABAergic modulator CDC42, all stress-associated. To examine whether this SNP has effects on PTSS and threat-related brain circuits, we exposed 76 healthy Israel Defense Forces soldiers who experienced chronic military stress to a functional magnetic resonance imaging task of emotional and neutral visual stimuli. Minor allele individuals predictably reacted to emotional stimuli by hyperactivated amygdala, a hallmark of PTSS and a predisposing factor of posttraumatic stress disorder (PTSD). Despite this, minor allele individuals showed no difference in PTSS levels. Mediation analyses indicated that the potentiated amygdala reactivity in minor allele soldiers promoted enhanced vmPFC recruitment that was associated with their limited PTSS. Furthermore, we found interrelated expression levels of several miRNA-608 targets including CD44, CDC42 and interleukin 6 in human amygdala samples (N=7). Our findings suggest that miRNA-608/AChE interaction is involved in the threat circuitry and PTSS and support a model where greater vmPFC regulatory activity compensates for amygdala hyperactivation in minor allele individuals to neutralize their PTSS susceptibility.

Published
2016
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31. Transcriptome profiling in Parkinson's leukocytes: from early diagnostics to neuroimmune therapeutic prospects

Author

Hermona Soreq, Lilach Soreq, and Alon Simchovitz

Subjects
0301 basic medicine, Deep brain stimulation, medicine.medical_treatment, Substantia nigra, Disease, Biology, Bioinformatics, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Drug Discovery, medicine, Leukocytes, Animals, Humans, Oligonucleotide Array Sequence Analysis, Pharmacology, Alpha-synuclein, Sequence Analysis, RNA, Gene Expression Profiling, Dopaminergic, RNA, Parkinson Disease, Long non-coding RNA, Gene expression profiling, 030104 developmental biology, chemistry, Neuroscience, 030217 neurology & neurosurgery
Abstract

Parkinson's disease (PD) involves motor symptoms reflecting the progressive degeneration of dopaminergic neurons in the substantia nigra. However, diagnosis is only enabled late in the disease, limiting treatment to palliative assistance. Here, we review recently generated transcriptional profiling datasets from blood and brain RNA of human PD cohorts and animal models that may offer unprecedented progress in PD research. Specifically, advanced analysis techniques demonstrated functionally inter-related underlying impairments of RNA metabolism and neuroimmune signalling processes. Identifying novel biomarkers in serum and nucleated blood cells, including protein networks and non-coding RNAs can drive discovery of the molecular mechanisms involved and reveal new targets for therapeutic intervention, posing a dual diagnosis/treatment opportunity for limiting the exacerbation of neuroinflammatory events in PD.

Published
2015

32. Intensified vmPFC surveillance over PTSS under perturbed microRNA-608/AChE interaction

Author

Lin, T., Simchovitz, A., Shenhar-Tsarfaty, S., Vaisvaser, S., Admon, R., Hanin, G., Hanan, M., Kliper, E., Bar-Haim, Y., Shomron, N., Fernandez, G.S.E., Lubin, G., Fruchter, E., Hendler, T., Soreq, H., Lin, T., Simchovitz, A., Shenhar-Tsarfaty, S., Vaisvaser, S., Admon, R., Hanin, G., Hanan, M., Kliper, E., Bar-Haim, Y., Shomron, N., Fernandez, G.S.E., Lubin, G., Fruchter, E., Hendler, T., and Soreq, H.

Abstract

Contains fulltext : 167893.pdf (publisher's version ) (Open Access)

Published
2016

33. Neuronal-expressed microRNA-targeted pseudogenes compete with coding genes in the human brain

Author

Alon Simchovitz, Shahar Barbash, David A. Bennett, Sagiv Shifman, Hermona Soreq, and Aron S. Buchman

Subjects
0301 basic medicine, Pseudogene, Biology, Conserved sequence, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Downregulation and upregulation, Alzheimer Disease, microRNA, mental disorders, medicine, Gene silencing, Humans, Cognitive Dysfunction, RNA, Messenger, Gene, Biological Psychiatry, Genetics, Neurons, RNA, Brain, Human brain, nervous system diseases, respiratory tract diseases, Psychiatry and Mental health, MicroRNAs, 030104 developmental biology, medicine.anatomical_structure, Original Article, 030217 neurology & neurosurgery, Pseudogenes
Abstract

MicroRNAs orchestrate brain functioning via interaction with microRNA recognition elements (MRE) on target transcripts. However, the global impact of potential competition on the microRNA pool between coding and non-coding brain transcripts that share MREs with them remains unexplored. Here we report that non-coding pseudogene transcripts carrying MREs (PSG+MRE) often show duplicated origin, evolutionary conservation and higher expression in human temporal lobe neurons than comparable duplicated MRE-deficient pseudogenes (PSG-MRE). PSG+MRE participate in neuronal RNA-induced silencing complexes (RISC), indicating functional involvement. Furthermore, downregulation cell culture experiments validated bidirectional co-regulation of PSG+MRE with MRE-sharing coding transcripts, frequently not their mother genes, and with targeted microRNAs; also, PSG+MRE single-nucleotide polymorphisms associated with schizophrenia, bipolar disorder and autism, suggesting interaction with mental diseases. Our findings indicate functional roles of duplicated PSG+MRE in brain development and cognition, supporting physiological impact of the reciprocal co-regulation of PSG+MRE with MRE-sharing coding transcripts in human brain neurons.

Published
2017

34. Microrna-Reacting Pseudogenes Control Cholinergic Signaling In Brain Neurons

Author

Michal Roitman, Alon Simchovitz, Geula Hanin, Hermona Soreq, and Shahar Barbash

Subjects
Pharmacology, Genetics, Messenger RNA, Pseudogene, Biology, Acetylcholinesterase, Cell biology, Psychiatry and Mental health, chemistry.chemical_compound, Neurology, chemistry, microRNA, medicine, Cholinergic, Pharmacology (medical), Neurology (clinical), Signal transduction, Gene, Biological Psychiatry, Acetylcholine, medicine.drug
Abstract

Cholinergic signaling is controlled, among other elements by microRNA (miR) suppressors of the multiple coding cholinergic mRNA transcripts, and is impaired by single nucleotide poly-morphisms (SNPs) interrupting this suppression [1] , [2] . We have recently discovered that the selected group of non-coding pseudogenes(PSGs) carrying miR recognition elements (PSG+MRE), but not the great majority of PSGs devoid of MREs compete with brain-expressed genes on the available miR regulators, and that SNPs surrounding these coding genes tend to be more abundant in DNA from patients with psychiatric diseases compared to healthy controls. To focus on the relevance of this phenomenon to the cholinergic signaling pathway, we tested if brain miRs targeting cholinergic-related transcripts are subject to PSG+MRE surveillance. Here, we report transfection-mediated over-expression of PSG+MRE and GapmeR-directed suppression of selected human- and brain-specific cholinergic transcripts sharing MREs with them in cultured human cells, demonstrating bi-directional modulation of the interaction of these transcripts with miRs. Specifically, a dual luciferase reporter assay established in 293T-HEK cells showed that over-expression of PSG+MRE potentiated the expression levels of coding transcripts for the acetylcholine packaging Vesicular Acetylcholine Transferase (VACHT) and the acetylcholine hydrolyzing butyrylcholinesterase (BCHE), with whom they share MREs. Reciprocally, we found that selective GapmeR suppression of the acetylcholine hydrolyzing Acetylcholinesterase (ACHE) co-suppressed those PSG+MRE sharing MREs with AChE in SHSY-5Y human neuroblastoma cells. A notable example includes PSG interference with miR-608/AChE interaction, impairment of which exacerbates anxiety in healthy adults while potentiating stress-induced prefrontal activity in fMRI tests [3] . Furthermore, the extent of suppression of these PSG+MRE was proportional to the number of shared MREs between the coding transcripts and the corresponding PSG+MRE, providing a yet stronger indication for the suggested regulatory mechanism. Our findings indicate functional roles of PSGs+MRE in cholinergic functioning, with potential impact on brain health and mental disease.

Published
2017
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37. Intensified vmPFC surveillance over PTSS under perturbed microRNA-608/AChE interaction

Author

Lin, T, primary, Simchovitz, A, additional, Shenhar-Tsarfaty, S, additional, Vaisvaser, S, additional, Admon, R, additional, Hanin, G, additional, Hanan, M, additional, Kliper, E, additional, Bar-Haim, Y, additional, Shomron, N, additional, Fernandez, G, additional, Lubin, G, additional, Fruchter, E, additional, Hendler, T, additional, and Soreq, H, additional

Published
2016
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38. Long non-coding RNA and alternative splicing modulations in Parkinson's leukocytes identified by RNA sequencing

Author

Nathan Salomonis, Hermona Soreq, Lilach Soreq, Alon Simchovitz, Hagai Bergman, Zvi Israel, and Alessandro Guffanti

Subjects
Male, Deep Brain Stimulation, Gene Expression, Computational biology, Biology, Bioinformatics, Transcriptomes, Transcriptome, Cellular and Molecular Neuroscience, Exon, Genome Analysis Tools, microRNA, Molecular Cell Biology, Neurobiology of Disease and Regeneration, Genetics, Leukocytes, Humans, Genome Sequencing, Molecular Biology, lcsh:QH301-705.5, Ecology, Evolution, Behavior and Systematics, Oligonucleotide Array Sequence Analysis, Brain Mapping, Ecology, Sequence Analysis, RNA, Gene Expression Profiling, Alternative splicing, RNA, Parkinson Disease, Genomics, Amygdala, Long non-coding RNA, Functional Genomics, Gene expression profiling, Substantia Nigra, Alternative Splicing, MicroRNAs, Computational Theory and Mathematics, lcsh:Biology (General), Modeling and Simulation, RNA splicing, Female, RNA, Long Noncoding, Genome Expression Analysis, Research Article, Neuroscience
Abstract

The continuously prolonged human lifespan is accompanied by increase in neurodegenerative diseases incidence, calling for the development of inexpensive blood-based diagnostics. Analyzing blood cell transcripts by RNA-Seq is a robust means to identify novel biomarkers that rapidly becomes a commonplace. However, there is lack of tools to discover novel exons, junctions and splicing events and to precisely and sensitively assess differential splicing through RNA-Seq data analysis and across RNA-Seq platforms. Here, we present a new and comprehensive computational workflow for whole-transcriptome RNA-Seq analysis, using an updated version of the software AltAnalyze, to identify both known and novel high-confidence alternative splicing events, and to integrate them with both protein-domains and microRNA binding annotations. We applied the novel workflow on RNA-Seq data from Parkinson's disease (PD) patients' leukocytes pre- and post- Deep Brain Stimulation (DBS) treatment and compared to healthy controls. Disease-mediated changes included decreased usage of alternative promoters and N-termini, 5′-end variations and mutually-exclusive exons. The PD regulated FUS and HNRNP A/B included prion-like domains regulated regions. We also present here a workflow to identify and analyze long non-coding RNAs (lncRNAs) via RNA-Seq data. We identified reduced lncRNA expression and selective PD-induced changes in 13 of over 6,000 detected leukocyte lncRNAs, four of which were inversely altered post-DBS. These included the U1 spliceosomal lncRNA and RP11-462G22.1, each entailing sequence complementarity to numerous microRNAs. Analysis of RNA-Seq from PD and unaffected controls brains revealed over 7,000 brain-expressed lncRNAs, of which 3,495 were co-expressed in the leukocytes including U1, which showed both leukocyte and brain increases. Furthermore, qRT-PCR validations confirmed these co-increases in PD leukocytes and two brain regions, the amygdala and substantia-nigra, compared to controls. This novel workflow allows deep multi-level inspection of RNA-Seq datasets and provides a comprehensive new resource for understanding disease transcriptome modifications in PD and other neurodegenerative diseases., Author Summary Long non-coding RNAs (lncRNAs) comprise a novel, fascinating class of RNAs with largely unknown biological functions. Parkinson's-disease (PD) is the most frequent motor disorder, and Deep-brain-stimulation (DBS) treatment alleviates the symptoms, but early disease biomarkers are still unknown and new future genetic interference targets are urgently needed. Using RNA-sequencing technology and a novel computational workflow for in-depth exploration of whole-transcriptome RNA-seq datasets, we detected and analyzed lncRNAs in sequenced libraries from PD patients' leukocytes pre and post-treatment and the brain, adding this full profile resource of over 7,000 lncRNAs to the few human tissues-derived lncRNA datasets that are currently available. Our study includes sample-specific database construction, detecting disease-derived changes in known and novel lncRNAs, exons and junctions and predicting corresponding changes in Polyadenylation choices, protein domains and miRNA binding sites. We report widespread transcript structure variations at the splice junction and exons levels, including novel exons and junctions and alteration of lncRNAs followed by experimental validation in PD leukocytes and two PD brain regions compared with controls. Our results suggest lncRNAs involvement in neurodegenerative diseases, and specifically PD. This comprehensive workflow will be of use to the increasing number of laboratories producing RNA-Seq data in a wide range of biomedical studies.

Published
2013

39. Long non-coding pseudogene transcripts compete with mRNAs that share microRNA recognition elements with them in human brain neurons

Author

David A. Bennett, Aron S. Buchman, Alon Simchovitz, Sagiv Shifman, Hermona Soreq, and Shahar Barbash

Subjects
Pharmacology, Genetics, Pseudogene, Human brain, Biology, Psychiatry and Mental health, medicine.anatomical_structure, Neurology, microRNA, medicine, Pharmacology (medical), Neurology (clinical), Biological Psychiatry, Coding (social sciences)
Published
2016
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44. SINGLE NUCLEOTIDE POLYMORPHISMS IN THE GENES ENCODING AChE AND ITS miR-608 REGULATOR CO-MODULATE ANXIETY AND BLOOD PRESSURE.

Author

Simchovitz, Alon, Madrer, Nimrod, Haviv, Rotem, Hanin, Geula, Shenhar-Tsarfaty, Shani, Ben Assayag, Einor, Berliner, Shlomo, Solomon, Zehava, and Soreq, Hermona

Subjects
SINGLE nucleotide polymorphisms, GENETIC code, BLOOD pressure, CHOLINERGIC receptors, ACETYLCHOLINESTERASE, CHI-squared test
Abstract

Cholinergic-regulated phenotypes including anxiety, cardiac and immune-related properties show interindividual variability which might be affected by genomic Single Nucleotide Polymorphisms (SNPs) in the corresponding protein coding genes and their targeting microRNAs (miRs), but the combined impact of such SNP pairs is unknown. We have recently shown that the rs17228616 SNP in the Acetylcholinesterase (AChE) gene reduces the affinity of AChE mRNA to the primate-specific miR-608 and elevates both AChE levels in brain and blood as well as trait anxiety and blood pressure (1) while affecting PTSD-related neural circuits and downregulating numerous brain miR-608 targets (2). Others reported that the rs4919510 SNP in the miR-608 gene reduces miR- 608 levels in vitro and limits the risk of sepsis following head injury in vivo (3). To explore the combined effect of these two SNPs, we tested 444 healthy 30 years old US donors and 101 Israeli ex-prisoners of the 1973 war (EWP), 76 of whom returned with post-traumatic stress disorder(PTSD). Genotyping combined with R-statistics of the corresponding biomedical evidence demonstrated that the rare allele of the AChE SNP was more abundant among non-PTSD EWP donors compared to PTSD patients in this cohort (33 vs 19%, Chi-square 0.03). Moreover, we found in both of these cohorts interaction between the effect of the two SNPs on blood pressure, inflammation and anxiety-related parameters, with the miR-608 SNP stratifying the corresponding impact of the rare allele of the AChE SNP on these parameters. Our findings indicate an interaction between the SNPs in the AChE and miR-608 genes, possibly reflecting modified impact of this primate-specific miR on its numerous downstream targets. [ABSTRACT FROM AUTHOR]

Published
2018

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