Raffaella Calligaris scite author profile

The induction of Rrs1 expression is one of the earliest events detected in a presymptomatic knock-in mouse model of Huntington disease (HD). Rrs1 up-regulation fulfills the HD criteria of dominance, striatal specificity, and polyglutamine dependence. Here we show that mammalian Rrs1 is localized both in the nucleolus as well as in the endoplasmic reticulum (ER) of neurons. This dual localization is shared with its newly identified molecular partner 3D3/lyric. We then show that both genes are induced by ER stress in neurons. Interestingly, we demonstrate that ER stress is an early event in a presymptomatic HD mouse model that persists throughout the life span of the rodent. We further show that ER stress also occurs in postmortem brains of HD patients.

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Alternative translation initiation site usage results in two functionally distinct forms of the GATA-1 transcription factor.

Calligaris

Bottardi

Cogoi

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

138

113

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GATA-1 is a zinc-finger transcription factor that plays a critical role in the normal development of hematopoietic cell lineages. In human and murine erythroid cells a previously undescribed 40-kDa protein is detected with GATA-1-specific antibodies. We show that the 40-kDa GATA-1 (GATA-1s) is produced by the use of an internal AUG initiation codon in the GATA-1 transcript. The GATA-1 proteins share identical binding activity and form heterodimers in erythroleukemic cells but differ in their transactivation potential and in their expression in developing mouse embryos.

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Suppression of artifacts and barcode bias in high-throughput transcriptome analyses utilizing template switching

Tang

Plessy

Salimullah

et al. 2012

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Template switching (TS) has been an inherent mechanism of reverse transcriptase, which has been exploited in several transcriptome analysis methods, such as CAGE, RNA-Seq and short RNA sequencing. TS is an attractive option, given the simplicity of the protocol, which does not require an adaptor mediated step and thus minimizes sample loss. As such, it has been used in several studies that deal with limited amounts of RNA, such as in single cell studies. Additionally, TS has also been used to introduce DNA barcodes or indexes into different samples, cells or molecules. This labeling allows one to pool several samples into one sequencing flow cell, increasing the data throughput of sequencing and takes advantage of the increasing throughput of current sequences. Here, we report TS artifacts that form owing to a process called strand invasion. Due to the way in which barcodes/indexes are introduced by TS, strand invasion becomes more problematic by introducing unsystematic biases. We describe a strategy that eliminates these artifacts in silico and propose an experimental solution that suppresses biases from TS.

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Blood transcriptomics of drug-naïve sporadic Parkinson’s disease patients

et al. 2015

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BackgroundParkinson’s disease (PD) is a chronic progressive neurodegenerative disorder that is clinically defined in terms of motor symptoms. These are preceded by prodromal non-motor manifestations that prove the systemic nature of the disease. Identifying genes and pathways altered in living patients provide new information on the diagnosis and pathogenesis of sporadic PD.MethodsChanges in gene expression in the blood of 40 sporadic PD patients and 20 healthy controls ("Discovery set") were analyzed by taking advantage of the Affymetrix platform. Patients were at the onset of motor symptoms and before initiating any pharmacological treatment. Data analysis was performed by applying Ranking-Principal Component Analysis, PUMA and Significance Analysis of Microarrays. Functional annotations were assigned using GO, DAVID, GSEA to unveil significant enriched biological processes in the differentially expressed genes. The expressions of selected genes were validated using RT-qPCR and samples from an independent cohort of 12 patients and controls ("Validation set").ResultsGene expression profiling of blood samples discriminates PD patients from healthy controls and identifies differentially expressed genes in blood. The majority of these are also present in dopaminergic neurons of the Substantia Nigra, the key site of neurodegeneration. Together with neuronal apoptosis, lymphocyte activation and mitochondrial dysfunction, already found in previous analysis of PD blood and post-mortem brains, we unveiled transcriptome changes enriched in biological terms related to epigenetic modifications including chromatin remodeling and methylation. Candidate transcripts as CBX5, TCF3, MAN1C1 and DOCK10 were validated by RT-qPCR. ConclusionsOur data support the use of blood transcriptomics to study neurodegenerative diseases. It identifies changes in crucial components of chromatin remodeling and methylation machineries as early events in sporadic PD suggesting epigenetics as target for therapeutic intervention.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-015-2058-3) contains supplementary material, which is available to authorized users.

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Aggresome-forming TTRAP mediates pro-apoptotic properties of Parkinson's disease-associated DJ-1 missense mutations

et al. 2008

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Mutations in PARK7 DJ-1 have been associated with autosomal-recessive early-onset Parkinson's disease (PD). This gene encodes for an atypical peroxiredoxin-like peroxidase that may act as a regulator of transcription and a redox-dependent chaperone. Although large gene deletions have been associated with a loss-of-function phenotype, the pathogenic mechanism of several missense mutations is less clear. By performing a yeast two-hybrid screening from a human fetal brain library, we identified TRAF and TNF receptor-associated protein (TTRAP), an ubiquitin-binding domain-containing protein, as a novel DJ-1 interactor, which was able to bind the PD-associated mutations M26I and L166P more strongly than wild type. TTRAP protected neuroblastoma cells from apoptosis induced by proteasome impairment. In these conditions, endogenous TTRAP relocalized to a detergent-insoluble fraction and formed cytoplasmic aggresome-like structures. Interestingly, both DJ-1 mutants blocked the TTRAP protective activity unmasking a c-jun N-terminal kinase (JNK)-and p38-MAPK (mitogen-activated protein kinase)-mediated apoptosis. These results suggest an active role of DJ-1 missense mutants in the control of cell death and position TTRAP as a new player in the arena of neurodegeneration. Cell Death and Differentiation (2009) Parkinson's disease (PD) is the second most common progressive neurodegenerative disorder, affecting 1-2% of all individuals above the age of 65 years. Its neuropathological hallmark is the selective degeneration of subsets of mesencephalic dopaminergic cells and the formation of proteinaceous cytoplasmic aggregates called Lewy bodies. 1 Several studies implicate the ubiquitin-proteasome system in PD pathogenesis. 2 Synthetic proteasome inhibitors preferentially affect catecholaminergic neurons, leading to cell death. Furthermore, key ubiquitin-proteasome system elements are altered in PD post-mortem brains. [3][4][5] The identification of genes (PARK1-14) associated with familial PD has provided crucial insights into the pathogenic mechanisms. 1 The ubiquitin ligase parkin (PARK2) and the ubiquitin C-terminal hydrolase-L1 (UCH-L1) (PARK5) have been implicated in the ubiquitin-proteasome system function. Interestingly, upon treatment with proteasome inhibitors, they formed insoluble aggregates and were recruited to a juxtanuclear aggresome-like inclusion that resembled the Lewy body. 6,7 Autosomal-recessive early-onset PD has been associated with mutations in PARK7/DJ-1. 8 Functional DJ-1 is a dimer that acts as an atypical peroxiredoxin-like peroxidase as well as a regulator of transcription and a chaperone. 9-12 Interestingly, ectopic DJ-1 expression protects cells from death induced by a variety of insults. 13 DJ-1 loss in humans causes PD. 14 DJ-1 knock-out (KO) mice and flies showed increased vulnerabilities to neurotoxic agents but no signs of dopaminergic cell death. [15][16][17] PD families may also present missense mutations of DJ-1 in homozygous (L166P, M26I and E64D) and heterozygous forms (A104T and D149A)....

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