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3,022 results on '"Messenger-rna"'

401. Ribosome impairment regulates intestinal stem cell identity via ZAKɑ activation

Author

Silva, Joana, Alkan, Ferhat, Ramalho, Sofia, Snieckute, Goda, Prekovic, Stefan, Garcia, Ana Krotenberg, Hernández-Pérez, Santiago, Kammen, Rob van der, Barnum, Danielle, Hoekman, Liesbeth, Altelaar, Maarten, Zwart, Wilbert, Suijkerbuijk, Saskia J E, Bekker-Jensen, Simon, Faller, William James, Sub Developmental Biology, Afd Biomol.Mass Spect. and Proteomics, Developmental Biology, Biomolecular Mass Spectrometry and Proteomics, Sub Developmental Biology, Afd Biomol.Mass Spect. and Proteomics, Developmental Biology, and Biomolecular Mass Spectrometry and Proteomics

Subjects
Translation, Kinase, Identification, Chemistry(all), General Physics and Astronomy, Expression, Progenitors, Physics and Astronomy(all), Biochemistry, General Biochemistry, Genetics and Molecular Biology, Receptors, G-Protein-Coupled, Mice, Quantification, Intestine, Small, Animals, Regeneration, Intestinal Mucosa, General, Multidisciplinary, Biochemistry, Genetics and Molecular Biology(all), Stem Cells, General Chemistry, Intestines, Messenger-rna, Differentiation, Gcn2, Ribosomes, Genetics and Molecular Biology(all)
Abstract

The small intestine is a rapidly proliferating organ that is maintained by a small population of Lgr5-expressing intestinal stem cells (ISCs). However, several Lgr5-negative ISC populations have been identified, and this remarkable plasticity allows the intestine to rapidly respond to both the local environment and to damage. However, the mediators of such plasticity are still largely unknown. Using intestinal organoids and mouse models, we show that upon ribosome impairment (driven by Rptor deletion, amino acid starvation, or low dose cyclohexamide treatment) ISCs gain an Lgr5-negative, fetal-like identity. This is accompanied by a rewiring of metabolism. Our findings suggest that the ribosome can act as a sensor of nutrient availability, allowing ISCs to respond to the local nutrient environment. Mechanistically, we show that this phenotype requires the activation of ZAKɑ, which in turn activates YAP, via SRC. Together, our data reveals a central role for ribosome dynamics in intestinal stem cells, and identify the activation of ZAKɑ as a critical mediator of stem cell identity.

Published
2022
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402. α-Synuclein-induced dysregulation of neuronal activity contributes to murine dopamine neuron vulnerability

Author

Dagra, Abeer, Miller, Douglas R., Lin, Min, Gopinath, Adithya, Shaerzadeh, Fatemeh, Harris, Sharonda, Sorrentino, Zachary A., Stoier, Jonatan Fullerton, Velasco, Sophia, Azar, Janelle, Alonge, Adetola R., Lebowitz, Joseph J., Ulm, Brittany, Bu, Mengfei, Hansen, Carissa A., Urs, Nikhil, Giasson, Benoit, Khoshbouei, Habibeh, Dagra, Abeer, Miller, Douglas R., Lin, Min, Gopinath, Adithya, Shaerzadeh, Fatemeh, Harris, Sharonda, Sorrentino, Zachary A., Stoier, Jonatan Fullerton, Velasco, Sophia, Azar, Janelle, Alonge, Adetola R., Lebowitz, Joseph J., Ulm, Brittany, Bu, Mengfei, Hansen, Carissa A., Urs, Nikhil, Giasson, Benoit, and Khoshbouei, Habibeh

Abstract

Pathophysiological damages and loss of function of dopamine neurons precede their demise and contribute to the early phases of Parkinson's disease. The presence of aberrant intracellular pathological inclusions of the protein alpha-synuclein within ventral midbrain dopaminergic neurons is one of the cardinal features of Parkinson's disease. We employed molecular biology, electrophysiology, and live-cell imaging to investigate how excessive alpha-synuclein expression alters multiple characteristics of dopaminergic neuronal dynamics and dopamine transmission in cultured dopamine neurons conditionally expressing GCaMP6f. We found that overexpression of alpha-synuclein in mouse (male and female) dopaminergic neurons altered neuronal firing properties, calcium dynamics, dopamine release, protein expression, and morphology. Moreover, prolonged exposure to the D2 receptor agonist, quinpirole, rescues many of the alterations induced by alpha-synuclein overexpression. These studies demonstrate that alpha-synuclein dysregulation of neuronal activity contributes to the vulnerability of dopaminergic neurons and that modulation of D2 receptor activity can ameliorate the pathophysiology. These findings provide mechanistic insights into the insidious changes in dopaminergic neuronal activity and neuronal loss that characterize Parkinson's disease progression with significant therapeutic implications.

Published
2021

403. Dopaminergic Denervation Impairs Cortical Motor and Associative/Limbic Information Processing Through the Basal Ganglia and its Modulation by the CB1 Receptor

Author

Farmacología, Neurociencias, Farmakologia, Neurozientziak, Antonazzo Soler, Mario, Gómez Urquijo, Sonia María, Ugedo Urruela, Luisa, Morera Herreras, Teresa, Farmacología, Neurociencias, Farmakologia, Neurozientziak, Antonazzo Soler, Mario, Gómez Urquijo, Sonia María, Ugedo Urruela, Luisa, and Morera Herreras, Teresa

Abstract

The basal ganglia (BG) are involved in cognitive/motivational functions in addition to movement control. Thus, BG segregated circuits, the sensorimotor (SM) and medial prefrontal (mPF) circuits, process different functional domains, such as motor and cognitive/motivational behaviours, respectively. With a high presence in the BG, the CB1 cannabinoid receptor modulates BG circuits. Furthermore, dopamine (DA), one of the principal neurotransmitters in the BG, also plays a key role in circuit functionality. Taking into account the interaction between DA and the endocannabinoid system at the BG level, we investigated the functioning of BG circuits and their modulation by the CB1 receptor under DA-depleted conditions. We performed single-unit extracellular recordings of substantia nigra pars reticulata (SNr) neurons with simultaneous cortical stimulation in sham and 6-hydroxydopamine (6-OHDA)-lesioned rats, together with immunohistochemical assays. We showed that DA loss alters cortico-nigral information processing in both circuits, with a predominant transmission through the hyperdirect pathway in the SM circuit and an increased transmission through the direct pathway in the mPF circuit. Moreover, although DA denervation does not change CB1 receptor density, it impairs its functionality, leading to a lack of modulation. These data highlight an abnormal transfer of information through the associative/limbic domains after DA denervation that may be related to the non-motor symptoms manifested by Parkinson's disease patients.

Published
2021

404. Fit-for-purpose based testing and validation of antibodies to amino- and carboxy-terminal domains of cannabinoid receptor

Author

Farmacología, Fisiología, Neurociencias, Química analítica, Farmakologia, Fisiologia, Kimika analitikoa, Neurozientziak, Echeazarra Escudero, Leire, García del Caño, Gontzal, Barrondo Lacarra, Sergio, González Burguera, Imanol, Saumell Esnaola, Miquel, Aretxabala Rodríguez, Xabier, López de Jesús, Maider, Borrega Román, Leire, Mato Santos, Susana, Ledent, Catherine, Matute Almau, Carlos José, Goicolea Altuna, María Aranzazu, Sallés Alvira, Joan, Farmacología, Fisiología, Neurociencias, Química analítica, Farmakologia, Fisiologia, Kimika analitikoa, Neurozientziak, Echeazarra Escudero, Leire, García del Caño, Gontzal, Barrondo Lacarra, Sergio, González Burguera, Imanol, Saumell Esnaola, Miquel, Aretxabala Rodríguez, Xabier, López de Jesús, Maider, Borrega Román, Leire, Mato Santos, Susana, Ledent, Catherine, Matute Almau, Carlos José, Goicolea Altuna, María Aranzazu, and Sallés Alvira, Joan

Abstract

Specific and selective anti-CB1 antibodies are among the most powerful research tools to unravel the complex biological processes mediated by the CB1 receptor in both physiological and pathological conditions. However, low performance of antibodies remains a major source of inconsistency between results from different laboratories. Using a variety of techniques, including some of the most commonly accepted ones for antibody specificity testing, we identified three of five commercial antibodies against different regions of CB1 receptor as the best choice for specific end-use purposes. Specifically, an antibody against a long fragment of the extracellular amino tail of CB1 receptor (but not one against a short sequence of the extreme amino-terminus) detected strong surface staining when applied to live cells, whereas two different antibodies against an identical fragment of the extreme carboxy-terminus of CB1 receptor (but not one against an upstream peptide) showed acceptable performance on all platforms, although they behaved differently in immunohistochemical assays depending on the tissue fixation procedure used and showed different specificity in Western blot assays, which made each of them particularly suitable for one of those techniques. Our results provide a framework to interpret past and future results derived from the use of different anti-CB1 antibodies in the context of current knowledge about the CB1 receptor at the molecular level, and highlight the need for an adequate validation for specific purposes, not only before antibodies are placed on the market, but also before the decision to discontinue them is made.

Published
2021

405. Differential brain ADRA2A and ADRA2C gene expression and epigenetic regulation in schizophrenia. Effect of antipsychotic drug treatment

Author

Farmacología, Farmakologia, Brocos Mosquera, Iria, Miranda Azpiazu, Patricia, Muguruza Millán, Carolina, Corzo Monje, Virginia, Morentin Campillo, Benito, Meana Martínez, José Javier, Callado Hernando, Luis Felipe, Rivero Calera, Guadalupe, Farmacología, Farmakologia, Brocos Mosquera, Iria, Miranda Azpiazu, Patricia, Muguruza Millán, Carolina, Corzo Monje, Virginia, Morentin Campillo, Benito, Meana Martínez, José Javier, Callado Hernando, Luis Felipe, and Rivero Calera, Guadalupe

Abstract

[EN] Postsynaptic alpha(2A)-adrenoceptor density is enhanced in the dorsolateral prefrontal cortex (DLPFC) of antipsychotic-treated schizophrenia subjects. This alteration might be due to transcriptional activation, and could be regulated by epigenetic mechanisms such as histone posttranslational modifications (PTMs). The aim of this study was to evaluate ADRA2A and ADRA2C gene expression (codifying for alpha(2)-adrenoceptor subtypes), and permissive and repressive histone PTMs at gene promoter regions in the DLPFC of subjects with schizophrenia and matched controls (n = 24 pairs). We studied the effect of antipsychotic (AP) treatment in AP-free (n = 12) and AP-treated (n = 12) subgroups of schizophrenia subjects and in rats acutely and chronically treated with typical and atypical antipsychotics. ADRA2A mRNA expression was selectively upregulated in AP-treated schizophrenia subjects (+93%) whereas ADRA2C mRNA expression was upregulated in all schizophrenia subjects (+53%) regardless of antipsychotic treatment. Acute and chronic clozapine treatment in rats did not alter brain cortex Adra2a mRNA expression but increased Adra2c mRNA expression. Both ADRA2A and ADRA2C promoter regions showed epigenetic modification by histone methylation and acetylation in human DLPFC. The upregulation of ADRA2A expression in AP-treated schizophrenia subjects might be related to observed bivalent chromatin at ADRA2A promoter region in schizophrenia (depicted by increased permissive H3K4me3 and repressive H3K27me3) and could be triggered by the enhanced H4K16ac at ADRA2A promoter. In conclusion, epigenetic predisposition differentially modulated ADRA2A and ADRA2C mRNA expression in DLPFC of schizophrenia subjects.

Published
2021

406. Characterization of microglial transcriptomes in the brain and spinal cord of mice in early and late experimental autoimmune encephalomyelitis using a RiboTag strategy

Author

Acharjee, S, Gordon, PMK, Lee, BH, Read, Justin, Workentine, ML, Sharkey, KA, Pittman, QJ, Acharjee, S, Gordon, PMK, Lee, BH, Read, Justin, Workentine, ML, Sharkey, KA, and Pittman, QJ

Abstract

AbstractMicroglia play an important role in the pathogenesis of multiple sclerosis and the mouse model of MS, experimental autoimmune encephalomyelitis (EAE). To more fully understand the role of microglia in EAE we characterized microglial transcriptomes before the onset of motor symptoms (pre-onset) and during symptomatic EAE. We compared the transcriptome in brain, where behavioral changes are initiated, and spinal cord, where damage is revealed as motor and sensory deficits. We used a RiboTag strategy to characterize ribosome-bound mRNA only in microglia without incurring possible transcriptional changes after cell isolation. Brain and spinal cord samples clustered separately at both stages of EAE, indicating regional heterogeneity. Differences in gene expression were observed in the brain and spinal cord of pre-onset and symptomatic animals with most profound effects in the spinal cord of symptomatic animals. Canonical pathway analysis revealed changes in neuroinflammatory pathways, immune functions and enhanced cell division in both pre-onset and symptomatic brain and spinal cord. We also observed a continuum of many pathways at pre-onset stage that continue into the symptomatic stage of EAE. Our results provide additional evidence of regional and temporal heterogeneity in microglial gene expression patterns that may help in understanding mechanisms underlying various symptomology in MS.

Published
2021

407. Ultrastructure of influenza virus ribonucleoprotein complexes during viral RNA synthesis

Author

Masahiro, Nakano, Yukihiko, Sugita, Noriyuki, Kodera, Sho, Miyamoto, Yukiko, Muramoto, Matthias, Wolf, Takeshi, Noda, Masahiro, Nakano, Yukihiko, Sugita, Noriyuki, Kodera, Sho, Miyamoto, Yukiko, Muramoto, Matthias, Wolf, and Takeshi, Noda

Abstract

The single-stranded, negative-sense, viral genomic RNA (vRNA) of influenza A virus is encapsidated by viral nucleoproteins (NPs) and an RNA polymerase to form a ribonucleoprotein complex (vRNP) with a helical, rod-shaped structure. The vRNP is responsible for transcription and replication of the vRNA. However, the vRNP conformation during RNA synthesis is not well understood. Here, using high-speed atomic force microscopy and cryo-electron microscopy, we investigated the native structure of influenza A vRNPs during RNA synthesis in vitro. Two distinct types of vRNPs were observed in association with newly synthesized RNAs: an intact, helical rod-shaped vRNP connected with a folded RNA and a deformed vRNP associated with a looped RNA. Interestingly, the looped RNA was a double-stranded RNA, which likely comprises a nascent RNA and the template RNA detached from NPs of the vRNP. These results suggest that while some vRNPs keep their helical structures during RNA synthesis, for the repeated cycle of RNA synthesis, others accidentally become structurally deformed, which likely results in failure to commence or continue RNA synthesis. Thus, our findings provide the ultrastructural feature of vRNPs during RNA synthesis., source:https://www.nature.com/articles/s42003-021-02388-4

Published
2021

408. Fit-for-purpose based testing and validation of antibodies to amino- and carboxy-terminal domains of cannabinoid receptor 1

Author

Farmacología, Fisiología, Neurociencias, Química analítica, Farmakologia, Fisiologia, Kimika analitikoa, Neurozientziak, Echeazarra Escudero, Leire, García del Caño, Gontzal, Barrondo Lacarra, Sergio, González Burguera, Imanol, Saumell Esnaola, Miquel, Aretxabala Rodríguez, Xabier, López de Jesús, Maider, Borrega Román, Leire, Mato Santos, Susana, Ledent, Catherine, Matute Almau, Carlos José, Goicolea Altuna, María Aranzazu, Sallés Alvira, Joan, Farmacología, Fisiología, Neurociencias, Química analítica, Farmakologia, Fisiologia, Kimika analitikoa, Neurozientziak, Echeazarra Escudero, Leire, García del Caño, Gontzal, Barrondo Lacarra, Sergio, González Burguera, Imanol, Saumell Esnaola, Miquel, Aretxabala Rodríguez, Xabier, López de Jesús, Maider, Borrega Román, Leire, Mato Santos, Susana, Ledent, Catherine, Matute Almau, Carlos José, Goicolea Altuna, María Aranzazu, and Sallés Alvira, Joan

Abstract

Specific and selective anti-CB1 antibodies are among the most powerful research tools to unravel the complex biological processes mediated by the CB1 receptor in both physiological and pathological conditions. However, low performance of antibodies remains a major source of inconsistency between results from different laboratories. Using a variety of techniques, including some of the most commonly accepted ones for antibody specificity testing, we identified three of five commercial antibodies against different regions of CB1 receptor as the best choice for specific end-use purposes. Specifically, an antibody against a long fragment of the extracellular amino tail of CB1 receptor (but not one against a short sequence of the extreme amino-terminus) detected strong surface staining when applied to live cells, whereas two different antibodies against an identical fragment of the extreme carboxy-terminus of CB1 receptor (but not one against an upstream peptide) showed acceptable performance on all platforms, although they behaved differently in immunohistochemical assays depending on the tissue fixation procedure used and showed different specificity in Western blot assays, which made each of them particularly suitable for one of those techniques. Our results provide a framework to interpret past and future results derived from the use of different anti-CB1 antibodies in the context of current knowledge about the CB1 receptor at the molecular level, and highlight the need for an adequate validation for specific purposes, not only before antibodies are placed on the market, but also before the decision to discontinue them is made.

Published
2021

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