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Sozial- und politikromantische Einbildungen haben eine lange, vielleicht sogar unendliche Lebensdauer, vor allem - aber nicht nur - in den Massenmedien. Zu solchen Vorstellungen gehört, dass die Oper vor allem im 19. Jahrhundert eine revolutionäre und systemkritische Wirksamkeit entfaltete oder die Komponisten dies zumindest beabsichtigten. [...] Die Opernzensur, so wird umgekehrt geschlossen, sei dazu dagewesen, all dies zu unterdrücken. Und die freiheitsliebenden und aufgeklärten Komponisten hätten einen steten Kampf gegen die Zensoren zu führen gehabt. Das hier skizzierte Bild der Operngeschichte darf man, auch wenn es immer noch in wissenschaftlichen Kontexten erscheint, als groben Unfug bezeichnen. [...] Viel wichtiger als das politische Argument war sowohl im 18. wie im 19. Jahrhundert das moralische Argument von Zensoren gegen einzelne Opern.
Warum interessiert sich der Opernforscher für das Opernpublikum? Opernkomponisten und Librettisten des 19. Jahrhunderts verfaßten oder bearbeiteten ihre Werke im Hinblick auf bestimmte Opernhäuser, auf deren Usancen, finanzielle und technische Möglichkeiten (z.B. die zur Verfügung stehende Orchesterbesetzung und - vor allem - die verfügbaren Sänger und Sängerinnen) sowie Rahmenbedingungen, auf die sie ebenso Rücksicht nehmen mußten wie auf die Zensur. Eine der dominanten Rahmenbedingungen war das Publikum. Ästhetische Präferenzen, Bildungsgrad, Erwartungshorizont, aber auch ganz banale Erwartungen an die maximale Länge einer Oper konnten den Erfolg einer Oper erheblich beeinflussen. [...] Will man also die Bedingungen untersuchen, denen die Opern in ästhetischer und institutioneller Hinsicht unterlagen, kommt man um eine Analyse des Opernpublikums nicht herum. [...] Die folgenden Ausführungen sollen einige methodische Hinweise zur Möglichkeit der Analyse des Opernpublikums im 19. Jahrhundert anhand konkreter Beispiele geben, die aber ausdrücklich nur auf dieses Jahrhundert (im Sinne des "langen" 19. Jahrhunderts) beschränkt sind.
Wer ist Margherita Salicola? Man erfährt über sie in den einschlägigen Lexika nur, sie sei die Schwester der Sängerin Angiola (oder Angela) Salicola und die berühmtere der beiden gewesen, daß aber sich kaum Nachrichten über sie erhalten hätten, außer jener daß sie, wie ihre Schwester, in den Diensten des Herzogs Ferdinando Carlo (IV.) Gonzaga von Mantua gestanden habe und dann mit Johann Georg III. nach Dresden gegangen sei. Schon Lorenzo Bianconi und Thomas Walker hatten in einem langen Artikel, der noch heute die Grundlage aller sozialgeschichtlichen Arbeiten zur Operngeschichte des 17. Jahrhunderts ist, herausgearbeitet, daß die ca. 1660 geborene Sängerin in den 1680er Jahren zu den international berühmtesten italienischen Sängerinnen gehörte und ihr Ruhm auch jenseits der Alpen noch am Anfang des 18. Jahrhunderts nicht verblaßt war. 1682 begegnet Salicola zum erstenmal als Sängerin am Teatro San Salvatore in Venedig in einer Oper Giovanni Legrenzis und trat im folgenden Jahr in Pietro Andrea Zianis "Il talamo preservato dalla fedeltà d’Eudossa" in Reggio Emilia auf. Kurz darauf sang sie in Venedig, wo ihr der sächsische Kurfürst begegnete, der sie - davon handelt der folgende Text - mit nach Dresden nahm, wo sie, die erste Primadonna jenseits der Alpen wurde. 1693, nachdem sie Dresden verlassen hatte, trat sie in Wien auf und ist ab 1696 erneut in Italien nachweisbar. [...] War Salicola bei den Zeitgenossen berühmt wegen ihres Gesangs, so wurde sie musikhistorisch vor allem bekannt durch ihre angebliche Entführung aus Venedig, die noch im 19. Jahrhundert und bis heute immer wieder erzählt wurde. Aber auch außerhalb der musikwissenschaftlichen Literatur werden die im folgenden dargestellten Ereignisse anekdotisch erzählt und mit der "Theaterbegeisterung der höfischen Gesellschaft" erklärt. Im folgenden soll dem, im Detail gelegentlich verwirrenden, "Salicola incident" erneut nachgegangen werden, um ihn dann innerhalb des politisch-kulturellen Rahmens zu erklären.
Sowohl die Abhängigkeit des Erfolgs von Sängern von der Mode, d. h. der Mode des Publikums, wie die Tatsache, dass gut singen zu können zwar nicht schadet, aber nicht essentiell für die Karriere von Sängern ist, widerspricht der These von John Rosselli, der in seinem maßgeblichen Buch über italienische Sänger der Meinung war, am Ende des 18. Jahrhunderts hätte sich für Sänger ein Markt herausgebildet, der nach dem Gesetz von Angebot und Nachfrage funktionierte. [...] Der Gesangs-Star verdankte seine Existenz schon im 19. Jahrhundert wiederum einem geschickten Marketing ("Reklame"), welches nicht zuletzt durch die ständigen Pressemeldungen möglich war, die nach Möglichkeit beeinflusst wurden. Sehr deutlich ist das an der spektakulären Affäre Lucca - Mallinger zu sehen.
Background: PINK1 deficiency causes the autosomal recessive PARK6 variant of Parkinson’s disease. PINK1 activates ubiquitin by phosphorylation and cooperates with the downstream ubiquitin ligase PARKIN, to exert quality control and control autophagic degradation of mitochondria and of misfolded proteins in all cell types.
Methods: Global transcriptome profiling of mouse brain and neuron cultures were assessed in protein-protein interaction diagrams and by pathway enrichment algorithms. Validation by quantitative reverse transcriptase polymerase chain reaction and immunoblots was performed, including human neuroblastoma cells and patient primary skin fibroblasts.
Results: In a first approach, we documented Pink1-deleted mice across the lifespan regarding brain mRNAs. The expression changes were always subtle, consistently affecting “intracellular membrane-bounded organelles”. Significant anomalies involved about 250 factors at age 6 weeks, 1300 at 6 months, and more than 3500 at age 18 months in the cerebellar tissue, including Srsf10, Ube3a, Mapk8, Creb3, and Nfkbia. Initially, mildly significant pathway enrichment for the spliceosome was apparent. Later, highly significant networks of ubiquitin-mediated proteolysis and endoplasmic reticulum protein processing occurred. Finally, an enrichment of neuroinflammation factors appeared, together with profiles of bacterial invasion and MAPK signaling changes—while mitophagy had minor significance. Immunohistochemistry showed pronounced cellular response of Iba1-positive microglia and GFAP-positive astrocytes; brain lipidomics observed increases of ceramides as neuroinflammatory signs at old age.
In a second approach, we assessed PINK1 deficiency in the presence of a stressor. Marked dysregulations of microbial defense factors Ifit3 and Rsad2 were consistently observed upon five analyses: (1) Pink1 −/− primary neurons in the first weeks after brain dissociation, (2) aged Pink1 −/− midbrain with transgenic A53T-alpha-synuclein overexpression, (3) human neuroblastoma cells with PINK1-knockdown and murine Pink1 −/− embryonal fibroblasts undergoing acute starvation, (4) triggering mitophagy in these cells with trifluoromethoxy carbonylcyanide phenylhydrazone (FCCP), and (5) subjecting them to pathogenic RNA-analogue poly(I:C). The stress regulation of MAVS, RSAD2, DDX58, IFIT3, IFIT1, and LRRK2 was PINK1 dependent. Dysregulation of some innate immunity genes was also found in skin fibroblast cells from PARK6 patients.
Conclusions: Thus, an individual biomarker with expression correlating to progression was not identified. Instead, more advanced disease stages involved additional pathways. Hence, our results identify PINK1 deficiency as an early modulator of innate immunity in neurons, which precedes late stages of neuroinflammation during alpha-synuclein spreading.
The presynaptic protein alpha-synuclein has received much attention because its gain-of-function is associated with Parkinson’s disease. However, its physiological function is still poorly understood. We studied brain regions of knock-out mice at different ages with regard to consistent upregulations of the transcriptome and focused on glyoxalase I (GLO1). The microarray data were confirmed in qPCR, immunoblot, enzyme activity, and behavior analyses. GLO1 induction is a known protective cellular response to glucose stress, representing efforts to decrease toxic levels of methylglyoxal (MG), glyoxal and advanced glycation endproducts (AGEs). Mass spectrometry quantification demonstrated a ubiquitous increase in MG and fructosyl-lysine as consequences of glucose toxicity, and consistent enhancement of certain AGEs. Thus, GLO1 induction in KO brain seems insufficient to prevent AGE formation. In conclusion, the data demonstrate GLO1 expression and glycation damage to be induced by alpha-synuclein ablation. We propose that wild-type alpha-synuclein modulates brain glucose metabolism.
During cell stress, the transcription and translation of immediate early genes are prioritized, while most other messenger RNAs (mRNAs) are stored away in stress granules or degraded in processing bodies (P-bodies). TIA-1 is an mRNA-binding protein that needs to translocate from the nucleus to seed the formation of stress granules in the cytoplasm. Because other stress granule components such as TDP-43, FUS, ATXN2, SMN, MAPT, HNRNPA2B1, and HNRNPA1 are crucial for the motor neuron diseases amyotrophic lateral sclerosis (ALS)/spinal muscular atrophy (SMA) and for the frontotemporal dementia (FTD), here we studied mouse nervous tissue to identify mRNAs with selective dependence on Tia1 deletion. Transcriptome profiling with oligonucleotide microarrays in comparison of spinal cord and cerebellum, together with independent validation in quantitative reverse transcriptase PCR and immunoblots demonstrated several strong and consistent dysregulations. In agreement with previously reported TIA1 knock down effects, cell cycle and apoptosis regulators were affected markedly with expression changes up to +2-fold, exhibiting increased levels for Cdkn1a, Ccnf, and Tprkb vs. decreased levels for Bid and Inca1 transcripts. Novel and surprisingly strong expression alterations were detected for fat storage and membrane trafficking factors, with prominent +3-fold upregulations of Plin4, Wdfy1, Tbc1d24, and Pnpla2 vs. a −2.4-fold downregulation of Cntn4 transcript, encoding an axonal membrane adhesion factor with established haploinsufficiency. In comparison, subtle effects on the RNA processing machinery included up to 1.2-fold upregulations of Dcp1b and Tial1. The effect on lipid dynamics factors is noteworthy, since also the gene deletion of Tardbp (encoding TDP-43) and Atxn2 led to fat metabolism phenotypes in mouse. In conclusion, genetic ablation of the stress granule nucleator TIA-1 has a novel major effect on mRNAs encoding lipid homeostasis factors in the brain, similar to the fasting effect.
Spinocerebellar ataxia type 2 (SCA2) is an autosomal dominantly inherited neurodegenerative disorder with preferential affection of Purkinje neurons, which are known as integrators of calcium currents. The expansion of a polyglutamine (polyQ) domain in the RNA-binding protein ataxin-2 (ATXN2) is responsible for this disease, but the causal roles of deficient ATXN2 functions versus aggregation toxicity are still under debate. Here, we studied mouse mutants with Atxn2 knockout (KO) regarding their cerebellar global transcriptome by microarray and RT-qPCR, in comparison with data from Atxn2-CAG42-knock-in (KIN) mouse cerebellum. Global expression downregulations involved lipid and growth signaling pathways in good agreement with previous data. As a novel effect, downregulations of key factors in calcium homeostasis pathways (the transcription factor Rora, transporters Itpr1 and Atp2a2, as well as regulator Inpp5a) were observed in the KO cerebellum, and some of them also occurred subtly early in KIN cerebellum. The ITPR1 protein levels were depleted from soluble fractions of cerebellum in both mutants, but accumulated in its membrane-associated form only in the SCA2 model. Coimmunoprecipitation demonstrated no association of ITPR1 with Q42-expanded or with wild-type ATXN2. These findings provide evidence that the physiological functions and protein interactions of ATXN2 are relevant for calcium-mediated excitation of Purkinje cells as well as for ATXN2-triggered neurotoxicity. These insights may help to understand pathogenesis and tissue specificity in SCA2 and other polyQ ataxias like SCA1, where inositol regulation of calcium flux and RORalpha play a role.
Complexin-1 and foxp1 expression changes are novel brain effects of
alpha-synuclein pathology
(2014)
As the second most frequent neurodegenerative disorder of the aging population, Parkinson’s disease (PD) is characterized by progressive deficits in spontaneous movement, atrophy of dopaminergic midbrain neurons and aggregation of the protein alpha-synuclein (SNCA). To elucidate molecular events before irreversible cell death, we studied synucleinopathy-induced expression changes in mouse brain and identified 49 midbrain/brainstem-specific transcriptional dysregulations. In particular complexin-1 (Cplx1), Rabl2a and 14-3-3epsilon (Ywhae) downregulation, as well as upregulation of the midbrain-specific factor forkhead box P1 (Foxp1) and of Rabgef1, were interesting as early mRNA level effects of alpha-synuclein triggered pathology. The protein levels of complexin-1 were elevated in midbrain/brainstem tissue of mice with A53T-SNCA overexpression and of mice with SNCA-knockout. The response of CPLX1 and Foxp1 levels to SNCA deficiency supports the notion that these factors are regulated by altered physiological function of alpha-synuclein. Thus, their analysis might be useful in PD stages before the advent of Lewy pathology. Because both alpha-synuclein and complexin-1 modulate vesicle release, our findings support presynaptic dysfunction as an early event in PD pathology.
Spinocerebellar ataxia type 2 (SCA2) and amyotrophic lateral sclerosis (ALS) are neurodegenerative disorders, caused or modified by an unstable CAG-repeat expansion in the SCA2 gene, which encodes a polyglutamine (polyQ) domain expansion in ataxin-2 (ATXN2). ATXN2 is an RNA-binding protein and interacts with the poly(A)-binding protein PABPC1, localizing to ribosomes at the rough endoplasmic reticulum. Under cell stress, ATXN2, PABPC1 and small ribosomal subunits are relocated to stress granules, where mRNAs are protected from translation and from degradation. It is unknown whether ATXN2 associates preferentially with specific mRNAs or how it modulates RNA processing. Here, we investigated the RNA profile of the liver and cerebellum from Atxn2 knockout (Atxn2−/−) mice at two adult ages, employing oligonucleotide microarrays. Prominent increases were observed for Lsm12/Paip1 (>2-fold), translation modulators known as protein interactor/competitor of ATXN2 and for Plin3/Mttp (>1.3-fold), known as apolipoprotein modulators in agreement with the hepatosteatosis phenotype of the Atxn2−/− mice. Consistent modest upregulations were also observed for many factors in the ribosome and the translation/secretion apparatus. Quantitative reverse transcriptase PCR in liver tissue validated >1.2-fold upregulations for the ribosomal biogenesis modulator Nop10, the ribosomal components Rps10, Rps18, Rpl14, Rpl18, Gnb2l1, the translation initiation factors Eif2s2, Eif3s6, Eif4b, Pabpc1 and the rER translocase factors Srp14, Ssr1, Sec61b. Quantitative immunoblots substantiated the increased abundance of NOP10, RPS3, RPS6, RPS10, RPS18, GNB2L1 in SDS protein fractions, and of PABPC1. In mouse embryonal fibroblasts, ATXN2 absence also enhanced phosphorylation of the ribosomal protein S6 during growth stimulation, while impairing the rate of overall protein synthesis rates, suggesting a block between the enhanced translation drive and the impaired execution. Thus, the physiological role of ATXN2 subtly modifies the abundance of cellular translation factors as well as global translation.