9 results on '"Zhou, Qihui"'
Search Results
2. Poly-GP accumulation due to C9orf72 loss of function induces motor neuron apoptosis through autophagy and mitophagy defects.
- Author
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de Calbiac, Hortense, Renault, Solène, Haouy, Grégoire, Jung, Vincent, Roger, Kevin, Zhou, Qihui, Campanari, Maria-Letizia, Chentout, Loïc, Demy, Doris Lou, Marian, Anca, Goudin, Nicolas, Edbauer, Dieter, Guerrera, Chiara, Ciura, Sorana, and Kabashi, Edor
- Subjects
MOTOR neuron diseases ,AMYOTROPHIC lateral sclerosis ,MOTOR neurons ,NEURODEGENERATION ,AUTOPSY ,PEPTIDASE - Abstract
The GGGGCC hexanucleotide repeat expansion (HRE) of the C9orf72 gene is the most frequent cause of amyotrophic lateral sclerosis (ALS), a devastative neurodegenerative disease characterized by motor neuron degeneration. C9orf72 HRE is associated with lowered levels of C9orf72 expression and its translation results in the production of dipeptide-repeats (DPRs). To recapitulate C9orf72-related ALS disease in vivo, we developed a zebrafish model where we expressed glycine-proline (GP) DPR in a c9orf72 knockdown context. We report that C9orf72 gain- and loss-of-function properties act synergistically to induce motor neuron degeneration and paralysis with poly(GP) accumulating preferentially within motor neurons along with Sqstm1/p62 aggregation indicating macroautophagy/autophagy deficits. Poly(GP) levels were shown to accumulate upon c9orf72 downregulation and were comparable to levels assessed in autopsy samples of patients carrying C9orf72 HRE. Chemical boosting of autophagy using rapamycin or apilimod, is able to rescue motor deficits. Proteomics analysis of zebrafish-purified motor neurons unravels mitochondria dysfunction confirmed through a comparative analysis of previously published C9orf72 iPSC-derived motor neurons. Consistently, 3D-reconstructions of motor neuron demonstrate that poly(GP) aggregates colocalize to mitochondria, thus inducing their elongation and swelling and the failure of their processing by mitophagy, with mitophagy activation through urolithin A preventing locomotor deficits. Finally, we report apoptotic-related increased amounts of cleaved Casp3 (caspase 3, apoptosis-related cysteine peptidase) and rescue of motor neuron degeneration by constitutive inhibition of Casp9 or treatment with decylubiquinone. Here we provide evidence of key pathogenic steps in C9ALS-FTD that can be targeted through pharmacological avenues, thus raising new therapeutic perspectives for ALS patients. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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3. Congenic expression of poly-GA but not poly-PR in mice triggers selective neuron loss and interferon responses found in C9orf72 ALS
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LaClair, Katherine D., Zhou, Qihui, Michaelsen, Meike, Wefers, Benedikt, Brill, Monika S., Janjic, Aleksandar, Rathkolb, Birgit, Farny, Daniel, Cygan, Mikolaj, de Angelis, Martin Hrabe, Wurst, Wolfgang, Neumann, Manuela, Enard, Wolfgang, Misgeld, Thomas, Arzberger, Thomas, and Edbauer, Dieter
- Published
- 2020
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4. Spinal poly-GA inclusions in a C9orf72 mouse model trigger motor deficits and inflammation without neuron loss
- Author
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Schludi, Martin H., Becker, Lore, Garrett, Lillian, Gendron, Tania F., Zhou, Qihui, Schreiber, Franziska, Popper, Bastian, Dimou, Leda, Strom, Tim M., Winkelmann, Juliane, von Thaden, Anne, Rentzsch, Kristin, May, Stephanie, Michaelsen, Meike, Schwenk, Benjamin M., Tan, Jing, Schoser, Benedikt, Dieterich, Marianne, Petrucelli, Leonard, Hölter, Sabine M., Wurst, Wolfgang, Fuchs, Helmut, Gailus-Durner, Valerie, de Angelis, Martin Hrabe, Klopstock, Thomas, Arzberger, Thomas, and Edbauer, Dieter
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- 2017
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5. Reduced hnRNPA3 increases C9orf72 repeat RNA levels and dipeptide‐repeat protein deposition
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Mori, Kohji, Nihei, Yoshihiro, Arzberger, Thomas, Zhou, Qihui, Mackenzie, Ian R, Hermann, Andreas, Hanisch, Frank, German Consortium for Frontotemporal Lobar Degeneration, Bavarian Brain Banking Alliance, Kamp, Frits, Nuscher, Brigitte, Orozco, Denise, Edbauer, Dieter, and Haass, Christian
- Published
- 2016
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6. Cell‐to‐cell transmission of C9orf72 poly‐(Gly‐Ala) triggers key features of ALS/FTD.
- Author
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Khosravi, Bahram, LaClair, Kathrine D, Riemenschneider, Henrick, Zhou, Qihui, Frottin, Frédéric, Mareljic, Nikola, Czuppa, Mareike, Farny, Daniel, Hartmann, Hannelore, Michaelsen, Meike, Arzberger, Thomas, Hartl, F Ulrich, Hipp, Mark S, and Edbauer, Dieter
- Subjects
AMYOTROPHIC lateral sclerosis ,FRONTOTEMPORAL dementia ,NUCLEOCYTOPLASMIC interactions ,TRANSGENIC mice ,UBIQUITINATION ,CELL physiology - Abstract
The C9orf72 repeat expansion causes amyotrophic lateral sclerosis and frontotemporal dementia, but the poor correlation between C9orf72‐specific pathology and TDP‐43 pathology linked to neurodegeneration hinders targeted therapeutic development. Here, we addressed the role of the aggregating dipeptide repeat proteins resulting from unconventional translation of the repeat in all reading frames. Poly‐GA promoted cytoplasmic mislocalization and aggregation of TDP‐43 non‐cell‐autonomously, and anti‐GA antibodies ameliorated TDP‐43 mislocalization in both donor and receiver cells. Cell‐to‐cell transmission of poly‐GA inhibited proteasome function in neighboring cells. Importantly, proteasome inhibition led to the accumulation of TDP‐43 ubiquitinated within the nuclear localization signal (NLS) at lysine 95. Mutagenesis of this ubiquitination site completely blocked poly‐GA‐dependent mislocalization of TDP‐43. Boosting proteasome function with rolipram reduced both poly‐GA and TDP‐43 aggregation. Our data from cell lines, primary neurons, transgenic mice, and patient tissue suggest that poly‐GA promotes TDP‐43 aggregation by inhibiting the proteasome cell‐autonomously and non‐cell‐autonomously, which can be prevented by inhibiting poly‐GA transmission with antibodies or boosting proteasome activity with rolipram. Synopsis: Poly‐GA promotes cytoplasmic mislocalization and aggregation of TDP‐43 via non‐cell‐autonomous proteasome inhibition and ubiquitination within the nuclear localization signal. Proteasome activation and poly‐GA antibodies ameliorate TDP‐43 pathology. Poly‐GA promotes TDP‐43 aggregation by proteasome inhibition even upon cell‐to‐cell transmission.Anti‐GA antibodies reduce TDP‐43 mislocalization.Ubiquitination within the NLS inhibits nuclear import of TDP‐43.Proteasome activation with rolipram ameliorates poly‐GA and TDP‐43 pathology. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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7. Poly-glycine–alanine exacerbates C9orf72 repeat expansion-mediated DNA damage via sequestration of phosphorylated ATM and loss of nuclear hnRNPA3.
- Author
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Nihei, Yoshihiro, Mori, Kohji, Werner, Georg, Arzberger, Thomas, Zhou, Qihui, Khosravi, Barham, Japtok, Julia, Hermann, Andreas, Sommacal, Andreas, Weber, Markus, Kamp, Frits, Nuscher, Brigitte, Edbauer, Dieter, and Haass, Christian
- Subjects
DNA damage ,DOUBLE-strand DNA breaks ,PROLINE ,FRONTOTEMPORAL lobar degeneration ,AMYOTROPHIC lateral sclerosis ,ANTISENSE RNA ,GLYCINE ,HUNTINGTIN protein - Abstract
Repeat expansion in C9orf72 causes amyotrophic lateral sclerosis and frontotemporal lobar degeneration. Expanded sense and antisense repeat RNA transcripts in C9orf72 are translated into five dipeptide-repeat proteins (DPRs) in an AUG-independent manner. We previously identified the heterogeneous ribonucleoprotein (hnRNP) A3 as an interactor of the sense repeat RNA that reduces its translation into DPRs. Furthermore, we found that hnRNPA3 is depleted from the nucleus and partially mislocalized to cytoplasmic poly-GA inclusions in C9orf72 patients, suggesting that poly-GA sequesters hnRNPA3 within the cytoplasm. We now demonstrate that hnRNPA3 also binds to the antisense repeat RNA. Both DPR production and deposition from sense and antisense RNA repeats are increased upon hnRNPA3 reduction. All DPRs induced DNA double strand breaks (DSB), which was further enhanced upon reduction of hnRNPA3. Poly-glycine–arginine and poly-proline-arginine increased foci formed by phosphorylated Ataxia Telangiectasia Mutated (pATM), a major sensor of DSBs, whereas poly-glycine–alanine (poly-GA) evoked a reduction of pATM foci. In dentate gyri of C9orf72 patients, lower nuclear hnRNPA3 levels were associated with increased DNA damage. Moreover, enhanced poly-GA deposition correlated with reduced pATM foci. Since cytoplasmic pATM deposits partially colocalized with poly-GA deposits, these results suggest that poly-GA, the most frequent DPR observed in C9orf72 patients, differentially causes DNA damage and that poly-GA selectively sequesters pATM in the cytoplasm inhibiting its recruitment to sites of DNA damage. Thus, mislocalization of nuclear hnRNPA3 caused by poly-GA leads to increased poly-GA production, which partially depletes pATM, and consequently enhances DSB. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
8. Reduced hn RNPA3 increases C9orf72 repeat RNA levels and dipeptide-repeat protein deposition.
- Author
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Mori, Kohji, Nihei, Yoshihiro, Arzberger, Thomas, Zhou, Qihui, Mackenzie, Ian R, Hermann, Andreas, Hanisch, Frank, Kamp, Frits, Nuscher, Brigitte, Orozco, Denise, Edbauer, Dieter, and Haass, Christian
- Abstract
Intronic hexanucleotide (G
4 C2 ) repeat expansions in C9orf72 are genetically associated with frontotemporal lobar degeneration ( FTLD) and amyotrophic lateral sclerosis ( ALS). The repeat RNA accumulates within RNA foci but is also translated into disease characterizing dipeptide repeat proteins ( DPR). Repeat-dependent toxicity may affect nuclear import. hn RNPA3 is a heterogeneous nuclear ribonucleoprotein, which specifically binds to the G4 C2 repeat RNA. We now report that a reduction of nuclear hn RNPA3 leads to an increase of the repeat RNA as well as DPR production and deposition in primary neurons and a novel tissue culture model that reproduces features of the C9orf72 pathology. In fibroblasts derived from patients carrying extended C9orf72 repeats, nuclear RNA foci accumulated upon reduction of hn RNPA3. Neurons in the hippocampus of C9orf72 patients are frequently devoid of hn RNPA3. Reduced nuclear hn RNPA3 in the hippocampus of patients with extended C9orf72 repeats correlates with increased DPR deposition. Thus, reduced hn RNPA3 expression in C9orf72 cases leads to increased levels of the repeat RNA as well as enhanced production and deposition of DPR proteins and RNA foci. [ABSTRACT FROM AUTHOR]- Published
- 2016
- Full Text
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9. Active poly‐GA vaccination prevents microglia activation and motor deficits in a C9orf72 mouse model.
- Author
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Zhou, Qihui, Mareljic, Nikola, Michaelsen, Meike, Parhizkar, Samira, Heindl, Steffanie, Nuscher, Brigitte, Farny, Daniel, Czuppa, Mareike, Schludi, Carina, Graf, Alexander, Krebs, Stefan, Blum, Helmut, Feederle, Regina, Roth, Stefan, Haass, Christian, Arzberger, Thomas, Liesz, Arthur, and Edbauer, Dieter
- Abstract
The C9orf72 repeat expansion is the most common genetic cause of amyotrophic lateral sclerosis (ALS) and/or frontotemporal dementia (FTD). Non‐canonical translation of the expanded repeat results in abundant poly‐GA inclusion pathology throughout the CNS. (GA)149‐CFP expression in mice triggers motor deficits and neuroinflammation. Since poly‐GA is transmitted between cells, we investigated the therapeutic potential of anti‐GA antibodies by vaccinating (GA)149‐CFP mice. To overcome poor immunogenicity, we compared the antibody response of multivalent ovalbumin‐(GA)10 conjugates and pre‐aggregated carrier‐free (GA)15. Only ovalbumin‐(GA)10 immunization induced a strong anti‐GA response. The resulting antisera detected poly‐GA aggregates in cell culture and patient tissue. Ovalbumin‐(GA)10 immunization largely rescued the motor function in (GA)149‐CFP transgenic mice and reduced poly‐GA inclusions. Transcriptome analysis showed less neuroinflammation in ovalbumin‐(GA)10‐immunized poly‐GA mice, which was corroborated by semiquantitative and morphological analysis of microglia/macrophages. Moreover, cytoplasmic TDP‐43 mislocalization and levels of the neurofilament light chain in the CSF were reduced, suggesting neuroaxonal damage is reduced. Our data suggest that immunotherapy may be a viable primary prevention strategy for ALS/FTD in C9orf72 mutation carriers. Synopsis: The study proposes active immunization targeting poly‐GA as a prevention approach for pre‐symptomatic C9orf72 mutation carriers at risk of developping ALS/FTD. Immunization using Ovalbumin‐(GA)10 largely rescued motor deficits in a poly‐GA mouse model. Ovalbumin‐(GA)10 immunization drives strong anti‐GA response without apparent side effects.Ovalbumin‐(GA)10 immunization reduces motor deficits and poly‐GA inclusions.Ovalbumin‐(GA)10 immunization attenuates neuroinflammation, neuroaxonal damage and reduces cytoplasmic TDP‐43 mislocalization. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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