Karin Görner scite author profile

TDP-43 is an RNA/DNA-binding protein implicated in transcriptional repression and mRNA processing. Inclusions of TDP-43 are hallmarks of frontotemporal dementia and amyotrophic lateral sclerosis. Besides aggregation of TDP-43, loss of nuclear localization is observed in disease. To identify relevant targets of TDP-43, we performed expression profiling. Thereby, histone deacetylase 6 (HDAC6) downregulation was discovered on TDP-43 silencing and confirmed at the mRNA and protein level in human embryonic kidney HEK293E and neuronal SH-SY5Y cells. This was accompanied by accumulation of the major HDAC6 substrate, acetyl-tubulin. HDAC6 levels were restored by re-expression of TDP-43, dependent on RNA binding and the C-terminal protein interaction domains. Moreover, TDP-43 bound specifically to HDAC6 mRNA arguing for a direct functional interaction. Importantly, in vivo validation in TDP-43 knockout Drosophila melanogaster confirmed the specific downregulation of HDAC6. HDAC6 is necessary for protein aggregate formation and degradation. Indeed, HDAC6-dependent reduction of cellular aggregate formation and increased cytotoxicity of polyQ-expanded ataxin-3 were found in TDP-43 silenced cells. In conclusion, loss of functional TDP-43 causes HDAC6 downregulation and might thereby contribute to pathogenesis.

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Oxidizable Residues Mediating Protein Stability and Cytoprotective Interaction of DJ-1 with Apoptosis Signal-regulating Kinase 1

Waak

Weber

Görner

et al. 2009

Journal of Biological Chemistry

135

184

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2 (1). The most dramatic PD-associated mutation L166P impairs DJ-1 dimer formation and dramatically destabilizes the protein (2-7). Other mutations such as M26I (8) and E64D (9) have more subtle defects with unclear cellular consequences (4, 7, 10, 11). In addition to this genetic association, DJ-1 is neuropathologically linked to PD. DJ-1 is up-regulated in reactive astrocytes, and it is oxidatively modified in brains of sporadic PD patients (12)(13)(14).DJ-1 protects against oxidative stress and mitochondrial toxins in cell culture (15-17) as well as in diverse animal models (18 -21). The cytoprotective effects of DJ-1 may be stimulated by oxidation and mediated by molecular chaperoning (22, 23), and/or facilitation of the pro-survival Akt and suppression of apoptosis signal-regulating kinase 1 (ASK1) pathways (6,24,25). The cytoprotective activity of DJ-1 against oxidative stress depends on its cysteine residues (15,17,26). Among the three cysteine residues of DJ-1, the most prominent one is the easiest oxidizable that is in a constrained conformation (28), but the other cysteine residues Cys-46 and Cys-53 have been implicated with DJ-1 activity as well (22). However, the molecular basis of oxidation-mediated cytoprotective activity of DJ-1 is not clear. Moreover, the roles of PD-mutated and in vivo oxidized methionines are not known.Here we have mutagenized all oxidizable residues within DJ-1 and studied the effects on protein stability and function. The PD-associated mutation M26I within the DJ-1 dimer interface selectively reduced protein expression as well as ASK1 suppression and cytoprotective activity in oxidatively stressed cells. These cell culture results support a pathogenic effect of the clinical M26I mutation (8). Furthermore, oxidation-defective C106A mutation abolished binding to ASK1 and cytoprotective activity of DJ-1, whereas the designed higher order oxidation

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Regulation of astrocyte inflammatory responses by the Parkinson's disease‐associated gene DJ–1

et al. 2009

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The Parkinson's disease (PD)-associated gene DJ-1 mediates direct neuroprotection. The up-regulation of DJ-1 in reactive astrocytes also suggests a role in glia. Here we show that DJ-1 regulates proinflammatory responses in mouse astrocyte-rich primary cultures. When treated with a Toll-like receptor 4 agonist, the bacterial endotoxin lipopolysaccharide (LPS), Dj-1-knockout astrocytes generated >10 times more nitric oxide (NO) than littermate controls. Lentiviral reintroduction of DJ-1 restored the NO response to LPS. The enhanced NO production in Dj-1(-/-) astrocytes was mediated by a signaling pathway involving reactive oxygen species leading to specific hyperinduction of type II NO synthase [inducible NO synthase (iNOS)]. These effects coincided with significantly increased phosphorylation of p38 mitogen-activated protein kinase (MAPK), and p38(MAPK) inhibition suppressed NO production and iNOS mRNA and protein induction. Dj-1(-/-) astrocytes also induced the proinflammatory mediators cyclooxygenase-2 and interleukin-6 significantly more strongly, but not nerve growth factor. Finally, primary neuron cultures grown on Dj-1(-/-) astrocytes became apoptotic in response to LPS in an iNOS-dependent manner, directly demonstrating the neurotoxic potential of astrocytic DJ-1 deficiency. These findings identify DJ-1 as a regulator of proinflammatory responses and suggest that loss of DJ-1 contributes to PD pathogenesis by deregulation of astrocytic neuroinflammatory damage.

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Structural Determinants of the C-terminal Helix-Kink-Helix Motif Essential for Protein Stability and Survival Promoting Activity of DJ-1

Görner

Holtorf

Waak

et al. 2007

Journal of Biological Chemistry

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Mutations in the PARK7 gene encoding DJ-1 cause autosomal recessive Parkinson disease. The most deleterious point mutation is the L166P substitution, which resides in a structure motif comprising two ␣-helices (G and H) separated by a kink. Here we subjected the C-terminal helix-kink-helix motif to systematic site-directed mutagenesis, introducing helix-incompatible proline residues as well as conservative substitutions into the helical interface. Furthermore, we generated deletion mutants lacking the H-helix, the kink, and the entire C terminus. When transfected into neural and nonneural cell lines, steady-state levels of G-helix breaking and kink deletion mutants were dramatically lower than wildtype DJ-1. The effects of H-helix breakers were comparably smaller, and the non-helix breaking mutants only slightly destabilized DJ-1. The decreased steady-state levels were due to accelerated protein degradation involving in part the proteasome. G-helix breaking DJ-1 mutations abolished dimer formation. These structural perturbations had functional consequences on the cytoprotective activities of DJ-1. The destabilizing mutations conferred reduced cytoprotection against H 2 O 2 in transiently retransfected DJ-1 knock-out mouse embryonic fibroblasts. The loss of survival promoting activity of the DJ-1 mutants with destabilizing C-terminal mutations correlated with impaired anti-apoptotic signaling. We found that wild-type, but not mutant DJ-1 facilitated the Akt pathway and simultaneously blocked the apoptosis signal-regulating kinase 1, with which DJ-1 interacted in a redoxdependent manner. Thus, the G-helix and kink are critical determinants of the C-terminal helix-kink-helix motif, which is absolutely required for stability and the regulation of survival-promoting redox signaling of the Parkinson disease-associated protein DJ-1. DJ-1 is the gene mutated in the PARK7 locus associated with autosomal-recessive Parkinson disease (PD)4 (1). It is believed that loss of function accounts for the symptoms in DJ-1 mutation bearers, but it remains to be shown exactly what physiological role of DJ-1 is depleted in PD. Post-mortem studies on sporadic PD patients showed that DJ-1 did not accumulate in Lewy bodies, the neuropathological hallmark lesions of PD and related diseases. Rather, DJ-1 was prominently expressed in reactive astrocytes under neurodegenerative conditions, including PD (2-4), as well as in a transgenic mouse model of Lewy pathology (3). Astrocytes have a high antioxidative capacity and support adjacent neurons suffering from oxidative stress (5). Oxidative modifications of DJ-1 were found in brains of patients with PD and Alzheimer disease (2, 6). Thus, DJ-1 upregulation appears to be associated with oxidative stress in neurodegenerative brain.Overexpression of DJ-1 conferred resistance against H 2 O 2 , 1-methyl-4-phenylpyridinium, bisphenol A, and other oxidative stressors in neuroblastoma cells (7-9). Conversely, RNA silencing (9) or targeted disruption of the DJ-1 gene (10, 11) enhanced cytotoxicity medi...

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Karin Görner

Knockdown of transactive response DNA-binding protein (TDP-43) downregulates histone deacetylase 6

Oxidizable Residues Mediating Protein Stability and Cytoprotective Interaction of DJ-1 with Apoptosis Signal-regulating Kinase 1

Regulation of astrocyte inflammatory responses by the Parkinson's disease‐associated gene DJ–1

Structural Determinants of the C-terminal Helix-Kink-Helix Motif Essential for Protein Stability and Survival Promoting Activity of DJ-1

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