Katharina Elsässer scite author profile

Mitochondrial demise is a key feature of progressive neuronal death contributing to acute and chronic neurological disorders. Recent studies identified a pivotal role for the BH3-only protein B-cell lymphoma-2 interacting domain death antagonist (Bid) for such mitochondrial damage and delayed neuronal death after oxygen-glucose deprivation, glutamate-induced excitotoxicity, or oxidative stress in vitro and after cerebral ischemia in vivo. Therefore, we developed new N-phenyl-substituted thiazolidine-2,4-dione derivatives as potent inhibitors of Bid-dependent neurotoxicity. The new compounds 6, 7, and 16 were identified as highly protective by extensive screening in a model of glutamate toxicity in immortalized mouse hippocampal neurons (HT-22 cells). These compounds significantly prevent truncated Bid-induced toxicity in the neuronal cell line, providing strong evidence that inhibition of Bid was the underlying mechanism of the observed protective effects. Furthermore, Bid-dependent hallmarks of mitochondrial dysfunction, such as loss of mitochondrial membrane potential, ATP depletion, as well as impairments in mitochondrial respiration, are significantly prevented by compounds 6, 7, and 16. Therefore, the present study identifies a class of N-phenyl thiazolidinediones as novel Bid-inhibiting neuroprotective agents that provide promising therapeutic perspectives for neurodegenerative diseases, in which Bidmediated mitochondrial damage and associated intrinsic death pathways contribute to the underlying progressive loss of neurons.

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Inhibition of Carbonic Anhydrase 2 Overcomes Temozolomide Resistance in Glioblastoma Cells

Zhao

Schäfer

Zhang

et al. 2021

IJMS

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About 95% of Glioblastoma (GBM) patients experience tumor relapse as a consequence of resistance to the first-line standard chemotherapy using temozolomide (TMZ). Recent studies reported consistently elevated expression levels of carbonic anhydrase CA2 in recurrent glioblastoma and temozolomide-resistant glioblastoma stem-like cells (GSCs). Here we show that CA2 is preferentially expressed in GSCs and upregulated by TMZ treatment. When expressed in GBM cell lines, CA2 exerts significant metabolic changes reflected by enhanced oxygen consumption and increased extracellular acidification causing higher rates of cell invasion. Notably, GBM cells expressing CA2 respond to combined treatment with TMZ and brinzolamide (BRZ), a non-toxic and potent CA2 inhibitor. Interestingly, brinzolamide was more effective than the pan-CA inhibitor Acetazolamide (ACZ) to sensitize naïve GSCs and TMZ-resistant GSCs to TMZ induced cell death. Mechanistically, we demonstrated that the combined treatment of GBM stem cells with TMZ and BRZ caused autophagy of GBM cell lines and GSCs, reflected by enhanced LC3 cleavage (LC3-II) and p62 reduction. Our findings illustrate the potential of CA2 as a chemo-sensitizing drug target in recurrent GBM and propose a combined treatment of TMZ with CA2 inhibitor to tackle GBM chemoresistance and recurrence.

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N‐Acyl Derivatives of 4‐Phenoxyaniline as Neuroprotective Agents

et al. 2014

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Neuronal cell death is the main cause behind the progressive loss of brain function in age-related neurodegenerative disorders such as Alzheimer's and Parkinson's diseases. Despite the differing etiologies of these neurological diseases, the underlying neuronal damage is triggered by common mechanisms such as oxidative stress, impaired calcium homeostasis, and disrupted mitochondrial integrity and function. In particular, mitochondrial fragmentation, mitochondrial membrane permeability, and the release of death-promoting factors into the cytosol have been revealed as the "point of no return" in programmed cell death in neurons. Recent studies revealed a pivotal role for the pro-apoptotic Bcl-2-family protein Bid in models of neuronal cell death, which confirmed Bid as a potential drug target. Herein, we present N-acyl-substituted derivatives of 4-phenoxyaniline that were screened for their potential to attenuate Bid-mediated neurotoxicity. These compounds provided significant protection against glutamate- and Bid-induced toxicity in cultured neurons. Substitution of the amino group in the 4-phenoxyaniline scaffold with 4-piperidine carboxylic acid and N-hydroxyethyl-4-piperidine carboxylic acid yielded compounds that displayed significant neuroprotective activity at concentrations as low as 1 μM. Furthermore, findings of a tBid-overexpression assay and real-time measurements of cell impedance support the hypothesis that these compounds indeed address the Bid protein.

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Structural comparison of the 68 kDa laminin-binding protein and 5′-nucleotidase from chicken muscular sources: Evidence against a gross structural similarity of both proteins

Risse

Stochaj²,

Elsässer³

et al. 1989

Biochimica et Biophysica Acta (BBA) - Protein Structure and Mol

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