Methadone Potentiates the Cytotoxicity of Temozolomide by Impairing Calcium Homeostasis and Dysregulation of PARP in Glioblastoma Cells

Honc, Ondřej; Novotný, Jiřı́

doi:10.3390/cancers15143567

Cited by 4 publications

References 38 publications

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Clusterin Deficiency Promotes Cellular Senescence in Human Astrocytes

Sultana,

Honc,

Hodny

et al. 2024

Mol Neurobiol

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The glycoprotein clusterin (CLU) is involved in cell proliferation and DNA damage repair and is highly expressed in tumor cells. Here, we aimed to investigate the effects of CLU dysregulation on two human astrocytic cell lines: CCF-STTG1 astrocytoma cells and SV-40 immortalized normal human astrocytes. We observed that suppression of CLU expression by RNA interference inhibited cell proliferation, triggered the DNA damage response, and resulted in cellular senescence in both cell types tested. To further investigate the underlying mechanism behind these changes, we measured reactive oxygen species, assessed mitochondrial function, and determined selected markers of the senescence-associated secretory phenotype. Our results suggest that CLU deficiency triggers oxidative stress–mediated cellular senescence associated with pronounced alterations in mitochondrial membrane potential, mitochondrial mass, and expression levels of OXPHOS complex I, II, III and IV, indicating mitochondrial dysfunction. This report shows the important role of CLU in cell cycle maintenance in astrocytes. Based on these data, targeting CLU may serve as a potential therapeutic approach valuable for treating gliomas.

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Clusterin Deficiency Promotes Cellular Senescence in Human Astrocytes

Sultana,

Honc,

Hodny

et al. 2024

Mol Neurobiol

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Endogenous opiates and behavior: 2023

Bodnar

2024

Peptides

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Different amyloid β42 preparations induce different cell death pathways in the model of SH-SY5Y neuroblastoma cells

Özdemir,

Hofbauerová,

Kopecký

et al. 2024

Cell Mol Biol Lett

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Amyloid β42 (Aβ42) plays a decisive role in the pathology of Alzheimer’s disease. The Aβ42 peptide can aggregate into various supramolecular structures, with oligomers being the most toxic form. However, different Aβ species that cause different effects have been described. Many cell death pathways can be activated in connection with Aβ action, including apoptosis, necroptosis, pyroptosis, oxidative stress, ferroptosis, alterations in mitophagy, autophagy, and endo/lysosomal functions. In this study, we used a model of differentiated SH-SY5Y cells and applied two different Aβ42 preparations for 2 and 4 days. Although we found no difference in the shape and size of Aβ species prepared by two different methods (NaOH or NH4OH for Aβ solubilization), we observed strong differences in their effects. Treatment of cells with NaOH-Aβ42 mainly resulted in damage of mitochondrial function and increased production of reactive oxygen species, whereas application of NH4OH-Aβ42 induced necroptosis and first steps of apoptosis, but also caused an increase in protective Hsp27. Moreover, the two Aβ42 preparations differed in the mechanism of interaction with the cells, with the effect of NaOH-Aβ42 being dependent on monosialotetrahexosylganglioside (GM1) content, whereas the effect of NH4OH-Aβ42 was independent of GM1. This suggests that, although both preparations were similar in size, minor differences in secondary/tertiary structure are likely to strongly influence the resulting processes. Our work reveals, at least in part, one of the possible causes of the inconsistency in the data observed in different studies on Aβ-toxicity pathways. Graphical Abstract

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Methadone Potentiates the Cytotoxicity of Temozolomide by Impairing Calcium Homeostasis and Dysregulation of PARP in Glioblastoma Cells

Cited by 4 publications

References 38 publications

Clusterin Deficiency Promotes Cellular Senescence in Human Astrocytes

Clusterin Deficiency Promotes Cellular Senescence in Human Astrocytes

Endogenous opiates and behavior: 2023

Different amyloid β42 preparations induce different cell death pathways in the model of SH-SY5Y neuroblastoma cells

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