Johannes Espe scite author profile

Breast cancer is still the most common cancer in women worldwide. Resistance to drugs and recurrence of the disease are two leading causes of failure in treatment. For a more efficient treatment of patients, the development of novel therapeutic regimes is needed. Recent studies indicate that modulation of autophagy in concert with apoptosis induction may provide a promising novel strategy in breast cancer treatment. Apoptosis and autophagy are two tightly regulated distinct cellular processes. To maintain tissue homeostasis abnormal cells are disposed largely by means of apoptosis. Autophagy, however, contributes to tissue homeostasis and cell fitness by scavenging of damaged organelles, lipids, proteins, and DNA. Defects in autophagy promote tumorigenesis, whereas upon tumor formation rapidly proliferating cancer cells may rely on autophagy to survive. Given that evasion of apoptosis is one of the characteristic hallmarks of cancer cells, inhibiting autophagy and promoting apoptosis can negatively influence cancer cell survival and increase cell death. Hence, combination of antiautophagic agents with the enhancement of apoptosis may restore apoptosis and provide a therapeutic advantage against breast cancer. In this review, we discuss the cross-talk of autophagy and apoptosis and the diverse facets of autophagy in breast cancer cells leading to novel models for more effective therapeutic strategies.

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Delineating the role of c-FLIP/NEMO interaction in the CD95 network via rational design of molecular probes

Ivanisenko

Buchbinder

Espe

et al. 2019

BMC Genomics

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BackgroundStructural homology modeling supported by bioinformatics analysis plays a key role in uncovering new molecular interactions within gene regulatory networks. Here, we have applied this powerful approach to analyze the molecular interactions orchestrating death receptor signaling networks. In particular, we focused on the molecular mechanisms of CD95-mediated NF-κB activation and the role of c-FLIP/NEMO interaction in the induction of this pathway.ResultsTo this end, we have created the homology model of the c-FLIP/NEMO complex using the reported structure of the v-FLIP/NEMO complex, and rationally designed peptides targeting this complex. The designed peptides were based on the NEMO structure. Strikingly, the experimental in vitro validation demonstrated that the best inhibitory effects on CD95-mediated NF-κB activation are exhibited by the NEMO-derived peptides with the substitution D242Y of NEMO. Furthermore, we have assumed that the c-FLIP/NEMO complex is recruited to the DED filaments formed upon CD95 activation and validated this assumption in silico. Further insight into the function of c-FLIP/NEMO complex was provided by the analysis of evolutionary conservation of interacting regions which demonstrated that this interaction is common in distinct mammalian species.ConclusionsTaken together, using a combination of bioinformatics and experimental approaches we obtained new insights into CD95-mediated NF-κB activation, providing manifold possibilities for targeting the death receptor network.

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Development of Small Molecules Targeting Procaspase-8 at the DISC

Espe

Ivanisenko²,

Hillert-Richter³

et al. 2022

Cell Tiss. Biol.

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Johannes Espe

Long and short isoforms of c-FLIP act as control checkpoints of DED filament assembly

Dissecting DISC regulation via pharmacological targeting of caspase-8/c-FLIPL heterodimer

Regulation of extrinsic apoptotic signaling by c-FLIP: towards targeting cancer networks

Impact of human CD95 mutations on cell death and autoimmunity: a model

The cross-talk of autophagy and apoptosis in breast carcinoma: implications for novel therapies?

Delineating the role of c-FLIP/NEMO interaction in the CD95 network via rational design of molecular probes

Development of Small Molecules Targeting Procaspase-8 at the DISC

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