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Regulated necrosis in the adrenal glands and the kidney

Regulated cell death (RCD) is indispensable for homeostasis and plays a crucial role in the pathophysiology of numerous diseases. Adrenocortical carcinomas (ACCs) represent a rare and highly malignant type of cancer. Currently, the most common therapeutic options include the complete surgical removal of the adrenal gland and/or the administration of mitotane, a derivative of the pesticide DDT. Yet patient survival remains poor and the mechanism of action of mitotane remains elusive. In this thesis it is demonstrated that the human ACC cell line NCI-H295R is sensitive to mitotane-induced cell death. In the first part, the involvement of three different RCD pathways, namely apoptosis, necroptosis and ferroptosis, in mitotane induced necrosis was investigated. To this end, different inhibitors were used, which were not able to block mitotane-induced cell death. When the medium was supplemented with insulin, transferrin, sodium selenite and linoleic acid (ITS+1) no cell death of the ACC cells was observed. This phenomenon was attributed to the presence of linoleic acid, since ITS supplementation lacking this component was not able to reverse mitotane-induced necrosis. Identification of new drug targets for alternative options of ACC treatment led to the investigation of key molecules involved in the pathways of necroptosis and ferroptosis. The receptor-interacting protein kinase 1 and 3 (RIPK1 and 3) and the mixed lineage kinase domain-like protein (MLKL) were considered as interesting targets given their crucial role in the execution of necroptosis. A western blot analysis of those molecules revealed the presence only of RIPK1, suggesting that the necroptosis machinery is not present in the NCI-H295R cells. Of interest, evaluation of the expression levels of glutathione peroxidase four (GPX4), one of the main inhibitory molecules of ferroptosis, showed a much higher expression in the ACC cells compared to the standard cell line used for studying ferroptosis, the human fibrosarcoma HT1080 cells. A hypothesis that the NCI-H295R cells are susceptible to ferroptosis induction was formed based on this finding. Compounds representative of all the four classes of ferroptosis inducers (FINs) were tested. Direct inhibition of GPX4 using the small compound RSL3, a type II FIN, led to high necrotic populations. Co-treatment with the ferroptosis inhibitor ferrostatin-1 (Fer-1) completely reversed RSL3-induced ferroptosis. Type IV FIN FINO2, that causes indirect loss of the enzymatic activity of GPX4, lead also to high necrotic populations, while Fer-1 prevented FINO2-induced ferroptosis.
Data from public databases concerning gene methylation or mutation status of ACC tissues and normal human adrenal tissues was used to investigate potential key players of ferroptosis that might be either mutated or silenced in ACCs. Of note, glutathione peroxidases 3 and 5 (GPX3 and 5) were highly methylated, while the enzyme cystathionine gamma-lyase (CSE) involved in the transsulfuration pathway via the break down of cystathionine into cysteine and α-ketobutyrate and ammonia was found to be highly mutated. Collectively, these data point towards a high sensitivity of ACCs to ferroptosis induction. This could provide a new chapter for the therapeutic approaches of ACCs. Additionally, these findings provide a better understanding of the biology of this type of cancer that highly mutates or silences ferroptosis-related genes. The second part of this thesis focuses on the involvement of RCD in spontaneous cell death in isolated murine tubules. Existing literature points towards an involvement of necroptosis and ferroptosis pathways in the kidney in models of acute kidney injury (AKI). Acute tubular necrosis (ATN) represents a hallmark of AKI. While the work in the Linkermann lab has shown that isolated tubules perfused with type I FIN erastin undergo cell death in a “wave-of-death” manner, no deeper insights into the propagation of tubular necrotic injury exist. A protocol for isolation of murine kidney tubules was established, providing an ex-vivo model for investigation of tubular death. The absence of potentially confounding blood cells as well as immune cells was ensured by extensive washing steps as well as the use of collagenase. Visual observation and staining of isolated tubules with the nucleic acid stain SYTOX green revealed a spontaneous cell death in a “wave-of-death” manner. This wave was running in parallel with a calcium concentration change, indicating its involvement in the spontaneous necrosis. To investigate the potential involvement of mitochondria in this process, electron microscopy images were obtained from parts of the tubules with different levels of damage which revealed highly damaged and ballooned mitochondria. These data provided with a phenotypic characterisation of the spontaneous tubular necrosis. Aiming to approach this type of death genetically, necroptosis and pyroptosis deficient mice (MLKL/GSDMDDKO) were used. Comparison of the LDH release, used as a measure of necrosis, from isolated kidney tubules of the MLKL/GSDMDDKO mice and wild type (WT) mice showed no difference. This indicated that neither necroptosis nor pyroptosis are involved in the tubular necrosis. Therefore, the next step was to investigate the effects of Fer-1 at the levels of LDH of isolated tubules from WT mice. A significantly lower LDH release was observed in tubules treated with Fer-1 compared to the ones treated with vehicle. However, this reduction in the LDH release was not complete, suggesting that ferroptosis is only partially responsible for the spontaneous death of isolated tubules. The difference of male and female mice towards AKI sensitivity has been noted in the literature in that female mice are less susceptible compared to the male mice. Therefore, the next step was to investigate whether this protection of females can be observed at the level of isolated tubules. Indeed, the LDH release from tubules isolated from female mice was significantly less compared to the LDH release of tubules isolated from male mice. Based on the data obtained from isolated tubules from WT male mice treated with Fer-1, a similar experiment was performed with tubules isolated from WT female mice. No difference in the LDH release was observed between the Fer-1-treated tubules and the vehicle-treated ones, indicating that another cell death pathway might be involved. The most obvious difference between male and female organisms is the sex hormones. Whether testosterone or β-estradiol are responsible for the higher susceptibility or protection against cell death has been a debate over the last years. To test this hypothesis, three different cell lines were utilised. A pre-treatment of 16 h with either testosterone or β-estradiol was performed. Treatment with either type I FIN erastin or type II FIN RSL3 followed, and cells were analysed via flow cytometry. Data revealed protective effects of β-estradiol against ferroptosis induction. Next, the effects of β-estradiol in a simultaneous treatment with RSL3 were investigated. Interestingly the protective effects of the hormone were still observed. Among the metabolites of β-estradiol, 2-hydroxyestradiol (2-OHE2) has been reported to exert antioxidant effects. Therefore, 2-OHE2 was used in a simultaneous treatment with RSL3, and the obtained data showed that it was a much more potent inhibitor of necrotic cell death than β-estradiol even at lower concentrations. Collectively these data indicate that the lower susceptibility of female organisms towards cell death might be explained by the presence of β-estradiol and its more potent antioxidant metabolites. Such findings could change the way the two sexes are approached scientifically, while providing new insights on different therapeutic strategies between male and female organisms.

Identiferoai:union.ndltd.org:DRESDEN/oai:qucosa:de:qucosa:82585
Date08 December 2022
CreatorsBelavgeni, Alexia
ContributorsWielockx, Ben, Vanden Berghe, Tom, Technische Universität Dresden, Technische Universität Dresden
Source SetsHochschulschriftenserver (HSSS) der SLUB Dresden
LanguageEnglish
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, doc-type:doctoralThesis, info:eu-repo/semantics/doctoralThesis, doc-type:Text
Rightsinfo:eu-repo/semantics/openAccess

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