Publications by authors named "Nadja I Lorenz"

Glioblastoma, the most frequent primary malignant brain tumour in adults, is characterised by profound yet dynamic hypoxia and nutrient depletion. To sustain survival and proliferation, tumour cells are compelled to acquire metabolic plasticity with the induction of adaptive metabolic programs. Here, we interrogated the pathways necessary to enable processing of nutrients other than glucose.

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Glioblastoma is an incurable brain tumor with a median survival below two years. Trials investigating targeted therapy with inhibitors of the kinase mTOR have produced ambiguous results. Especially combination of mTOR inhibition with standard temozolomide radiochemotherapy has resulted in reduced survival in a phase II clinical trial.

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Metabolic rewiring is essential for cancer onset and progression. We previously showed that one-carbon metabolism-dependent formate production often exceeds the anabolic demand of cancer cells, resulting in formate overflow. Furthermore, we showed that increased extracellular formate concentrations promote the in vitro invasiveness of glioblastoma cells.

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Article Synopsis
  • The integrated stress response (ISR) helps cells adapt to stressors like nutrient deprivation and oxygen scarcity, mainly through the activation of the protein ATF4.
  • Researchers studied the role of ATF4 in human glioblastoma (GB) cells to see how it affects their survival and resistance to chemotherapy, specifically temozolomide.
  • Findings showed that inhibiting ATF4 made GB cells more sensitive to treatment and increased cell death, suggesting that targeting the ISR could potentially improve therapy effectiveness for glioblastoma.
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Monoclonal antibodies like cetuximab, targeting the epidermal growth factor receptor (EGFR), and bevacizumab, targeting the vascular endothelial growth factor (VEGF), are an integral part of treatment regimens for metastasized colorectal cancer. However, inhibition of the EGFR has been shown to protect human glioma cells from cell death under hypoxic conditions. In colon carcinoma cells, the consequences of EGFR blockade in hypoxia (e.

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Background: The epidermal growth factor receptor (EGFR) signaling pathway is genetically activated in approximately 50% of glioblastomas (GBs). Its inhibition has been explored clinically but produced disappointing results, potentially due to metabolic effects that protect GB cells against nutrient deprivation and hypoxia. Here, we hypothesized that EGFR activation could disable metabolic adaptation and define a GB cell population sensitive to starvation.

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Adenosine monophosphate (AMP)‑activated protein kinase (AMPK) is a major cellular energy sensor that is activated by an increase in the AMP/adenosine triphosphate (ATP) ratio. This causes the initiation of adaptive cellular programs, leading to the inhibition of anabolic pathways and increasing ATP synthesis. AMPK indirectly inhibits mammalian target of rapamycin (mTOR) complex 1 (mTORC1), a serine/threonine kinase and central regulator of cell growth and metabolism, which integrates various growth inhibitory signals, such as the depletion of glucose, amino acids, ATP and oxygen.

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Background: The amino acid serine is an important substrate for biosynthesis and redox homeostasis. We investigated whether glioblastoma (GBM) cells are dependent on serine for survival under conditions of the tumour microenvironment.

Methods: Serine availability in GBM cells was modulated pharmacologically, genetically and by adjusting serine and glycine concentrations in the culture medium.

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Glioblastomas (GBs) frequently display activation of the epidermal growth factor receptor (EGFR) and mammalian target of rapamycin (mTOR). mTOR exists as part of two multiprotein complexes, mTOR complex 1 (mTORC1) and 2 (mTORC2). In GBs, mTORC1 inhibitors such as rapamycin have performed poorly in clinical trials, and in vitro protect GB cells from nutrient and oxygen deprivation.

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Article Synopsis
  • Despite advancements in understanding glioblastoma, survival rates remain low due to factors like hypoxia and nutrient depletion in tumors, which affect treatment response.
  • The study developed a glioblastoma cell model to investigate the role of the protein DDIT4, which responds to hypoxia and DNA damage by inhibiting mTORC1 signaling.
  • Results showed that DDIT4 protects glioblastoma cells from therapy-induced cell death, indicating that targeting DDIT4 may enhance treatment effectiveness by overcoming therapy resistance.
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Cancer metabolism is characterized by extensive glucose consumption through aerobic glycolysis. No effective therapy exploiting this cancer trait has emerged so far, in part, due to the substantial side effects of the investigated drugs. In this study, we examined the side effects of a combination of isocaloric ketogenic diet (KD) with the glycolysis inhibitor 2-deoxyglucose (2-DG).

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Article Synopsis
  • Inducible gene expression, particularly using doxycycline in tetracycline systems, helps study protein function, allowing for acute and reversible protein induction rather than stable overexpression.
  • Recent findings suggest that doxycycline can disrupt mitochondrial function and alter cellular metabolism, raising concerns for its use in research.
  • The study reveals that commonly used doxycycline doses significantly affect glioma cell metabolism, inhibiting mitochondrial protein synthesis, affecting oxygen and glucose consumption, and offering protection from hypoxia, although higher doses impair cell growth.
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BRAF V600E mutations occur frequently in malignant melanoma, but are rare in most malignant glioma subtypes. Besides, more benign brain tumors such as ganglioglioma, dysembryoblastic neuroepithelial tumours and supratentorial pilocytic astrocytomas, only pleomorphic xanthoastrocytomas (50-78%) and epitheloid glioblastoma (50%) regularly exhibit BRAF mutations. In the present study, we report on three patients with recurrent malignant gliomas harbouring a BRAF V600E mutation.

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Article Synopsis
  • Glioblastomas grow quickly and often create areas with low oxygen (hypoxia) and cell death; EGFR and mTORC1 signaling play key roles in this process and are potential targets for treatment.
  • Research shows that inhibiting EGFR and mTORC1 can have negative effects under tumor conditions, while activating mTORC1 by suppressing its inhibitor TSC2 makes glioma cells more sensitive to cell death caused by low oxygen.
  • This study found that mTORC1 activation leads to increased oxygen consumption and changes in metabolic pathways, suggesting it might help identify glioblastoma patients who could benefit from therapies that induce hypoxia, like bevacizumab.
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