A Key Pathway to Cancer Resilience: The Role of Autophagy in Glioblastomas

Jandrey, Elisa Helena Farias; Bezerra, Marcelle; Inoue, Lilian Tiemi; Furnari, Frank B.; Camargo, Anamaria A.; Costa, Érico T.

doi:10.3389/fonc.2021.652133

Cited by 6 publications

(6 citation statements)

References 227 publications

(263 reference statements)

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“…Autophagy plays a central role in cancer progression [ 93 ]. In glioma, autophagy is believed to be an adaptive MoA used by glioma cells to protect them from unfavorable conditions [ 94 ].…”

Section: The Case Of Galectin-8mentioning

confidence: 99%

Galectins in Glioma: Current Roles in Cancer Progression and Future Directions for Improving Treatment

Ajarrag

St‐Pierre

2021

Cancers

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Traditional wisdom suggests that galectins play pivotal roles at different steps in cancer progression. Galectins are particularly well known for their ability to increase the invasiveness of cancer cells and their resistance to drug-induced cell death. They also contribute to the development of local and systemic immunosuppression, allowing cancer cells to escape the host’s immunological defense. This is particularly true in glioma, the most common primary intracranial tumor. Abnormally high production of extracellular galectins in glioma contributes to the establishment of a strong immunosuppressive environment that favors immune escape and tumor progression. Considering the recent development and success of immunotherapy in halting cancer progression, it is logical to foresee that galectin-specific drugs may help to improve the success rate of immunotherapy for glioma. This provides a new perspective to target galectins, whose intracellular roles in cancer progression have already been investigated thoroughly. In this review, we discuss the mechanisms of action of galectins at different steps of glioma progression and the potential of galectin-specific drugs for the treatment of glioma.

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Section: The Case Of Galectin-8mentioning

confidence: 99%

Galectins in Glioma: Current Roles in Cancer Progression and Future Directions for Improving Treatment

Ajarrag

St‐Pierre

2021

Cancers

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“…Despite the progress in cancer treatments, almost no advancement in the therapy of gliomas has been introduced; those brain tumors display stemness signatures, and new strategies against the highly proliferative activity of glioma cells have been studied and new compounds acting against them are needed. , These new agents need to penetrate the blood–brain barrier, then also penetrate through the tissue of the whole brain, and selectively eliminate cancer cells without harming the normal brain tissue. , The malignant glioma resistance to chemotherapy , suggests that cancer therapy should include agents that target residual cells to prevent the regrowth of neoplastic cells . Numerous molecular and cellular targets are described as a possibility in GBM treatment, , and modulation of the autophagic flux is one of them. − …”

Section: Introductionmentioning

confidence: 99%

New Salicylanilide Derivatives and Their Peptide Conjugates as Anticancer Compounds: Synthesis, Characterization, and In Vitro Effect on Glioblastoma

Horváth,

Biri-Kovács,

Baranyai

et al. 2024

ACS Omega

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Pharmacologically active salicylanilides (2-hydroxy-N-phenylbenzamides) have been a promising area of interest in medicinal chemistry-related research for quite some time. This group of compounds has shown a wide spectrum of biological activities, including but not limited to anticancer effects. In this study, substituted salicylanilides were chosen to evaluate the in vitro activity on U87 human glioblastoma (GBM) cells. The parent salicylanilide, salicylanilide 5-chloropyrazinoates, a 4-aminosalicylic acid derivative, and the new salicylanilide 4-formylbenzoates were chemically and in vitro characterized. To enhance the internalization of the compounds, they were conjugated to delivery peptides with the formation of oxime bonds. Oligotuftsins ([TKPKG] n , n = 1−4), the ligands of neuropilin receptors, were used as GBM-targeting carrier peptides. The in vitro cellular uptake, intracellular localization, and penetration ability on tissue-mimicking models of the fluorescent peptide derivatives were determined. The compounds and their peptide conjugates significantly decreased the viability of U87 glioma cells. Salicylanilide compoundinduced GBM cell death was associated with activation of autophagy, as characterized by immunodetection of autophagy-related processing of light chain 3 protein.

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“…A recent review concluded that most of the studies indicating autophagic cell death in response to treatment were in vitro studies using high doses, whereas clinical and pre-clinical studies indicated that autophagy was a protective mechanism. 132 Therefore, they hypothesised that autophagy is a protective mechanism in GBM therapy response, but very high levels of stress can over-activate autophagy, leading to cell death. 132 Similarly, the authors of a review paper suggested that the level of ER stress may determine the role of autophagy.…”

Section: 12: Glioblastoma (Gbm)mentioning

confidence: 99%

“…132 Therefore, they hypothesised that autophagy is a protective mechanism in GBM therapy response, but very high levels of stress can over-activate autophagy, leading to cell death. 132 Similarly, the authors of a review paper suggested that the level of ER stress may determine the role of autophagy. 133 They suggested that up to moderate levels of stress, the ER unfolded protein response (UPR) pathway led to initiation of autophagy to remove damaged cellular components and thereby protect cells from apoptosis.…”

Section: 12: Glioblastoma (Gbm)mentioning

confidence: 99%

“…418 Autophagy is a known mechanism of therapy resistance in GBM and was induced by 48 hours after acute IR. 132,423 Furthermore, mitochondrial dysfunction and ER stress are two conditions that initiate the ISR. 419 Crosstalk between these two organelles is important in the regulation of reactive oxygen species (ROS) such as those produced by IR, so it is not surprising that the acute treatments, particularly IR, upregulated proteins involved in trafficking across mitochondrial and ER membranes.…”

Section: The Responses Of Ln18 Gbm Cells To Treatmentmentioning

confidence: 99%

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BCL6 is a context-dependent mediator of the glioblastoma therapy response

Tribe¹

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<p>Glioblastoma is a rapidly fatal brain cancer with no cure. The resistance of glioblastoma tumours to available therapies means that more effective treatments are desperately needed. Previous research showed that the transcriptional repressor protein BCL6 is upregulated by chemo- and radiotherapy in glioblastoma and that inhibition of BCL6 enhances the effectiveness of these therapies. Therefore, BCL6 is a promising target to improve the efficacy of available treatments for glioblastoma. BCL6 is known as a transcriptional repressor in germinal centre B cells and an oncogene in lymphoma, as well as in other cancers. However, previous research indicated that BCL6 induced by therapy in glioblastoma may not act as a transcriptional repressor. This thesis aimed to clarify the role of BCL6 in the therapy response of glioblastoma. The effect of BCL6 inhibition on the whole proteome response of glioblastoma cells to DNA-damaging treatments was investigated. This confirmed that BCL6 was involved in the therapy response of glioblastoma and that acute irradiation appeared to cause BCL6 to switch from a repressor of the DNA damage response to a promoter of stress response signalling. Rapid immunoprecipitation mass spectrometry of endogenous proteins enabled identification of proteins associated with BCL6 in untreated and irradiated glioblastoma cells. BCL6 appeared to be a transcriptional regulator in untreated glioblastoma and its association with the corepressor NCOR2 was validated using proximity ligation assays. However, association with nuclear proteins was lost in response to acute irradiation. This was accompanied by the irradiation-induced association of BCL6 with plasma membrane proteins. Targeted long-read transcript sequencing did not reveal differential alternative splicing of BCL6 in response to acute irradiation. This indicated that the canonical BCL6 protein was expressed in irradiated glioblastoma cells and that the change in BCL6 function must be mediated by mechanisms other than the production of splice variants, such as through post-translational modification. Overall, these results support the hypothesis that BCL6 is involved in the therapy resistance of glioblastoma cells but reveal that its activity is context-dependent and may be mediated by the intensity of cellular stress.</p>

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A Key Pathway to Cancer Resilience: The Role of Autophagy in Glioblastomas

Cited by 6 publications

References 227 publications

Galectins in Glioma: Current Roles in Cancer Progression and Future Directions for Improving Treatment

Galectins in Glioma: Current Roles in Cancer Progression and Future Directions for Improving Treatment

New Salicylanilide Derivatives and Their Peptide Conjugates as Anticancer Compounds: Synthesis, Characterization, and In Vitro Effect on Glioblastoma

BCL6 is a context-dependent mediator of the glioblastoma therapy response

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