8 research outputs found

    ONC201 in combination with paxalisib for the treatment of H3K27-altered diffuse midline glioma

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    Diffuse midline gliomas (DMG), including diffuse intrinsic pontine gliomas (DIPGs), are the most lethal of childhood cancers. Palliative radiotherapy is the only established treatment, with median patient survival of 9-11 months. ONC201 is a DRD2 antagonist and ClpP agonist that has shown preclinical and emerging clinical efficacy in DMG. However, further work is needed to identify the mechanisms of response of DIPGs to ONC201 treatment and to determine whether recurring genomic features influence response. Using a systems-biological approach, we showed that ONC201 elicits potent agonism of the mitochondrial protease ClpP to drive proteolysis of electron transport chain and tricarboxylic acid cycle proteins. DIPGs harboring PIK3CA-mutations showed increased sensitivity to ONC201, while those harboring TP53-mutations were more resistant. Metabolic adaptation and reduced sensitivity to ONC201 was promoted by redox-activated PI3K/Akt signaling, which could be counteracted using the brain penetrant PI3K/Akt inhibitor, paxalisib. Together, these discoveries coupled with the powerful anti-DIPG/DMG pharmacokinetic and pharmacodynamic properties of ONC201 and paxalisib have provided the rationale for the ongoing DIPG/DMG phase II combination clinical trial NCT05009992

    Pediatric low-grade glioma: Targeted therapeutics and clinical trials in the molecular era

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    pLGGs are a group of tumors for which the era of molecular diagnostics has truly shifted treatment paradigms and patient care. The discovery that this group of tumors is driven by single-gene alterations/fusions in the MAPK pathway has resulted in relatively rapid translation into targeted therapy options for patients with this often chronic disease. This translation has been facilitated through efforts of multiple collaboratives and consortia and has led to the development of clinical trials testing the role of targeted therapies in pLGG. Although these developments represent promise, many questions remain regarding these therapies including their long-term toxicities and their potential effects on the natural history of pLGG

    EXTH-36. COMBINING ONC201 AND PAXALISIB FOR THE TREATMENT OF DIFFUSE MIDLINE GLIOMA (DMG); THE PRECLINICAL RESULTS UNDERPINNING THE INTERNATIONAL PHASE II CLINICAL TRIAL (NCT05009992)

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    Diffuse midline gliomas (DMGs) diagnosed in the pons (DIPG) are universally fatal central nervous system tumors and are the leading cause of cancer-related death in children. Palliative radiotherapy is the only recognized treatment, with median overall survival just 9-11 months. The brain-penetrant, small molecule, ONC201, shows early-stage clinical trial efficacy, extending survival by ~9-11 months compared to historic controls. However, studies to determine the mechanisms behind the temporary clinical response to ONC201 are needed. Here, we have used a systems-biological approach to investigate whether genomic features influenced ONC201 response. DMGs harboring PIK3CA mutations were more sensitive to ONC201, whereas those harboring TP53 mutations were less sensitive. Quantitative proteogenomics identified that ONC201 elicits potent agonism of the mitochondrial protease, ClpP, driving proteolysis of electron transport chain and tricarboxylic acid proteins, leading to mitochondrial dysfunction. However, metabolic adaptation to ONC201 is promoted by the spare redox-signaling capacity of cells harboring WT-PIK3CA that was counteracted using the brain-penetrant PI3K/Akt/mTOR inhibitor, paxalisib. ONC201 and paxalisib combinations extended survival of orthotopic DIPG xenograft mouse models (SU-DIPG-VI, p=0.0027; SF8626, p=0.0002; HSJD-DIPG-007, p=< 0.0001). The combination in the first three recorded patients; two at progression following re-irradiation, and one at diagnosis following the completion of radiation, resulted in dramatic reductions in tumor area, dramatically extending overall survival for all three patients (25 months, 30 and 31 months continuing). The DIPG patient receiving the combination since diagnosis, remains in progression free survival (MR axial diagnosis scan = 1554 mm2, current tumour area = 306 mm2, ~80% reduction). The patient continuing to receive the combination at progression and following reirradiation also experienced a marked decrease in tumor size (MR axial diagnosis scan = 1248 mm2, current tumour area = 315 mm2, ~75% reduction), 10 months following radiological detection of progression. These data inform the phase II clinical trial (NCT05009992)

    COMBINING ONC201 AND PAXALISIB FOR THE TREATMENT OF DIFFUSE MIDLINE GLIOMA (DMG); THE PRECLINICAL RESULTS UNDERPINNING THE INTERNATIONAL PHASE II CLINICAL TRIAL (NCT05009992)

    No full text
    International audienceDiffuse midline gliomas (DMGs) diagnosed in the pons (DIPG) are universally fatal central nervous system tumors and are the leading cause of cancer-related death in children. Palliative radiotherapy is the only recognized treatment, with median overall survival just 9-11 months. The brain-penetrant, small molecule, ONC201, shows early-stage clinical trial efficacy, extending survival by ~9-11 months compared to historic controls. However, studies to determine the mechanisms behind the temporary clinical response to ONC201 are needed. Here, we have used a systems-biological approach to investigate whether genomic features influenced ONC201 response. DMGs harboring PIK3CA mutations were more sensitive to ONC201, whereas those harboring TP53 mutations were less sensitive. Quantitative proteogenomics identified that ONC201 elicits potent agonism of the mitochondrial protease, ClpP, driving proteolysis of electron transport chain and tricarboxylic acid proteins, leading to mitochondrial dysfunction. However, metabolic adaptation to ONC201 is promoted by the spare redox-signaling capacity of cells harboring WT-PIK3CA that was counteracted using the brain-penetrant PI3K/Akt/mTOR inhibitor, paxalisib. ONC201 and paxalisib combinations extended survival of orthotopic DIPG xenograft mouse models (SU-DIPG-VI, p=0.0027; SF8626, p=0.0002; HSJD-DIPG-007, p=< 0.0001). The combination in the first three recorded patients; two at progression following re-irradiation, and one at diagnosis following the completion of radiation, resulted in dramatic reductions in tumor area, dramatically extending overall survival for all three patients (25 months, 30 and 31 months continuing). The DIPG patient receiving the combination since diagnosis, remains in progression free survival (MR axial diagnosis scan = 1554 mm2, current tumour area = 306 mm2, ~80% reduction). The patient continuing to receive the combination at progression and following reirradiation also experienced a marked decrease in tumor size (MR axial diagnosis scan = 1248 mm2, current tumour area = 315 mm2, ~75% reduction), 10 months following radiological detection of progression. These data inform the phase II clinical trial (NCT05009992)

    ONC201 in combination with paxalisib for the treatment of H3K27-altered diffuse midline glioma

    Get PDF
    Diffuse midline gliomas (DMG), including diffuse intrinsic pontine gliomas (DIPGs), are the most lethal of childhood cancers. Palliative radiotherapy is the only established treatment, with median patient survival of 9-11 months. ONC201 is a DRD2 antagonist and ClpP agonist that has shown preclinical and emerging clinical efficacy in DMG. However, further work is needed to identify the mechanisms of response of DIPGs to ONC201 treatment and to determine whether recurring genomic features influence response. Using a systems-biological approach, we showed that ONC201 elicits potent agonism of the mitochondrial protease ClpP to drive proteolysis of electron transport chain and tricarboxylic acid cycle proteins. DIPGs harboring PIK3CA-mutations showed increased sensitivity to ONC201, while those harboring TP53-mutations were more resistant. Metabolic adaptation and reduced sensitivity to ONC201 was promoted by redox-activated PI3K/Akt signaling, which could be counteracted using the brain penetrant PI3K/Akt inhibitor, paxalisib. Together, these discoveries coupled with the powerful anti-DIPG/DMG pharmacokinetic and pharmacodynamic properties of ONC201 and paxalisib have provided the rationale for the ongoing DIPG/DMG phase II combination clinical trial NCT05009992

    ONC201 in Combination with Paxalisib for the Treatment of H3K27-Altered Diffuse Midline Glioma

    No full text
    Abstract Diffuse midline gliomas (DMG), including diffuse intrinsic pontine gliomas (DIPG), are the most lethal of childhood cancers. Palliative radiotherapy is the only established treatment, with median patient survival of 9 to 11 months. ONC201 is a DRD2 antagonist and ClpP agonist that has shown preclinical and emerging clinical efficacy in DMG. However, further work is needed to identify the mechanisms of response of DIPGs to ONC201 treatment and to determine whether recurring genomic features influence response. Using a systems-biological approach, we showed that ONC201 elicits potent agonism of the mitochondrial protease ClpP to drive proteolysis of electron transport chain and tricarboxylic acid cycle proteins. DIPGs harboring PIK3CA mutations showed increased sensitivity to ONC201, whereas those harboring TP53 mutations were more resistant. Metabolic adaptation and reduced sensitivity to ONC201 was promoted by redox-activated PI3K/Akt signaling, which could be counteracted using the brain penetrant PI3K/Akt inhibitor, paxalisib. Together, these discoveries coupled with the powerful anti-DIPG/DMG pharmacokinetic and pharmacodynamic properties of ONC201 and paxalisib have provided the rationale for the ongoing DIPG/DMG phase II combination clinical trial NCT05009992. Significance: PI3K/Akt signaling promotes metabolic adaptation to ONC201-mediated disruption of mitochondrial energy homeostasis in diffuse intrinsic pontine glioma, highlighting the utility of a combination treatment strategy using ONC201 and the PI3K/Akt inhibitor paxalisib
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