12 research outputs found
Polo-like kinase 1 (PLK1) inhibition suppresses cell growth and enhances radiation sensitivity in medulloblastoma cells
<p>Abstract</p> <p>Background</p> <p>Medulloblastoma is the most common malignant brain tumor in children and remains a therapeutic challenge due to its significant therapy-related morbidity. Polo-like kinase 1 (<it>PLK1</it>) is highly expressed in many cancers and regulates critical steps in mitotic progression. Recent studies suggest that targeting PLK1 with small molecule inhibitors is a promising approach to tumor therapy.</p> <p>Methods</p> <p>We examined the expression of <it>PLK1 </it>mRNA in medulloblastoma tumor samples using microarray analysis. The impact of PLK1 on cell proliferation was evaluated by depleting expression with RNA interference (RNAi) or by inhibiting function with the small molecule inhibitor BI 2536. Colony formation studies were performed to examine the impact of BI 2536 on medulloblastoma cell radiosensitivity. In addition, the impact of depleting <it>PLK1 </it>mRNA on tumor-initiating cells was evaluated using tumor sphere assays.</p> <p>Results</p> <p>Analysis of gene expression in two independent cohorts revealed that <it>PLK1 </it>mRNA is overexpressed in some, but not all, medulloblastoma patient samples when compared to normal cerebellum. Inhibition of PLK1 by RNAi significantly decreased medulloblastoma cell proliferation and clonogenic potential and increased cell apoptosis. Similarly, a low nanomolar concentration of BI 2536, a small molecule inhibitor of PLK1, potently inhibited cell growth, strongly suppressed the colony-forming ability, and increased cellular apoptosis of medulloblastoma cells. Furthermore, BI 2536 pretreatment sensitized medulloblastoma cells to ionizing radiation. Inhibition of PLK1 impaired tumor sphere formation of medulloblastoma cells and decreased the expression of SRY (sex determining region Y)-box 2 (<it>SOX2</it>) mRNA in tumor spheres indicating a possible role in targeting tumor inititiating cells.</p> <p>Conclusions</p> <p>Our data suggest that targeting PLK1 with small molecule inhibitors, in combination with radiation therapy, is a novel strategy in the treatment of medulloblastoma that warrants further investigation.</p
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CTIM-14. PHASE 1 SAFETY LEAD-IN AND RANDOMIZED OPEN-LABEL PERIOPERATIVE STUDY OF VORASIDENIB COMBINED WITH PEMBROLIZUMAB IN RECURRENT OR PROGRESSIVE ENHANCING IDH1-MUTANT ASTROCYTOMAS: SAFETY LEAD-IN RESULTS
Abstract Isocitrate dehydrogenase 1 mutations (mIDH1) occur in ~80% of grade 2/3 gliomas. Vorasidenib (VOR), an oral, brain-penetrant, dual inhibitor of mIDH1/2 enzymes, is an investigational treatment for mIDH gliomas. A neoadjuvant perioperative study in grade 2/3 mIDH gliomas suggested VOR renders the tumor immune microenvironment amenable to immune checkpoint blockade. This study (NCT05484622) evaluates safety/tolerability of VOR plus pembrolizumab to determine the recommended combination dose (RCD) (safety lead-in phase), and CD3+ T-cell infiltration in tumors following preoperative treatment (perioperative phase). Seven patients with recurrent or progressive enhancing grade 2/3 astrocytoma with an IDH1-R132H mutation were dosed in the safety lead-in phase: median age 39 (range, 34â60) years, 3 (43%) female, 6 (86%) grade 3 at screening. Patients received VOR 40 mg orally once daily (QD) plus pembrolizumab 200 mg intravenously once every 3 weeks (Q3W). As of April 29, 2023, patients received a median of 2 (range, 2â5) cycles with six (86%) ongoing; one (14%) discontinued due to disease progression. No dose-limiting toxicities (DLTs), adverse events (AEs) leading to study drug discontinuation, or AEs of special interest (AESI, elevated liver transaminases) were reported during the DLT evaluation period. Six (86%) patients experienced a treatment-related AE, none of which were grade â„ 3. One (14%) patient experienced a serious, related AE of dysphasia (leading to VOR and pembrolizumab interruption) that subsequently resolved; both drugs were resumed. After the data cut-off, one patient (14%) experienced a grade 2 AESI. Based on safety review committee evaluation, VOR 40 mg QD + pembrolizumab 200 mg Q3W was confirmed as the RCD for the recently initiated perioperative phase. In this phase, ~60 patients will be randomized 1:1:1 to the RCD, VOR 40 mg QD alone, or no treatment prior to surgery. All patients can receive the RCD post-surgery. Funding: Servier and Merck & Co., Inc
Targeting Aurora Kinase A enhances radiation sensitivity of atypical teratoid rhabdoid tumor cells
Genomic Microsatellite Signatures Identify Germline Mismatch Repair Deficiency and Risk of Cancer Onset
Purpose: Diagnosis of Mismatch Repair Deficiency (MMRD) is crucial for tumor management and early detection in patients with the cancer predisposition syndrome constitutional mismatch repair deficiency (CMMRD). Current diagnostic tools are cumbersome and inconsistent both in childhood cancers and in determining germline MMRD. Patients and methods: We developed and analyzed a functional Low-pass Genomic Instability Characterization (LOGIC) assay to detect MMRD. The diagnostic performance of LOGIC was compared with that of current established assays including tumor mutational burden, immunohistochemistry, and the microsatellite instability panel. LOGIC was then applied to various normal tissues of patients with CMMRD with comprehensive clinical data including age of cancer presentation. Results: Overall, LOGIC was 100% sensitive and specific in detecting MMRD in childhood cancers (N = 376). It was more sensitive than the microsatellite instability panel (14%, P = 4.3 Ă 10-12), immunohistochemistry (86%, P = 4.6 Ă 10-3), or tumor mutational burden (80%, P = 9.1 Ă 10-4). LOGIC was able to distinguish CMMRD from other cancer predisposition syndromes using blood and saliva DNA (P blood > brain), increased over time in the same individual, and revealed genotype-phenotype associations within the mismatch repair genes. Importantly, increased MMRDness score was associated with younger age of first cancer presentation in individuals with CMMRD (P = 2.2 Ă 10-5). Conclusion: LOGIC was a robust tool for the diagnosis of MMRD in multiple cancer types and in normal tissues. LOGIC may inform therapeutic cancer decisions, provide rapid diagnosis of germline MMRD, and support tailored surveillance for individuals with CMMRD
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Genomic predictors of response to PD-1 inhibition in children with germline DNA replication repair deficiency.
Cancers arising from germline DNA mismatch repair deficiency or polymerase proofreading deficiency (MMRD and PPD) in children harbour the highest mutational and microsatellite insertion-deletion (MS-indel) burden in humans. MMRD and PPD cancers are commonly lethal due to the inherent resistance to chemo-irradiation. Although immune checkpoint inhibitors (ICIs) have failed to benefit children in previous studies, we hypothesized that hypermutation caused by MMRD and PPD will improve outcomes following ICI treatment in these patients. Using an international consortium registry study, we report on the ICI treatment of 45 progressive or recurrent tumors from 38 patients. Durable objective responses were observed in most patients, culminating in a 3âyear survival of 41.4%. High mutation burden predicted response for ultra-hypermutant cancers (>100âmutations per Mb) enriched for combined MMRDâ+âPPD, while MS-indels predicted response in MMRD tumors with lower mutation burden (10-100âmutations per Mb). Furthermore, both mechanisms were associated with increased immune infiltration even in 'immunologically cold' tumors such as gliomas, contributing to the favorable response. Pseudo-progression (flare) was common and was associated with immune activation in the tumor microenvironment and systemically. Furthermore, patients with flare who continued ICI treatment achieved durable responses. This study demonstrates improved survival for patients with tumors not previously known to respond to ICI treatment, including central nervous system and synchronous cancers, and identifies the dual roles of mutation burden and MS-indels in predicting sustained response to immunotherapy
Genomic predictors of response to PD-1 inhibition in children with germline DNA replication repair deficiency
Cancers arising from germline DNA mismatch repair deficiency or polymerase proofreading deficiency (MMRD and PPD) in children harbour the highest mutational and microsatellite insertion-deletion (MS-indel) burden in humans. MMRD and PPD cancers are commonly lethal due to the inherent resistance to chemo-irradiation. Although immune checkpoint inhibitors (ICIs) have failed to benefit children in previous studies, we hypothesized that hypermutation caused by MMRD and PPD will improve outcomes following ICI treatment in these patients. Using an international consortium registry study, we report on the ICI treatment of 45 progressive or recurrent tumors from 38 patients. Durable objective responses were observed in most patients, culminating in a 3 year survival of 41.4%. High mutation burden predicted response for ultra-hypermutant cancers (>100 mutations per Mb) enriched for combined MMRD + PPD, while MS-indels predicted response in MMRD tumors with lower mutation burden (10-100 mutations per Mb). Furthermore, both mechanisms were associated with increased immune infiltration even in 'immunologically cold' tumors such as gliomas, contributing to the favorable response. Pseudo-progression (flare) was common and was associated with immune activation in the tumor microenvironment and systemically. Furthermore, patients with flare who continued ICI treatment achieved durable responses. This study demonstrates improved survival for patients with tumors not previously known to respond to ICI treatment, including central nervous system and synchronous cancers, and identifies the dual roles of mutation burden and MS-indels in predicting sustained response to immunotherapy