Long-term survivors of glioblastoma multiforme: clinical and molecular characteristics

Long term survival is rare in patients with glioblastoma multiforme (GBM). To determine if the tumors of patients with long survivals constitute a subgroup of patients with identifiable molecular genetic characteristics, we studied the p53 gene and Epidermal Growth Factor Receptor (EGF-R) expression in long-term survivors of GBM. A review of the Tumor Registry of Memorial Hospital for Cancer and Allied Diseases documented that 521 patients were treated for GBM between 1954 and 1987 and that 12 patients had seven-year or longer survivals. Six additional long-term survivors were identified from other institutions. After pathological re-examination, the diagnosis of 8 of these 18 (44%) tumors was changed to other histologic tumor types. Using immunohistochemical analysis, 4 of 10 confirmed malignant gliomas had over-expression of p53. Polymerase chain reaction/single-strand conformational polymorphism (PCR/SSCP) analysis and sequence analysis of these 4 tumors showed no p53 mutations in exons 5–8, the region where most mutations have been reported in human malignancies. Immunohistochemical analysis for EGF-R was performed on the tumors of the 10 long-term survivors. EGF-R over-expression was identified in 4 (40%), which is consistent with previous reported studies for GBM in general. These findings suggest that there is a subset of GBM defined by the accumulation of wild-type p53 and that the over-expression of EGF-R does not preclude long-term survival. The seven-year survival rate for confirmed GBM in patients from the Memorial Hospital Tumor Registry was at least 1%.     

A pilot clinical study of Delta9-tetrahydrocannabinol in patients with recurrent glioblastoma multiforme

Delta(9)-Tetrahydrocannabinol (THC) and other cannabinoids inhibit tumour growth and angiogenesis in animal models, so their potential application as antitumoral drugs has been suggested. However, the antitumoral effect of cannabinoids has never been tested in humans. Here we report the first clinical study aimed at assessing cannabinoid antitumoral action, specifically a pilot phase I trial in which nine patients with recurrent glioblastoma multiforme were administered THC intratumoraly. The patients had previously failed standard therapy (surgery and radiotherapy) and had clear evidence of tumour progression. The primary end point of the study was to determine the safety of intracranial THC administration. We also evaluated THC action on the length of survival and various tumour-cell parameters. A dose escalation regimen for THC administration was assessed. Cannabinoid delivery was safe and could be achieved without overt psychoactive effects. Median survival of the cohort from the beginning of cannabinoid administration was 24 weeks (95% confidence interval: 15-33). Delta(9)-Tetrahydrocannabinol inhibited tumour-cell proliferation in vitro and decreased tumour-cell Ki67 immunostaining when administered to two patients. The fair safety profile of THC, together with its possible antiproliferative action on tumour cells reported here and in other studies, may set the basis for future trials aimed at evaluating the potential antitumoral activity of cannabinoids.     

Phase 2 study of dose-intense temozolomide in recurrent glioblastoma

Background

Among patients with glioblastoma (GBM) who progress on standard temozolomide, the optimal therapy is unknown. Resistance to temozolomide is partially mediated by O⁶-methylguanine-DNA methyltransferase (MGMT). Because MGMT may be depleted by prolonged temozolomide administration, dose-intense schedules may overcome resistance.

Methods

This was a multicenter, phase 2, single-arm study of temozolomide (75–100 mg/m²/day) for 21 days of each 28-day cycle. Patients had GBM in first recurrence after standard therapy. The primary end point was 6-month progression-free survival (PFS6).

Results

Fifty-eight participants were accrued, 3 of whom were ineligible for analysis; one withdrew before response assessment. There were 33 men (61%), with a median age of 57 years (range, 25–79 years) and a median Karnofsky performance score of 90 (range, 60–100). Of 47 patients with MGMT methylation results, 36 (65%) had methylated tumors. There were 7 (13%) partial responses, and PFS6 was only 11%. Response and PFS did not depend on MGMT status; MSH2, MLH1, or ERCC1 expression; the number of prior temozolomide cycles; or the time off temozolomide. Treatment was well tolerated, with limited grade 3 neutropenia (n = 2) or thrombocytopenia (n = 2).

Conclusions

Dose-intense temozolomide on this schedule is safe in recurrent GBM. However, efficacy is marginal and predictive biomarkers are needed.     

Intratumoral autologous mononuclear cells in the treatment of recurrent glioblastoma multiforme

Summary Four patients with malignant gliomas recurring after surgical resection, radiotherapy and chemotherapy were entered into a trial of immunotherapy. Partial removal of the recurrent tumors was performed and autologous mononuclear cell infusions were given into the resection cavity via a subgaleal reservoir that had been inserted at the time of tumor resection. Mononuclear cells were obtained using a cell separator and Ficoll-hypaque separation techniques. Patients were followed carefully with clinical examinations, CT brain scans and immunological testing. All patients have died and complete autopsies were done. We looked specifically for evidence of mononuclear cell penetration into the tumor and possible adverse effects on the normal brain or in the rest of the body. The results indicate that this type of therapy can be performed safely and may be useful in the treatment of patients with malignant gliomas.     

Boron neutron capture therapy for glioblastoma multiforme: clinical studies in Sweden

Summary A boron neutron capture therapy (BNCT) facility has been constructed at Studsvik, Sweden. It includes two filter/moderator configurations. One of the resulting neutron beams has been optimized for clinical irradiations with a filter/moderator system that allows easy variation of the neutron spectrum from the thermal to the epithermal energy range. The other beam has been designed to produce a large uniform field of thermal neutrons for radiobiological research. Scientific operations of the Studsvik BNCT project are overseen by the Scientific Advisory Board comprised of representatives of major universities in Sweden. Furthermore, special task groups for clinical and preclinical studies have been formed to facilitate collaboration with academia. The clinical Phase II trials for glioblastoma are sponsored by the Swedish National Neuro-Oncology Group and, presently, involve a protocol for BNCT treatment of glioblastoma patients who have not received any therapy other than surgery. In this protocol,p-boronophenylalanine (BPA), administered as a 6-h intravenous infusion, is used as the boron delivery agent. As of January 2002, 17 patients were treated. The 6-h infusion of 900 mg BPA/kg body weight was shown to be safe and resulted in the average blood-boron concentration of 24 μg/g (range: 15–32 μg/g) at the time of irradiation (approximately 2–3 h post-infusion). Peak and average weighted radiation doses to the brain were in the ranges of 8.0–15.5 Gy(W) and 3.3–6.1 Gy(W), respectively. So far, no severe BNCT-related acute toxicities have been observed. Due to the short follow-up time, it is too early to evaluate the efficacy of these studies.     

Phase II trial of irinotecan and thalidomide in adults with recurrent glioblastoma multiforme

This phase II study aimed at determining the efficacy and safety of irinotecan combined with thalidomide in adults with recurrent glioblastoma multiforme (GBM) not taking enzyme-inducing anticonvulsants (EIACs). Adult patients (> or =18 years) with recurrent GBM with up to three relapses following surgery and radiation therapy were eligible for this trial. The primary end point was rate of progression-free survival at 6 months (PFS-6); secondary end points were response rate, overall survival, and toxicity. Patients were treated in 6-week cycles with 125 mg/m(2) irinotecan weekly for 4 weeks followed by 2 weeks off treatment and 100 mg of thalidomide daily increased as tolerated to 400 mg/day. Of 32 evaluable patients, 8 (25%) were alive and progression free at 6 months. The median PFS was 13 weeks. One patient experienced a complete response, one a partial response, and 19 stable disease. Median overall survival time from entry into the study was 36 weeks, and the 1-year survival rate was 34%. Adverse events (grade 3 or 4) included diarrhea, abdominal cramps, lymphopenia, neutropenia, and fatigue. Two of the four deaths that occurred were possibly due to treatment-related toxicity. The combination of irinotecan, a cytotoxic agent, and thalidomide, an antiangiogenic agent, shows promising activity against recurrent GBM in patients not receiving EIACs and warrants further study. The results also provide support for similar strategies using combination therapies with newer targeted antiangiogenic agents to generate effective therapies against malignant gliomas.     

Phase II trial of low-dose continuous (metronomic) treatment of temozolomide for recurrent glioblastoma

The prognosis for patients with recurrent glioblastomas (GBMs) is dismal, with a median survival of 3–6 months. We performed a phase II trial of low-dose continuous (metronomic) treatment using temozolomide (TMZ) for recurrent GBMs. TMZ-refractory patients with GBM who experienced disease recurrence or progression during or after the cyclic treatment schedule of TMZ after surgery and standard radiotherapy were eligible. This phase II trial included 2 cohorts of patients. The initial cohort, comprising 10 patients, received TMZ at 40 mg/m² everyday. After this regimen seemed safe and effective, the metronomic schedule was changed to 50 mg/m² everyday. The second cohort, comprising 28 patients, received TMZ at 50 mg/m² everyday. The 6-month progression-free survival in all 38 patients was 32.5% (95% CI: 29.3%–35.8%) and the 6-month overall survival was 56.0% (95% CI: 36.2%–75.8%). One patient developed a grade III neutropenia, grade II thrombocytopenia in 3 patients, and grade II increase of liver enzyme (GOT/GPT) in 3 patients. Of all patients included in this study, 4 patients were withdrawn from this study because of side effects including sustained hematological disorders, cryptococcal infection, and cellulitis. In a response group, quality of life measured with short form-36 was well preserved, when compared with the pretreatment status. Metronomic treatment of TMZ is an effective treatment for recurrent GBM that is even refractory to conventional treatment of TMZ and has acceptable toxicity.     

Phase II study of Thalidomide in the treatment of recurrent glioblastoma multiforme

Treatment options and prognosis remains poor for patients with recurrent glioblastoma multiforme. These tumors are highly vascularised and over express angiogenic factors such as vascular endothelial growth factor and may potentially be responsive to antiangiogenic therapies. We present the results of a phase II trial of Thalidomide, an antiangiogenic agent, in the treatment of recurrent glioblastoma multiforme. Patients were treated with 100mg/day of Thalidomide, increased at weekly intervals by 100mg to a maximum tolerated dose of 500mg/d.Forty-two patients were enrolled, with 38 patients being assessable for response and 39 for toxicity. Two patients (5%) achieved a partial response and 16 (42%) had stable disease. The median survival was 31 weeks and the 1-year survival was 35%. Patients who had a partial response or stable disease had either a stabilisation or improvement in quality of life scores or performance status. Overall Thalidomide was well tolerated with no grade 4 toxicities and no treatment related deaths. The median maximum tolerated dose was 300mg/day. The most common toxicity was fatigue to which patients developed tachyphylaxis. There was no correlation demonstrated with plasma vascular endothelial growth factor levels and response or survival.Thalidomide is a well-tolerated drug that may have some activity in the treatment of recurrent glioblastoma. Optimum dosing with antiangiogenic agents is currently under investigation. Chronic low dose therapy may be required to see conventional responses or improvements in time to progression. The dose required to achieve optimal biological impact may be better defined once we have established reliable surrogate endpoints.     

European Organization for Research and Treatment of Cancer (EORTC) open label phase II study on glufosfamide administered as a 60-minute infusion every 3 weeks in recurrent glioblastoma multiforme.

BACKGROUND: Glufosfamide is a new alkylating agent in which the active metabolite of isophosphoramide mustard is covalently linked to beta-D-glucose to target the glucose transporter system and increase intracellular uptake in tumor cells. We investigated this drug in a multicenter prospective phase II trial in recurrent glioblastoma multiforme (GBM). PATIENTS AND METHODS: Eligible patients had recurrent GBM following surgery, radiotherapy and no more than one prior line of chemotherapy. Patients were treated with glufosfamide 5000 mg/m(2) administered as a 1-h intravenous infusion. Treatment success was defined as patients with either an objective response according to Macdonald's criteria or 6 months progression-free survival. Toxicity was assessed with the Common Toxicity Criteria (CTC) version 2.0. RESULTS: Thirty-one eligible patients were included. Toxicity was modest, the main clinically relevant toxicities being leukopenia (CTC grade >3 in five patients) and hepatotoxicity (in three patients). No responses were observed; one patient (3%; 95% confidence interval 0 to 17%) was free from progression at 6 months. Pharmacokinetic analysis showed a 15% decrease in area under the curve and glufosfamide clearance in patients treated with enzyme-inducing antiepileptic drugs, but no effect of these drugs on maximum concentration and plasma half-life. CONCLUSION: Glufosfamide did not show significant clinical antitumor activity in patients with recurrent GBM.     

Phase I trial of vorinostat combined with bevacizumab and CPT-11 in recurrent glioblastoma

A phase I study was conducted to determine the dose-limiting toxicities (DLT) and maximum tolerated dose (MTD) for the combination of vorinostat with bevacizumab and CPT-11 in recurrent glioblastoma. Vorinostat was combined with bevacizumab and CPT-11 and was escalated using a standard 3 + 3 design. Vorinostat was escalated up to 2 actively investigated doses of this compound or until the MTD was identified on the basis of DLTs. Correlative science involving proteomic profiling of serial patient plasma samples was performed. Nineteen patients were treated. The MTD of vorinostat was established at 400 mg on days 1-7 and 15-21 every 28 days when combined with bevacizumab and CPT-11. Common toxicities were fatigue and diarrhea. DLTs included fatigue, hypertension/hypotension, and central nervous system ischemia. Although the MTD was established, CPT-11 dose reductions were common early in therapy. High-dose vorinostat had an improved progression-free survival and overall survival when compared with low-dose vorinostat. Serum proteomic profiling identified IGFBP-5 and PDGF-AA as markers for improved PFS and recurrence, respectively. A MTD for the combination of vorinostat with bevacizumab and CPT-11 has been established, although it has poor long-term tolerability. With the increased toxicities associated with CPT-11 coupled with its unclear clinical significance, investigating the efficacy of vorinostat combined with bevacizumab alone may represent a more promising strategy to evaluate in the context of a phase II clinical trial.     

EORTC 26083 phase I/II trial of dasatinib in combination with CCNU in patients with recurrent glioblastoma

The treatment of patients with recurrent glioblastoma remains a major oncologic problem, with median survival after progression of 7–9 months. To determine the maximum tolerated dose and dose-limiting toxicity (DLT), the combination of dasatinib and cyclonexyl-chloroethyl-nitrosourea (CCNU) was investigated in this setting. The study was designed as multicenter, randomized phase II trial, preceded by a lead-in safety phase. The safety component reported here, which also investigated pharmacokinetics and preliminary clinical activity, required expansion and is therefore considered a phase I part to establish a recommended dosing regimen of the combination of CCNU (90–110 mg/m²) and dasatinib (100–200 mg daily). Overall, 28 patients were screened, and 26 patients were enrolled. Five dose levels were explored. DLTs, mainly myelosuppression, occurred in 10 patients. Grade 3 or 4 neutropenia was recorded in 7 patients (26.9%) and thrombocytopenia in 11 patients (42.3%). No significant effect of CCNU coadministration on dasatinib pharmacokinetics was found. Median progression-free survival (PFS) was 1.35 months (95% confidence interval: 1.2–1.4) and 6-month PFS was 7.7%. In this phase I study of recurrent glioblastoma patients, the combination of CCNU and dasatinib showed significant hematological toxicities and led to suboptimal exposure to both agents.     

Bevacizumab and daily temozolomide for recurrent glioblastoma

BACKGROUND:

The authors performed a phase 2 trial of combined protracted daily temozolomide and biweekly bevacizumab for patients with recurrent glioblastoma who had previously received radiation therapy and temozolomide.

METHODS:

There was no limit on the number of previous disease progressions or previous regimens allowed. Thirty‐two adult patients were enrolled. Patients received temozolomide 50 mg/m² daily and bevacizumab 10 mg/kg intravenously every 14 days. Patients underwent physical examination and brain magnetic resonance imaging every 8 weeks.

RESULTS:

The authors observed a 6‐month progression‐free survival (PFS) rate of 18.8% (95% confidence interval [CI], 7.6%‐33.7%) and a median PFS of 15.8 weeks. The median overall survival (OS) was 37 weeks, the 6‐month OS rate was 62.5% (95% CI, 43.5%‐76.7%), and the 12‐month OS rate was 31.3% (95% CI, 16.4%‐47.3%). Nine patients (28%) had a radiographic response, and 7 patients (22%) had disease progression within the first 8 weeks of treatment. Patterns of progression were available for 21 patients. The authors observed that 52% of patients (n = 11) progressed locally, 38% (n = 8) progressed with a diffuse pattern, and 10% (n = 2) progressed at a distant site. Two patients discontinued therapy secondary to toxicity (prolonged thrombocytopenia and grade 4 pancreatitis). One patient experienced grade 5 pneumonia.

CONCLUSIONS:

The current study demonstrated that a regimen of combined daily temozolomide and biweekly bevacizumab had some activity and was well tolerated. However, the results obtained in this study were inferior to those observed in studies of bevacizumab monotherapy and of combined irinotecan and bevacizumab therapy. The current patient population was more heterogeneous and was pretreated more heavily than patients in previous studies. Cancer 2012;. © 2011 American Cancer Society.     

Molecular pathways and potential therapeutic targets in glioblastoma multiforme

Glioblastoma multiforme (GBM) is the most common primary brain malignancy. The current standard of therapy consists of surgical resection followed by concurrent chemoradiotherapy with temozolomide. Despite steady advances in all therapeutic modalities, clinical improvements have been slow and the prognosis remains poor. Utilizing powerful large-scale molecular techniques, several key pathways implicated in gliomagenesis have recently been identified and confirmed. These represent potential therapeutic targets, and by developing novel methods to specifically manipulate these pathways, we may achieve a meaningful and substantial improvement in the way we treat GBM. Here, we present and discuss the current status of research into the molecular pathways and potential therapeutic targets in GBM.     

Response to chemotherapy of a radiation-induced glioblastoma multiforme

Summary Background Radiation-induced glioblastoma multiforme (GBM) is particularly resistant to treatment and therapeutic options are limited. We report a patient with a radiation-induced GBM who had a complete response to carmustine and survived for 44 months. Patients and Methods Case report of a 38-year-old man with a radiation-induced GBM that responded to carmustine. Results Our patient developed a left occipital GBM 35 years after a left cerebellar astrocytoma was treated with surgery and radiation therapy (4500 rad). The GBM was treated with subtotal resection followed by four cycles of carmustine; a complete response was achieved. He relapsed 34 months after diagnosis and with further surgery survived 44 months from his diagnosis of GBM. Conclusion GBMs may be a late complication of radiation treatment for pediatric brain tumors. If further radiotherapy is not a therapeutic option, chemotherapy may result in prolonged survival.     

Clinical and molecular characteristics of congenital glioblastoma

Congenital glioblastoma (cGBM) is an uncommon tumor of infancy with a reported variable but often poor cure rate, even with intensive therapy. Five patients with cGBMs, arising de novo and not in familial tumor predisposition kindreds, were studied for histological and biological features, using Affymetrix microarray. Tumors were large, often associated with hemorrhage, extended into the thalamus, and often bulged into the ventricles. One patient died acutely from bleeding at the time of operation. The 4 surviving patients underwent surgery (1 gross total resection, 3 subtotal resections or biopsies) and moderate intensity chemotherapy without radiation, and remain progression-free at a median time of 36 months (range, 30-110 months). Affymetrix microarrays measured gene expression on the 3 cGBMs from which frozen tissue was available. Unsupervised hierarchical clustering of cGBMs versus 168 other central nervous system tumors demonstrated that cGBMs clustered most closely with other high-grade gliomas. Gene expression profiles of cGBMs were compared with non-congenital pediatric and adult GBMs. cGBMs demonstrated marked similarity to both pediatric and adult GBMs, with only 31 differentially expressed genes identified (false discovery rate, <0.05). Unique molecular features of cGBMs included over-expression of multiple genes involved in glucose metabolism and tissue hypoxia. cGBMs show histological and biological overlap with pediatric and adult GBMs but appear to have a more favorable outcome, with good response to moderate intensity chemotherapy with only subtotal resection or biopsy. Further study may determine whether identified gene expression differences contribute to the improved survival seen in these tumors.     

Biomarkers and therapeutic advances in glioblastoma multiforme

Glioblastoma multiforme (GBM) is a malignant tumor within the brain. Generally classified as primary and secondary with several different subtypes, ample molecular biomarkers have risen throughout the years which have garnered the attention of researchers. The advancements in genomics and proteomics have allowed researchers to gather prominent molecular biomarkers. All these biomarkers are gathered by means of biopsy or bodily fluid sample collection and are quantitatively analyzed by polymerase chain reaction coupled with other computational technologies. This review highlights the significance, regulation and prevalence of molecular biomarkers such as O⁶‐methylguanine‐DNA methyltransferase, epidermal growth factor receptor vIII, isocitrate dehydrogenase mutation and several others which expressed differently in different types and molecular subtypes of GBM. The discoveries and roles of GBM‐specific microRNAs including miR‐21 and miR‐10b as biomarkers with promising prognostic values were also delineated. The role and mechanism of biomarkers in GBM tumorigenesis are essential in the development of therapy for patients suffering from the disease itself. Thus, this review also discusses the mechanisms, effects and limitations of therapy such as temozolomide, viral gene transfer, biomarker‐based vaccines or even engineered T cells for more specific responses. Biomarkers have displayed a high value and could eventually be utilized as drug targets. It is hoped that by combining different aspects of the disease which present with different biomarkers could lead to the development of a robust, effective and innovative take on GBM therapy.     

Levamisole in the treatment of glioblastoma multiforme

Twenty-five patients with malignant glioma were randomized to receive radiation therapy only or radiation therapy and oral Levamisole. There were no differences in survival between the two groups and therefore no advantage in the use of Levamisole in glioblastoma could be demonstrated.     

上皮-间质转化和多形性成胶质细胞瘤的侵袭性

[摘 要] 多形性成胶质细胞瘤（glioblastoma multiforme,GBM）是最常见的中枢神经系统恶性肿瘤,传统的治疗手段如手术、放 疗和化疗等虽然不断进步,但依然预后不佳。上皮-间质转化（epithelial-interstitial transformation,EMT）是上皮细胞来源的恶性肿 瘤获得侵袭和迁移能力的重要病理过程,与GBM的侵袭、迁移及放化疗耐受性等恶性生物学行为密切相关。本文将聚焦EMT 相关病理生理过程及其与GBM侵袭和转移行为相关的最新进展,阐述EMT在GBM中的基因调控与分子信号通路,如金属基质 蛋白酶、TGF-β和转录因子Snail、Twist等,从而为GBM研究提供新的思路。     

Current evidence and challenges of systematic therapies for adult recurrent glioblastoma: Results from clinical trials

Recurrence is a major concern for adult patients with glioblastomas (GBMs), and the prognosis remains poor. Although several therapies have been assessed, most of them have not achieved satisfactory results. Therefore, there is currently no standard treatment for adult recurrent GBM (rGBM). Here, we review the results of clinical trials for the systematic therapy of rGBM. Regorafenib, rindopepimut and neoadjuvant programmed death 1 (PD-1) inhibitors are promising agents for rGBM, while regorafenib is effective in both O⁶-methylguanine DNA methyltransferase (MGMT) promoter methylated and unmethylated patients. Temozolomide rechallenge and alkylating agents combined with bevacizumab can be useful for patients with MGMT methylation, and patients with isocitrate dehydrogenase (IDH) mutations or second recurrence can benefit from vocimagene amiretrorepvec (Toca 511). Some phase I trials on targeted therapy and immunotherapy have shown positive results, and results from further studies are expected. In addition to the analysis of existing clinical trial results, forthcoming trials should be well designed, and patients are encouraged to participate in appropriate clinical trials.