Roberta L. Hayes

Survival of patients with glioblastoma multiforme is not influenced by altered expression of p16, p53, EGFR, MDM2 or Bcl-2 genes.

Deregulated expression of one or more growth control genes including p16, p53, EGF receptor (EGFR), MDM2 or Bcl‐2 may contribute to the treatment resistance phenotype of GBM and generally poor patient survival. Clinically, GBM have been divided into two major groups defined by (1) histologic progression from a low grade tumor (“progressive” or “secondary” GBM) contrasted with (2) those which show initial clinical presentation without a prior history (“de novo” or “primary” GBM). Using molecular genetic analysis for p53 gene mutations together with immunophenotyping for overexpression of EGFR, up to four GBM variants can be distinguished, including the p53+/EGFR progressive or the p53‐/EGFR+de novo variant. We examined the survival of 80 adult patients diagnosed with astrocytic GBM stratified by age category (>40, 41–60 or 61–80) to determine whether alterations in any one given growth control gene or whether different genetic variants of GBM (progressive versus de novo) were associated with different survival outcomes. Survival testing using Kaplan‐Meier plots for GBM patients with or without altered expression of p16, p53, EGFR, MDM2 or Bcl‐2 showed no significant differences by age group or by gene expression indicating a lack of prognostic value for GBM. Also the clinical outcome among patients with GBM showed no significant differences within each age category for any GBM variant including the progressive and de novo GBM variants indicating similar biologic behavior despite different genotypes. Using a pair‐wise comparison, one‐third of the GBM with normal p16 expression showed accumulation of MDM2 protein and this association approached statistical significance (0.01 < P < 0.05) using the Bonferroni procedure. These GBM may represent a variant in which the p19ARF/MDM2/p53 pathway may be deregulated rather than the p16/cyclin D‐CDK4/Rb pathway.

Preferential Inactivation of the p53 Tumor Suppressor Pathway and Lack of EGFR Amplification Distinguish de novo High Grade Pediatric Astrocytomas from de novo Adult Astrocytomas

Classification of high grade astrocytomas of children into genetic subtypes similar to the adult remains to be defined. Here we report an extensive characterization of 29 high grade pediatric astrocytomas, 7 WHO grade III and 22 WHO grade IV, for genetic alterations frequently observed in high grade adult astrocytomas occurring in either the p53/MDM2/p14ARF or Rb/CDK4/p16INK4a tumor suppressor pathways. In addition, we have assessed the contribution of EGFR overexpression and amplification and LOH for chromosome 10, two genetic alterations commonly associated with the development of de novo adult glioblastoma for their roles in the development of de novo astrocytomas of childhood. Our results suggest two major differences in the genetic pathway(s) leading to the formation of de novo high grade astrocytomas in children compared with those of the adult. Our findings show preferential inactivation of the p53 tumor suppressor pathway in > 95% of pediatric astrocytomas versus inactivation of the Rb tumor suppressor pathway in < 25% of the same tumors. In addition, de novo high grade pediatric astrocytomas lack amplification of the EGFR gene compared with EGFR amplification in one‐third of adult glioblastomas. Since drug treatments and gene therapy strategies exploit specific genetic alterations in tumor cells, our findings have important implications for the future development of treatments for high grade pediatric astrocytomas.

Improved long term survival after intracavitary interleukin‐2 and lymphokine‐activated killer cells for adults with recurrent malignant glioma

Background. The median survival for adults with glioblastoma multiforme (GBM) is 12 months, despite surgery, radiation, and chemotherapy. Regimens using interleukin‐2(IL‐2) plus lymphokine‐activated killer (LAK) cells have been beneficial against systemic cancers, albeit with significant toxicity.

Prognostic relevance of epidermal growth factor receptor (EGF-R) and c-neu/erbB2 expression in glioblastomas (GBMs)

SummarySeventeen untreated primary adult glioblastomas were analyzed using immunocytochemistry for the expression of EGF-R, c-neu/erbB2, TGF-α, and phosphotyrosine. Patients were divided by median survival into long-term or short-term survivors (LTS, N=10, median > 4 years; versus STS, N=7, median 61 weeks). There were no significant differences between the two groups in terms of age, extent of resection, post-operative Karnofsky status, or treatment. Diagnostic sections from each tumor were stained with antibodies to EGF-R, c-neu/erbB2, TGF-α and phosphotyrosine. Double-labelling for TGF-α and EGF-R was also performed. All 10/10 LTS were considered to be EGF-R negative/scant, while 4/7 STS were EGF-R positive. EGF-R negativity significantly correlated with long-term survival. The differences in c-neu/erbB2 expression did not reach significance. However, 4/7 STS were positive for both proteins and 76% of the 17 cases were either double negative or positive for EGF-R and c-neu/erbB2. TGF-α and phosphotyrosine were frequently expressed, but neither were prognostic. Recurrent tumors were studied in 7 STS. EGF-R expression was increased in 4/7 of these cases and c-neu/erbB2 was increased in all 7 cases, compared to the pretreatment baselines. Increased expression of these proteins in glioblastomas may be associated with aggressive clinical behavior and treatment resistance.

Adoptive cellular immunotherapy for the treatment of malignant gliomas.

UNLABELLED The median survival for adults with recurrent primary malignant gliomas is 56 weeks following surgery, radiation, and chemotherapy. Generally, reoperation can extend the median survival an additional 26-32 weeks. We have developed an aggressive treatment program that utilizes low doses of interleukin-2 (IL-2) combined with ex vivo activated killer cells (LAK) infused via an indwelling catheter placed into the surgical resection cavity. Autologous leukocytes were collected during a standard 3-4 h, outpatient leukapheresis procedure, then activated ex vivo for 4-5 days with high doses of IL-2. The treatment protocol consisted of two 2-week cycles of therapy over a 6-week period. Patients with stable disease or objective response on follow-up MRI scans were retreated at 3-month intervals. Acute and cumulative IL-2-related toxicities were observed, but limited, and included fever, headache and transient neurologic irritation. Corticosteroid levels and usage were strictly controlled during immunotherapy, although higher doses were used intermittently to mitigate toxicity. Biologic changes included lymphocytic infiltration, regional eosinophilia, tumor necrosis, and the localized production of IL-2, IFN-gamma and IL-12, demonstrated by in situ hybridization and immunohistochemistry. SUMMARY IL-2 plus autogeneic LAK cells can be safely administered intracavitary to treat high grade primary brain tumors with limited toxicity within the central nervous system. Six out of 28 patients had long-term survival of greater than 2 years post-reoperation plus immunotherapy with 2 patients alive over 8 years. The presence of a marked regional eosinophilia appeared to correlate with increased survival and may be predictive of a biologic and therapeutic response. Regional adoptive immune therapy was well tolerated and should be considered an option for patients with high-grade tumors refractive to standard therapeutic approaches.

bcl-2 protein expression in astrocytomas in relation to patient survival and p53 gene status.

Abstract bcl-2 protein expression was characterized in a series of 58 astrocytomas from 21 pediatric and 37 adult patients. As part of a continuing attempt to define relevant prognostic factors which may predict clinical outcome, we have determined the impact of bcl-2 accumulation in malignant astrocytes on the length of patient survival. Aberrant overexpression of bcl-2 protein in tumor cells was detected in 57% (12 of 21) of pediatric and 73% (27 of 37) of the adult cases. Among pediatric patients, the median survival in months showed no relationship with the incidence of bcl-2-positive tumors. Among the adult patients, a favorable prognostic indicator was low-tumor grade (P = 0.05). bcl-2-positive tumors occurred with similar frequencies in WHO grades III and IV of malignancy. When bcl-2 expression in tumor cells was tested as a variable to predict for patient survival, the 6 patients without bcl-2 expression among 23 adult patients with grade IV tumors had a shorter median survival. The same 58 tumors had been previously analyzed for alterations of p53: 4 pediatric and 16 adult tumors had p53 gene mutations. There was no significant difference in median survival related to p53 gene status. There was no relationship between bcl-2 expression and p53 gene status: approximately equal numbers of tumors with either wild-type or mutant p53 were bcl-2 negative or bcl-2 positive. bcl-2 expression is high (40–100%) among other tumors of the central nervous system which also show low malignant potential. Up-regulation of bcl-2 in malignant astrocytes or constitutive expression in some tumor types may be a factor leading to a more favorable clinical outcome.

Treatment of refractory recurrent malignant glioma with adoptive cellular immunotherapy: a case report

We report the successful treatment of a patient with recurrent malignant glioma with adoptive cellular immunotherapy. The patient is a young adult with recurrent progressive disease refractory to aggressive multi-modality therapy including repetitive surgical resection, radiation, radiosurgery and chemotherapy. He received multiple courses of local administration of autologous lymphokine-activated killer (LAK) cells in combination with a low dose of interleukin-2 (IL-2) through an Ommaya reservoir-catheter system. The side-effects of this treatment were limited and manageable. The patient achieved a complete remission, as demonstrated by MRI and confirmed by glucose-positron emission tomography (PET) imaging 11 months after initiation of immune therapy. Twenty-six months later, the patient is still in remission with improving performance status. Adoptive cellular immunotherapy utilizing autologous LAK cells with low dose IL-2 appears to be a safe and effective therapy for a subset of patients with primary, recurrent or progressive malignant glioma following conventional therapy.

Phase IB study of low-dose intraperitoneal recombinant interleukin-2 in patients with refractory advanced ovarian cancer: rationale and preliminary report.

Abstract The biological activity of recombinant Interleukin-2 (rIL-2) administered intraperitoneally (ip) has not been determined and may differ significantly from the maximum tolerated dose (MTD). In this trial, the pharmacokinetics, toxicity, and biologic activity of a single ip dose were studied initially followed a week later by a 5-day ip rIL-2 given for 2 weeks every 28 days. Planned dose escalation was from 2 × 10 3 to 2 × 10 7 U given in 2 liters of D5W. Drug was obtained from the NCI and was administered through an ip port. Four patients received 1 U/ml and four patients received 10 U/ml. Preliminary data demonstrate an increase in the peritoneal fluid mononuclear cell count. Mononuclear cell phenotyping tested in the first eight patients showed a modest increase in Leu 2a +, Leu 15- cells, corresponding to CTL. A similar increase in Leu 19+ cells was also demonstrated (NK cells). Soluble IL-2 receptor was elevated in peritoneal fluid. Cytotoxicity against K562 and Daudi cell lines was not observed at the first two dose levels. Toxicity of treatment was minimal and related to abdominal distention. No objective responses were seen but in one patient we documented a reduction in serum CA-125 levels. The observed biologic response and lack of toxicity is promising and justifies further exploration of this immune-modulating approach.

Cytokines Involved in the Generation of Cytolytic Effector T Lymphocytes

The differentiation of precursor, antigen-competent, T cells into effective helper and/or cytolytic cells involves a number of different steps that are signaled by soluble molecules termed cytokines. We demonstrate here that subsets of T cells, distinguished on the basis of their expression of cell-surface markers, CD4 and CD8, receive distinct signals for differentiation. The precursor T cells of a T-cell subset that is MHC class II-restricted are readily activated by signals provided by rIL-1, rIL-2, rIL-3, or IFN-gamma. The precursor T cells of the MHC class I-restricted T-cell subset, on the other hand, are not readily activated by signals provided by rIL-1, rIL-3, or IFN-gamma. Recombinant IL-2 apparently functions in a nonrestricted manner, in that it can provide growth signals to both MHC class I- and class II-restricted T cells.

A rapid method to identify cytotoxic T-lymphocyte peptide epitopes from HLA-A2 (+) donors.

It would be useful to develop a method to rapidly identify peptide epitopes for vaccine development. We present an algorithm that can predict sequences that have a high binding activity for HLA-A2. These sequences were able to induce specific cytolytic cells from human peripheral blood lymphocytes (PBMC). A computer-assisted algorithm was constructed to predict binding activity for HLA-A2, according to anchoring amino acid combinations. The human papillomavirus (HPV) type 18 E7 oncoprotein was used to test the algorithm. Peptides predicted to bind were synthesized and binding activity was determined by using the T2 cell assay. T2 cells pulsed with HPV-18 peptides were incubated with PBMC. Cytotoxicity assays were performed. From 110 possible sequences, four peptides were found to have a high binding activity. One of these peptides was able to induce significant lysis. Using this selection process only 3.6% of the total number of possible sequences was synthesized to identify an immunogenic peptide. Our algorithm with the T2 binding assay allows a rapid method to detect peptide epitopes.