Tiffany Juarez

Prostate specific membrane antigen (PSMA) expression in primary gliomas and breast cancer brain metastases

BackgroundPrimary and secondary brain cancers are highly treatment resistant, and their marked angiogenesis attracts interest as a potential therapeutic target. Recent observations reveal that the microvascular endothelium of primary high-grade gliomas expresses prostate specific membrane antigen (PSMA). Breast cancers express PSMA and they frequently form secondary brain tumors. Hence we report here our pilot study addressing the feasibility of PSMA targeting in brain and metastatic breast tumors, by examining PSMA levels in all glioma grades (19 patients) and in breast cancer brain metastases (5 patients).MethodsTumor specimens were acquired from archival material and normal brain tissues from autopsies. Tissue were stained and probed for PSMA, and the expression levels imaged and quantified using automated hardware and software. PSMA staining intensities of glioma subtypes, breast tumors, and breast tumor brain metastases were compared statistically versus normals.ResultsNormal brain microvessels (4 autopsies) did not stain for PSMA, while a small proportion (<5%) of healthy neurons stained, and were surrounded by an intact blood brain barrier. Tumor microvessels of the highly angiogenic grade IV gliomas showed intense PSMA staining which varied between patients and was significantly higher (p < 0.05) than normal brain. Grade I gliomas showed moderate vessel staining, while grade II and III gliomas had no vessel staining, but a few (<2%) of the tumor cells stained. Both primary breast cancer tissues and the associated brain metastases exhibited vascular PSMA staining, although the intensity of staining was generally less for the metastatic lesions.ConclusionsOur results align with and extend previous data showing PSMA expression in blood vessels of gliomas and breast cancer brain metastases. These results provide a rationale for more comprehensive studies to explore PSMA targeted agents for treating secondary brain tumors with PSMA expressing vasculature. Moreover, given that PSMA participates in angiogenesis, cell signaling, tumor survival, and invasion, characterizing its expression may help guide later investigations of the poorly understood process of low grade glioma progression to glioblastoma.

Multi-platform molecular profiling of a large cohort of glioblastomas reveals potential therapeutic strategies.

Glioblastomas (GBM) are the most aggressive and prevalent form of gliomas with abysmal prognosis and limited treatment options. We analyzed clinically relevant molecular aberrations suggestive of response to therapies in 1035 GBM tumors. Our analysis revealed mutations in 39 genes of 48 tested. IHC revealed expression of PD-L1 in 19% and PD-1 in 46%. MGMT-methylation was seen in 43%, EGFRvIII in 19% and 1p19q co-deletion in 2%. TP53 mutation was associated with concurrent mutations, while IDH1 mutation was associated with MGMT-methylation and TP53 mutation and was mutually exclusive of EGFRvIII mutation. Distinct biomarker profiles were seen in GBM compared with WHO grade III astrocytoma, suggesting different biology and potentially different treatment approaches. Analysis of 17 metachronous paired tumors showed frequent biomarker changes, including MGMT-methylation and EGFR aberrations, indicating the need for a re-biopsy for tumor profiling to direct subsequent therapy. MGMT-methylation, PR and TOPO1 appeared as significant prognostic markers in sub-cohorts of GBM defined by age. The current study represents the largest biomarker study on clinical GBM tumors using multiple technologies to detect gene mutation, amplification, protein expression and promoter methylation. These data will inform planning for future personalized biomarker-based clinical trials and identifying effective treatments based on tumor biomarkers.

Hyaluronan expression in primary and secondary brain tumors

BACKGROUND Collectively, primary and secondary brain tumors represent a major public health challenge. Glioblastoma (GBM) is the most common primary brain tumor in adults and is associated with a dismal 5-year survival of only 10%. Breast cancer causes secondary tumors; it occurs in 200,000 patients yearly and 30% of these individuals develop brain metastases which also lead to a very poor prognosis. GBM and primary breast tumors are known to express hyaluronan (HA) which may serve as a therapeutic target. METHODS For the present study we had two aims: (I) to identify suitable preclinical models for HA in GBM by examining HA expression in human GBM cell lines implanted orthotopically in mice; and (II) to determine whether breast cancer brain metastases in human patients express HA similar to the primary tumor. Forty human surgical samples of primary breast tumors and breast cancer brain metastases were processed and stained for HA. Athymic nu/nu mice were orthotopically implanted with one of 15 GBM lines and after tumors were established, quantitative immunohistochemistry determined whether. RESULTS HA was expressed. All GBM cell lines and patient-derived orthotopic tumors did express HA, with 3 primary human lines expressing the highest staining intensity, above that of normal brain. All 40 human primary breast tumors and brain metastases examined also contained HA, though staining intensity was highly variable. CONCLUSIONS Our data support the use of specific patient-derived GBM cell lines in nu/nu mice for preclinical studies on HA-targeting therapies. Additionally, our research provides a basis for the assessment of HA expression and HA-targeting therapeutic agents for the treatment of breast cancer brain metastases.

Pritumumab, the first therapeutic antibody for glioma patients

Immunotherapy is now at the forefront of cancer therapeutic development. Gliomas are a particularly aggressive form of brain cancer for which immunotherapy may hold promise. Pritumumab (also known in the literature as CLNH11, CLN-IgG, and ACA-11) was the first monoclonal antibody tested in cancer patients. Pritumumab is a natural human monoclonal antibody developed from a B lymphocyte isolated from a regional draining lymph node of a patient with cervical carcinoma. The antibody binds ecto-domain vimentin on the surface of cancer cells. Pritumumab was originally tested in clinical trials with brain cancer patients in Japan where it demonstrated therapeutic benefit. It was reported to be a safe and effective therapy for brain cancer patients at doses 5-10 fold less than currently approved antibodies. Phase I dose escalation clinical trials are now being planned with pritumumab for the near future. Here we review data on the development and characterization of pritumumab, and review clinical trails data assessing immunotherapeutic effects of pritumumab for glioma patients.

Abstract 4652: Cerebrospinal fluid pharmacokinetics and pharmacodynamics following high-dose erlotinib treatment in brain cancer patients

Patients with non-small cell lung cancer (NSCLC) who develop leptomeningeal metastases show significant clinical improvement following high-dose gefitinib therapy. Based on this data, we aimed to explore the effect of high-dose erlotinib on clinical response and CNS penetration in primary or metastatic CNS cancer. We selected patients who had received prior therapy for either primary glioma or for NSCLC with metastases to the brain and treated them with an alternate dosing regimen of erlotinib. Blood and cerebrospinal fluid (CSF) samples were collected at various time points to assess levels of erlotinib. We found that CSF concentrations of erlotinib were generally 2% that of plasma concentrations. Among the five patients examined, CSF concentrations of erlotinib reached up to 131 nM when high doses were administered at 600 to 1200 mg every four to six days. Additionally, drug clearance was decreased with an increased dosing regimen in one of the patients. In one patient, the area under the curve (AUC) estimations showed a 24% increase in the CSF versus only a 2% increase in the plasma following an increase from 150 mg to 600 mg of erlotinib. Moreover, longitudinal CSF samples were evaluated for expression and activation of EGFR as well as various other receptor tyrosine kinases, such as ErbB2, ErbB3, cMET and IGF1R, using the highly sensitive multiplexed immunoassay CEER© platform. The latter provides insight into the molecular makeup of the CNS cancer throughout the therapeutic regimen. Our clinical data on patients receiving erlotinib therapy for primary and metastatic CNS disease suggests that increased dosing of erlotinib, administered as a pulse dose every four to six days leads to increased CSF drug concentrations. In spite of the variations seen among different patients, we conclude that higher erlotinib dosing regimens can provide enhanced CNS penetration that may prove to be more effective in primary and metastatic CNS cancers especially when coupled with real-time molecular monitoring of the disease to help guide the clinician during the course of treatment. Citation Format: Sandra Pastorino, Sandeep C. Pingle, Emma Langley, Phillip Kim, Tiffany Juarez, Pengfei Jiang, Christopher Tucker, Txheng Yang, Marlon Saria, Sharat Singh, Santosh Kesari. Cerebrospinal fluid pharmacokinetics and pharmacodynamics following high-dose erlotinib treatment in brain cancer patients. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4652. doi:10.1158/1538-7445.AM2014-4652