Gamma-secretase inhibitors could play an important role in augmenting the effectiveness of temozolomide chemotherapy for glioblastoma multiforme if the results obtained in recent in vitro, ex vivo, and in vivo experiments are supported in future studies.
Although temozolomide (TMZ) has increased the 2-year survival rate of patients with glioblastoma multiforme (GBM) when it is used in combination with surgical resection and radiotherapy, some cells still escape treatment in most patients and contribute to local tumor recurrence. Gamma-secretase inhibitors (GSIs) are an attractive therapeutic option because they have been found in previous studies to stop both glioblastoma cell growth and the formation of glioblastoma neurospheres by blocking the Notch signaling pathway, which is commonly overexpressed in glioblastoma cells, wrote Candace A. Gilbert and her colleagues at the University of Massachusetts, Worcester (Cancer Res. 2010 Aug. 10 [doi:10.1158/0008-5472.CAN-10-1378]).
Before Ms. Gilbert and her associates tested the combination of TMZ and a GSI in vivo, they tested TMZ alone, a GSI alone, and both together on neurosphere cultures derived from patients' GBMs. Although GSI treatment alone decreased Notch pathway signaling and reduced neurosphere formation, it could not stop the proliferation of GBM cells and the formation of secondary neurospheres. And although treatment with TMZ alone and combined treatment with TMZ and a GSI yielded similar decreases in initial neurosphere formation, cultures treated with the combination recovered to a smaller size, and there were fewer of them than was the case for those treated with TMZ alone. When these neurosphere cultures were dissociated to single cells and replated, the cells that underwent combination treatment formed far fewer secondary neurospheres than did those treated with only TMZ. Treatment with both drugs also led to significantly fewer cells in each neurosphere that were capable of self-renewal.
Further in vitro experiments of the combination of drugs showed that a single dose of a GSI could reduce neurosphere recovery and the formation of secondary neurospheres only when the GSI was administered 24 hours after TMZ, in comparison with TMZ alone.
When the tumor cells were treated and then injected subcutaneously into immunocompromised mice, the researchers observed palpable tumor growth in very few mice that received cells treated with TMZ and a GSI (tumor latencies, 43-96 days), compared with tumor growth in all mice that received cells treated with a GSI alone (latencies, 3-16 days) and growth in nearly all mice that received cells treated with TMZ alone (latencies, 25-43 days).
In another group of immunocompromised mice, tumor cells that were injected subcutaneously were allowed to grow to 150 mm
All tumor masses progressed (doubled in size) in mice that received only TMZ.
“Because Notch activity is associated with GBM stem cell function and survival, and the cells that survive TMZ-only treatment are capable of self-renewal and tumor initiation, it is probable that the cells targeted by TMZ plus GSI treatment possess a cancer stem cell phenotype,” the researchers wrote.
They suggested that the variability of response to combined treatment in the in vivo studies could have been due to a TMZ concentration that was not “high enough to induce a cell cycle arrest in all the cells capable of recovery, which could hinder GSI enhancement,” or a “slight variability” in food consumption.
The need for only a single dose of a GSI to enhance TMZ therapy is beneficial, the researchers noted, because GSIs can cause cytotoxicity in the gastrointestinal tract. They found no change in the weight of the mice during combined treatment.
“These studies suggest a role for TMZ plus GSI therapy to reduce recurrences in patients with low tumor burden after surgical resection of the bulk tumor,” wrote the investigators, who acknowledged that they ultimately need to include radiation in their treatment schedule to see how it contributes to combination therapy with TMZ and GSIs.
The National Institutes of Health and the CVIP Technology Development Fund funded the research. The investigators had no conflicts of interest to disclose.
Research report by Managing Editor, Jeff Evans.
Adviser's Viewpoint
A Springboard to Future Treatments
Since 2005, the treatment standard for GBM has been concomitant TMZ with radiotherapy followed by adjuvant TMZ. This treatment showed slightly increased overall survival, compared with radiotherapy alone. However, the most striking finding in support of this treatment was the 2-year survival rate of 26.5%, which was higher than any prior treatment regimen had shown. The time to progression on the aforementioned regimen is about 6 months, which points to the refractory and aggressive nature of this tumor. Despite the progress made with up-front therapy, researchers in the field continue to struggle with how to prevent tumor recurrence, and we remain limited in our treatment options for recurrent disease.