Phase I clinical trial of ICT-107

Immune response correlation with progression-free survival in glioblastoma following dendritic cell immunotherapy (ICT-107) by Surasak Phuphanich and 9 co-authors, including Manish Singh, Keith Black and John Wu, J Clin Oncol 28:7s, 2010 (suppl; abstr 2097). To be presented at the 2010 ASCO Annual Meeting, June 06, 2010.

Related news releases:

ImmunoCellular Therapeutics Ltd. (IMUC) to Present Cancer Vaccine Candidate, International Business Times, June 02, 2010. Excerpt:

Data from the company’s recent clinical trial of ICT-107, the company’s dendritic cell-based cancer vaccine candidate, will be presented at the 46th Annual Meeting of the American Society of Clinical Oncology (ASCO) June 4-8 in Chicago.

See also: Immunocellular brain cancer vaccine shows promise, Reuters, June 02, 2010. Excerpt:

"We are targeting specific antigens that are on cancer stem cells ... the only population of cells that can really propagate a tumor," said Dr. John Yu, director of surgical neuro-oncology at Cedars-Sinai Medical Center in Los Angeles and ImmunoCellular's chief scientific officer.

Another related news release: Immunocellular Therapeutics Enters into Research Agreement with University of Pennsylvania to Support Phase II Clinical Trial of ICT-107, Business Wire, April 21, 2010.

CSC suppress immune response against brain tumor

Cancer stem cells suppress immune response against brain tumor, News Release, The University of Texas M. D. Anderson Cancer Center, January 15, 2010.

About two publications, one in Clin Cancer Res 2010(Jan 15);16(2):461-73 and the other in Mol Cancer Ther 2010(Jan);9(1):67-78.

See also: Cancer stem cells suppress immune response against brain tumor, Science Blog, January 15, 2010, and, Mechanism that helps brain cancer evade immune system attack discovered, Science News, January 16, 2010.

CSC, brain cancer and the STAT3 gene

STAT3 Gene Regulates Cancer Stem Cells in Brain Cancer, News Release, Tufts University, August 10, 2009. First paragraph:

In a study published online in advance of print in Stem Cells, Tufts researchers report that the STAT3 gene regulates cancer stem cells in brain cancer. Cancer stem cells have many characteristics of stem cells and are thought to be the cells that drive tumor formation. The researchers report that STAT3 could become a target for cancer therapy, specifically in Glioblastoma multiforme (GBM), a type of malignant and aggressive brain tumor.

See also: [Newswise][Insciences][EurekAlert][Medical News Today].

These News Releases are about this article: STAT3 is required for proliferation and maintenance of multipotency in glioblastoma stem cells by Maureen M Sherry and 4 co-authors, including Brent H Cochran, Stem Cells 2009(Aug 5) [Epub ahead of print]. [PubMed Citation].

Support for Warburg theory of cancer

Cardiolipin and electron transport chain abnormalities in mouse brain tumor mitochondria: lipidomic evidence supporting the Warburg theory of cancer by Michael A Kiebish, Xianlin Han, Hua Cheng, Jeffrey H Chuang and Thomas N Seyfried, J Lipid Res 2008(Dec); 49(12): 2545-56 [Epub 2008 Aug 13][PubMed Citation]. News items:

Study results from Boston College, Department of Biology in the area of brain cancer cell biology published, Pharmacy Choice, December 29, 2008.

Don't Throw Off Warburg Theory of Cancer Just Yet, Medgadget, January 12, 2009. Excerpt:

Boston College biologists and colleagues at Washington University School of Medicine found new evidence to support Warburg's theory by examining mitochondrial lipids in a diverse group of mouse brain tumors, specifically a complex lipid known as cardiolipin (CL). They reported their findings in the December edition of the Journal of Lipid Research.

CD133 is a marker of bioenergetic stress in human glioma

CD133 is a marker of bioenergetic stress in human glioma by Corinne E Griguer and 6 co-authors, including G Yancey Gillespie, PLoS ONE 2008; 3(11): e3655. Epub 2008 Nov 5. PubMed Abstract:

Mitochondria dysfunction and hypoxic microenvironment are hallmarks of cancer cell biology. Recently, many studies have focused on isolation of brain cancer stem cells using CD133 expression. In this study, we investigated whether CD133 expression is regulated by bioenergetic stresses affecting mitochondrial functions in human glioma cells. First, we determined that hypoxia induced a reversible up-regulation of CD133 expression. Second, mitochondrial dysfunction through pharmacological inhibition of the Electron Transport Chain (ETC) produced an up-regulation of CD133 expression that was inversely correlated with changes in mitochondrial membrane potential. Third, generation of stable glioma cells depleted of mitochondrial DNA showed significant and stable increases in CD133 expression. These glioma cells, termed rho(0) or rho(0), are characterized by an exaggerated, uncoupled glycolytic phenotype and by constitutive and stable up-regulation of CD133 through many cell passages. Moreover, these rho(0) cells display the ability to form "tumor spheroids" in serumless medium and are positive for CD133 and the neural progenitor cell marker, nestin. Under differentiating conditions, rho(0) cells expressed multi-lineage properties. Reversibility of CD133 expression was demonstrated by transfering parental mitochondria to rho(0) cells resulting in stable trans-mitochondrial "cybrid" clones. This study provides a novel mechanistic insight about the regulation of CD133 by environmental conditions (hypoxia) and mitochondrial dysfunction (genetic and chemical). Considering these new findings, the concept that CD133 is a marker of brain tumor stem cells may need to be revised.

Excerpts from the Discussion section of the full text (openly accessible):

Figure 7. Tumor progression model

Last paragraph:

We described here that hypoxia and modification of the bioenergetic status of glioma cells govern the regulation of CD133 at post-transcriptional level. Data presented here strongly indicated that changes in the cellular environment that results in alteration of mitochondrial function are responsible for the enhanced up-regulation of CD133 antigen in glioma cells, suggesting that CD133 expression in human glioma cells is not obligatory relative to the stem cell phenotype but rather, reveals the occurrence of a stress response.

Two articles about brain tumor initiating cells

Hedgehog signaling regulates brain tumor initiating cell proliferation and portends shorter survival for patients with PTEN-coexpressing glioblastomas by Qijin Xu, Xiangpeng Yuan, Gentao Liu, Keith L Black, John S Yu, Stem Cells 2008(Sep 11) [Epub ahead of print][PubMed Citation].

SOX2 silencing in glioblastoma tumor initiating cells causes stop of proliferation and loss of tumorigenicity by Rosaria Maria Rita Gangemi and 9 co-authors, including Giorgio Corte, Stem Cells 2008(Oct 23) [Epub ahead of print][PubMed Citation].

Neither of these articles is openly accessible.