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GenSpera

GenSpera, Inc. ( OTC:QB GNSZ) is a development-stage pharmaceutical company based in San Antonio, Texas. The company is focused on therapeutics that deliver a cancer-destroying drug directly to the tumor or its supporting environment, the tumor vasculature.

The company's prodrug technology renders the drug inactive until it encounters the programmed target, thereby delivering the cytotoxin directly to the cancer or the vessels that support it, while potentially avoiding the side effects associated with current chemotherapies. A prodrug is an inactive precursor of a drug that is converted into its active form at a targeted site.

GenSpera's lead drug candidate, G-202, is currently in a Phase II clinical trial for patients with hepatocellular carcinoma (HCC) whose disease has failed to improve on standard therapy for this indication. G-202 is also being evaluated in a Phase II clinical trial in glioblastoma patients with recurrent disease after surgery and/or radiation treatment of the primary tumor. G-202 targets the enzyme PSMA, found on the walls of blood vessels that feed most cancerous tumors, destroying the tumor blood supply. In contrast with anti- angiogenic agents, G-202 destroys existing as well as new cancer blood vessels. G-202 received Orphan Drug Designation from U.S. Food and Drug Administration for the treatment of HCC, the most common form of primary liver cancer.

The company also holds patents on prodrug candidates that target the prostate-specific enzymes Prostate Specific Antigen (PSA) and Human Glandular Kallikrein (hK2). These candidates are expected to be useful in the treatment of prostate cancer.

The active ingredient in G-202 is a chemotherapeutic agent derived from thapsigargin, a plant-based cytotoxin that kills by disrupting the calcium balance in cancer cells. GenSpera's prodrug delivery system keeps the thapsigargin inactive in the body until it finds cells that it has been programmed to seek. Once those cells in the body are found, the prodrug releases its active ingredient and destroys all of the targeted cells.

The National Cancer Institute had previously demonstrated that thaspigargin was ten-to-a-hundredfold more potent than traditional chemotherapeutic agents in killing all types of cells. Thapsigargin kills cells irrespective of the rate of cell division, which may provide an effective approach to kill both fast- and slow-growing cancers as well as cancer stem cells.