AACR Abstract #1841; Poster Presentation: 4/19 1-5 pm

NEW CANAAN, CT and SYDNEY, AUSTRALIA -- (Marketwire) -- 04/20/09 -- Data presented yesterday at the Annual Meeting of the American Association for Cancer Research in Denver has demonstrated that NV-128, a Novogen, Limited (ASX: NRT) (NASDAQ: NVGN) synthetic isoflavonoid compound, not only induces cell death in Ovarian Cancer Stem Cells (OCSCs), but also blocks their differentiation into structures which are required to support tumor growth.

In a poster presentation by Ayesha Alvero, M.D., of Yale University School of Medicine, Department of Obstetrics, Gynecology and Reproductive Science, it was revealed that in addition to an inhibitory effect on OCSC growth, NV-128 displays a remarkable ability to inhibit differentiation of OCSCs into formation of new blood vessels.

The anti-proliferative effects were demonstrated to be achieved as a result of NV-128 inhibiting phosphorylation of the pro-survival mTOR pathway resulting in mitochondrial depolarization and cell death. Time lapsed photographic morphometry revealed in graphic detail how NV-128 induces morphological changes in OCSCs after 24 hours, even when dosed as low as 1µg/ml with a progressive "clearing" of cytoplasm and condensation of nuclear material.

The effect of NV-128 on OCSC vessel formation was observed by plating OCSCs in high-density matrigel either without NV-128 (controls) or in the presence of 0.1 mg/ml NV-128 and observing for 48 hours. Whereas the control cultures showed differentiation of the stem cells into endothelial-type cells forming structurally intact blood vessels in the culture plates, cells cultured in the presence of NV-128 showed no differentiation and no structural elements were observed.

OCSCs represent a highly chemo-resistant cell population, allowing them to survive conventional chemotherapy. Thus these cells are considered to be the potential source of tumor induction and post-treatment recurrence.

The team from Yale University, headed by Professor Gil Mor, recently reported the identification and characterization of OCSCs using the CD44 marker and demonstrated pronounced up-regulation of the mTOR survival pathway in these cells. They previously reported that NV-128 is able to specifically induce mTOR dephosphorylation resulting in inhibition of both mTORC1 and mTORC2 activity in mature ovarian cancer cells derived from established human cancers and cultured in vitro.