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Gene-expression-based Biomarker Predicts Long-term Risk of Breast Cancer Recurrence

A comparison of three methods of predicting the risk of recurrence in women treated for estrogen-receptor (ER)-positive breast cancer finds that only the breast cancer index (BCI) – a biomarker based on the expression levels of seven tumor-specific genes – accurately identifies patients who continue to be at risk after five years of treatment with either tamoxifen or the aromatase inhibitor anastrozole. The study comparing the BCI with two other prognostic tests has been published online in Lancet Oncology.

Ganymed Pharmaceuticals Announces CE Marking for Test to Assess Claudin-18.2 Expression in Solid Tumors

Ganymed Pharmaceuticals announced today that it has fully developed and obtained CE marking for its in vitro diagnostic (IVD) test CLAUDETECTTM18.2 which allows to assess the expression levels of Claudin-18.2 (CLDN18.2) in solid tumors. CLAUDETECTTM18.2, which was developed in collaboration with Theracode GmbH, is now compliant with the requirements of European Community Directive 98/79/EC on in vitro diagnostic medical devices.

Nuclea Bio Acquires Oncogene Science, Extends Deal with Wilex

Just a few months after announcing several new partnerships and landing venture capital dollars, Nuclea Biotechnologies Inc. has snapped up Oncogene Science, an Cambridge, Mass.-based subsidiary of Wilex AG in Germany.

The Ongoing Collaboration Aims to Exploit the High Throughput, Robustness and Ease of Use of MALDI-TOF Instruments

At the 12th HUPO World Congress, Bruker Corporation (NASDAQ: BRKR) recently announced the start of a second-phase collaboration agreement with SISCAPA Assays Technologies, Inc. (SAT). The ongoing collaboration aims to exploit the high throughput, robustness and ease of use of MALDI-TOF instruments as an alternative to nano-LC-MS technology currently used in many SISCAPA assays.

Broad Institute and Bayer Join Forces to Develop Novel Treatment Options in Cancer Therapy

The Broad Institute has entered into a strategic alliance with Bayer Healthcare in the area of oncogenomics and drug discovery. The goal of this collaboration is to jointly discover and develop therapeutic agents that selectively target cancer genome alterations over a period of five years.

“We look forward to working together with our Bayer colleagues to translate scientific discoveries into novel cancer therapeutics,” said Professor Eric Lander, President and Director of Broad Institute. “The Broad’s deep expertise and knowledge in cancer genomics, chemical biology and drug discovery perfectly complement Bayer’s decades of experience in pharmaceutical development. We are thrilled to be working with Bayer in such a visionary collaboration.”

Oncogenomics is a promising field of oncology research that identifies and characterizes genes which are associated with cancer. Cancer is caused by the accumulation of DNA mutations which lead to uncontrolled cell proliferation and tumor formation. The goal of oncogenomics research is to identify new genes which, when mutated, stimulate or lose the ability to suppress tumor cell growth. These genes may provide new insights into cancer diagnosis, prediction of clinical outcomes, and new targets for cancer therapies. Targeting individual patient tumor mutations will allow for the development of more personalized cancer treatments.

“We are excited to collaborate with such a prestigious research institute as the Broad Institute which brings together researchers from Harvard, MIT, and the Harvard hospitals,” said Professor Andreas Busch, Head of Global Drug Discovery and Member of the Executive Committee of Bayer HealthCare. “The Broad Institute’s scientists have created impressive systematic catalogues of mutational changes across different types of tumors, laying a foundation for the development of new cancer therapies and diagnostics. The alliance is another significant step underlining our engagement in the field of oncology and personalized medicine.”

As part of the collaboration, the Broad Institute will share its oncogenomic expertise. Both parties will explore their compound libraries and use their screening platforms as well as medicinal chemistry expertise to benefit joint projects. The collaboration will be based on joint decision-making and the rights to the research findings are shared equally between the partners. Joint research and joint steering committees will be established for the initiation and selection of projects, and as governance structures. Bayer will have an option for an exclusive license for therapeutic agents at preclinical development stage. Financial terms of the agreement were not disclosed.

Source: Broad Institute