Scientists from the Center for Applied Medical Research (CIMA) of the University of Navarra (Spain) have discovered that cardiotrophin 1, a protein synthesized by muscle cells and adipose tissue, has a marked effect on fat and glucose metabolism. "These new findings add to those we already know on this compound such the anti-ischemic and cytoprotective effects showed in acute liver damage and solid organ transplants gives CT-1 great possibilities to be developed in various serious conditions", commented Pablo Ortiz, CEO of Digna Biotech.
The study was published in the August issue of Cell Metabolism, most prestigious journal in Metabolism and further details were described in the 25th August of SciBX, the Biocentury/Nature publication. The researchers found that the administration of cardiotrophin 1 accelerates the elimination of fat from the adipose tissue and increases the rate at which fat is burnt in muscles. Treatment of obese and diabetic mice with cardiotrophin 1 increases energy expenditure, reduces food intake and corrects obesity and diabetes. Investigators noticed that, in addition to its effects on fat metabolism, cardiotrophin 1 promotes the entrance of glucose into the cells and increases the sensitivity to insulin. The investigation has been led by M. Bustos, J. Prieto and MJ Moreno-Aliaga at CIMA.
Cardiotrophin 1 is co-developed for its use in organ transplantation and tissue regeneration by Digna Biotech and Biotecnol (The Consortium). Both of the companies signed an Exclusive License and Option Agreement with Genentech, Inc (a fully owned subsidiary of the Roche group) on September 2009. Pablo Ortiz remarked: "Cardiotrophin 1 showed a very interesting effect on fat metabolism which deserves to be explored in a clinical setting. We are ready to recruit healthy volunteers in the Phase I trial before the end of the year. Phase II in liver resection is scheduled for the second quarter of 2012. We are also confident that these new applications and the progress on the clinical development will allow us to forge partnerships with other biopharmaceutical companies to reach the patients as soon as possible". According to Pedro de Noronha Pissarra, CEO of Biotecnol: "expanding the use of such a promising molecule to other fields of use, where unmet needs exist, will build additional value to the current work. Its clear from the current findings on the mechanism of action of Cardiotrophin 1 in fat metabolism, that clinical work should be pursued and potentially new partnerships in order to expand such work can now be equated".
Pre-clinicial and clinical development of cardiotrophin 1 was funded by private and public Spanish entities: ClaveSuan, the Center for Industrial and Technological Development (CDTI), and the Government of Navarra. Only in liver resection and transplantation, cardiotrophin 1 may generate revenues of 350 millions of euros per year.
About Cardiotrophin 1 (CT-1)
Cardiotrophin 1 is a member of the interleukin-6 cytokine family. Recently, investigators from the Centre for Applied Medical Research (CIMA) have discovered that this protein is able to stimulate hepatic regeneration as well as to protect hepatocytes during clinical situations of acute hepatic damage. This means that CT-1 may be beneficial for those patients who undergo liver transplantation or extensive hepatic resection. The use of CT-1 in liver transplantation has already been granted Orphan Drug Status by both the FDA and the EMEA. In addition, cardiotrophin 1 has recently been shown to prevent graft injury and inflammatory response and prolong survival in animal kidney transplant model, and acute liver failure.
About Digna Biotech
Digna Biotech, a biotechnological company, is a spin-off of the University of Navarra (Pamplona, Spain) and is funded by a group of investors representing some of Spain's major corporations and financial institutions. It is committed to develop new drugs based on the IP generated by the Center for Applied Medical Research (CIMA) and to forge partnerships with pharmaceutical industry to ensure complete clinical development and commercial launch. Its extensive pipeline reflects the four major avenues of research pursued by CIMA: Cardiovascular, Gene Therapy, Hepatology and Oncology. Inspired by similar university-industry collaboration projects in USA, Digna Biotech presents a pioneering business model in Spain.. In cooperation with CIMA, CIFA (Center For Applied Pharmacobiology Research), a number of Schools of the University of Navarra (especially the School of Pharmacy and its Galenic Department), and the Clínica Universidad de Navarra, Digna Biotech is carrying out a range of activities to ensure the clinical trial development of the products. As a direct result of the company's commitment to translational research and focus on delivering meaningful health outcomes, and thanks to the effort made by the staff of Digna Biotech and CIMA, three products are now in the clinical phase. The company plans to enter a new product every year in clinical trials to reach the patient with innovative products for unmet medical needs. More information. www.dignabiotech.com and www.cima.es
About Biotecnol
Biotecnol is a biotechnology company developing biopharmaceutical products, and has a special focus on the development of novel antibody-based therapeutics to treat life-threatening diseases such as cancer. Biotecnol has a proprietary antibody format, which allows to develop multi-specific antibodies against various cancer targets. These formats are called Tribodies™. Biotecnol is committed in building value by developing a diverse pipeline of antibody products to address unmet healthcare needs. Through its facilities in Portugal, Biotecnol leverages its business income by establishing in-house partner-led or collaborative programmes, which provide Biotecnol a strong client-based activity and an established track record. Biotecnol uses its proprietary expression technology, cell line development capabilities, upstream and downstream processing, analytics and QC experience for delivering therapeutic recombinant protein product and processes to support all stages of product development through early research and preclinical activities to GMP/GLP compliant processes for biomanufacturing of clinical and ultimately commercial products. More Information: www.biotecnol.com
Journal
Cell Metabolism