A Medical Device Daily

MultiCell Technologies (Woonsocket, Rhode Island) has been granted U.S. patent 7,566,567 by the U.S. Patent and Trademark Office covering its Fa2N-4 and Ea1C-35 immortalized human hepatocyte cell lines.

The Fa2N-4 and Ea1C-35 immortalized human hepatocyte cell lines were derived from normal human liver cells, and are nontumorigenic, stable in culture, and produce therapeutic plasma proteins in cell culture. The Fa2N-4 cell line has also been engineered to function as a proxy for normal human liver cells for use in performing drug toxicity assays.

MultiCell has licensed several pharmaceutical companies rights to use the Fa2N-4 cell line for drug toxicity applications. MultiCell licensed Corning (Corning, New York) to sell the Fa2N-4 cell line and media within the drug discovery and life science research markets for drug toxicity (Tox) applications as well as for drug adsorption, distribution, metabolism and excretion (ADME) studies. MultiCell retained worldwide exclusive ownership of the Fa2N-4 and Ea1C-35 cell lines for all applications other than ADME/Tox, including drug target identification and using the cell lines for the production of therapeutic plasma proteins.

MultiCell also owns exclusive worldwide rights to two issued U.S. patents (6,872,389 and 6,129,911), one U.S. patent application (U.S. 2006/0019387A1), and several corresponding issued and pending foreign patents and patent applications related to the isolation and differentiation of human liver stem cells.

The role of liver stem cells in the carcinogenic process has recently led to a new hypothesis that hepatocellular carcinoma in humans arises by maturation arrest of liver stem cells. "MultiCell intends to use its human liver cell and liver stem cell assets to identify therapeutic targets and new drug candidates specifically targeting the treatment of primary liver cancer and intrahepatic bile duct cancer," said Jerry Newmin, chairman/CEO of MultiCell Technologies. "We believe our engineered human liver cell lines will play an important role as proxies for normal human liver cells in our effort to identify drug targets."