Caris Life Sciences announces collaboration with Genentech to discover novel therapeutic targets in cancers with high unmet clinical need

Caris Life Sciences announced that its therapeutic research arm, Caris Discovery, has entered into a multi-year collaboration and license agreement with Genentech, a member of the Roche Group. In this collaboration, Caris will work to identify and validate novel oncology targets in solid tumor tissue. Under the terms of the agreement, Caris is eligible to receive upfront and near-term payments of $25 million and is also eligible for up to $1.1 billion of potential research, development, commercial and net sales milestone payments, as well as potential tiered royalties on net sales of collaboration therapies.

“At Caris, we are committed to making precision medicine a reality for all patients. This innovative collaboration with Genentech is specifically designed to identify and validate novel targets in solid tumors. By combining Caris’ unparalleled multimodal data and tissue-based discovery engine with Genentech’s deep expertise in therapeutics development, we hope to enable the development of first-in-class medicines for cancer patients,” said Dr.  Milan Radovich, Senior Vice President and Chief Scientific Officer at Caris.

“Roche and Genentech are driven by a profound vision – a future where cancer can be cured,” said Boris L. Zaïtra, Head of Roche Corporate Business Development. “We have successfully led many fundamental scientific advances in oncology. As we continue to bring forth transformative medicines, collaborations with partners such as Caris allow us to pursue future innovation for patients with unmet needs.”

Caris is able to leverage insights from its extensive repository of nearly 500,000 solid tumor samples, along with matched comprehensive molecular and clinical data, to offer sophisticated and flexible target discovery capabilities leveraging both tissue-based and data-centric techniques to biopharma partners. Caris Discovery scientists use an integrated bioinformatics and wet-lab workflow, which combines interrogation of solid tissue and cell-based systems with multimodal data to validate prioritized targets and help advance the development of next generation therapies.