For more information on our recent data notice, please click here


UC San Diego-Human Longevity Inc. Agreement Seeks to Accelerate Medical Science

Thousands of patient genomes expected to fuel diverse medical research, beginning with cancer

March 04, 2014  |  

The new collaborative research agreement between Human Longevity Inc. (HLI) and the University of California, San Diego, announced today, represents a significant and necessary step in efforts to research and translate the potential of the human genome into novel and real treatments and therapies able to change and improve the human condition.

“This agreement brings together the resources of two entities that, in combination, may ultimately help improve countless lives,” said David A. Brenner, MD, vice chancellor of health sciences at UC San Diego and dean of the UC San Diego School of Medicine. “HLI aims to bring leading-edge thinking in genomics technologies. UC San Diego boasts some of the world’s finest researchers and physicians working at places like the Moores Cancer Center. Together, we will collaborate to marshal the people, the tools and the resources to really make a difference in human health.”

HLI’s goal is to initially sequence up to 40,000 human genomes per year, rising to 100,000 genomes annually.  The data generated by HLI will be used to investigate and develop treatments for a wide array of diseases, from diabetes and obesity to conditions of the heart and liver, plus ailments related to aging and biological decline.

The initial focus of the effort at UC San Diego will be cancer.  UC San Diego Moores Cancer Center (MCC) will work with HLI to develop protocols and procedures to conduct comprehensive genomic sequencing of consenting MCC patients.  The resulting sequence data will be analyzed by UC San Diego scientists implementing both experimental and computational approaches.

“This is ground-breaking research,” said Scott Lippman, MD, director of MCC and the agreement’s principal investigator. “The therapeutic promise of genomics is far-reaching. Gathering the genomic data is the first step of the research process. Cancer is a target-rich environment and current pace at which genomics discoveries are moving from the lab to the clinic is unprecedented. Being able to sequence at this scale, with this depth of detail and complexity, will accelerate discovery and make it easier to translate these findings to benefit our patients.”

Razelle Kurzrock, MD, who will serve as co-principal investigator and is senior deputy director for clinical science at MCC, emphasized that this partnership provides an unparalleled opportunity to understand the immense complexity of cancers.  “While the work is completely within the research realm right now, this visionary initiative is anticipated to rapidly yield transformative discoveries in the cancer field.”
UC San Diego Moores Cancer Center
UC San Diego Moores Cancer Center is home to more than 350 medical and radiation oncologists, cancer surgeons, and researchers. It is one of only 41 National Cancer Institute-designated comprehensive cancer centers in the country, a rare honor distinguishing exceptionally high achievement in research, clinical care, education and community outreach and partnerships. For more information, visit

# # #

Media contact: Scott LaFee, 619-54306163,

Related Specialties


Media Contact

Share This Article

Related News

David Cheresh, Distinguished Professor at University of California San Diego School of Medicine, received $4.2 million National Cancer Institute Outstanding Investigator Award to continue his research ...
University of California San Diego School of Medicine researchers engineered sensors to detect and measure the metastatic potential of single cancer cells. Metastasis is attributed as the leading caus ...
The All of Us Research Program officially opens for enrollment Sunday, May 6. Led by the National Institutes of Health (NIH), All of Us is an unprecedented effort to gather genetic, biological, enviro ...
Genetic mutations that cause cancer also weaken cancer cells, allowing researchers to develop drugs that will selectively kill them. This is called “synthetic lethality” because the drug is only letha ...

Follow Us