|Send to printer »|
Corporate Profile : Nov 1, 2012 ( )
Tissue Expertise Begat Biospecimens CRO
Cureline’s Products Used to Create Diagnostic Tests and Also Detect Expression of Biomarkers!--h2>
Cureline, a human biospecimen CRO, specializes in providing human tissues for a variety of research projects. This niche company grew out of a tissue bank that Olga Potapova, Ph.D., set up to collect bone marrow from patients with particular hematological diseases when she worked at a biotech startup in South San Francisco, California.
When Pfizer bought that company, Dr. Potapova looked for a job at Genentech and other Bay Area biotechnology companies. Interviewers told her that her tissue banking skills were an unusual asset. Russian collaborators collected many of her tissue specimens, and biotech companies admired her ability to tap into that difficult resource. Rather than offer Dr. Potapova a new job, possible employers encouraged her to start a new business to supply them with tissues and related protocols.
Dr. Potapova started Cureline in 2003 to fill this gap. Genentech was her first customer, and a contract from Pfizer soon followed. “It was a very good start for a new company,” she says.
The company began as a management group that collected tissue specimens and shipped them directly to clients. They set up tissue repositories and grew into a biobank. About four years ago, they started working with diagnostic companies to find biomarkers to select patients for clinical trials. Over the years, “we evolved to become a biospecimen and diagnostic CRO,” says Dr. Potapova.
Cureline collects tissue samples in key therapeutic areas, including oncology, inflammation, neurological diseases, and normal tissue. Fresh human tissues and blood from healthy donors and clinically defined patients are available within 24 to 48 hours after collection for customers in the U.S. The company works with leading academic centers in 10 countries to acquire biospecimens.
The tissues that Cureline collects help improve drug treatment outcomes, claims Dr. Potapova. For example, only about half the patients who receive expensive biologics for arthritis and other conditions respond to the drugs. “A lot of time and money is wasted on patients who don’t respond,” she says.
Cureline helps create diagnostic tests to predict who will benefit from drugs either on the market or in pipelines. Other companies want to learn what biomarkers, such as RNA, microRNA, or antibodies, provide the best information. Or perhaps a company knows that certain patients, who have a specific mutation in a tumor, respond best to a treatment. Cureline collects biopsies of such tumors to develop a diagnostic test.
Although the Cureline name never appears on a final therapeutic product, “I really believe that Cureline contributes significantly to making the lives of patients better,” says Dr. Potapova. Tissue specimens from Cureline have been used to develop several marketed products and more are in company pipelines.
Cureline is known for its expertise in translational histology, a stage of drug development where tissue must be analyzed for toxicity. The firm creates assays to detect the expression of key biomarkers related to toxicity. “Our lab is very well designed to perform these studies,” says Dr. Potapova, “and we can process animal tissue and human specimens.”
In addition to tissue specimens, Cureline develops primary cell cultures from tumors. Hematological cancers are the best candidates, because blood cells are readily isolated and grow well in cell suspensions. Cureline collects biospecimens from patients with all types of hematologic malignancies, such as AML and CLL, in both chronic and crisis stages of the disease. Cancer blood, bone marrow aspirates, and bone marrow biopsy specimens are used for cellular and molecular analysis.
Solid tumors are more challenging since different tumors grow under different conditions. “It’s very labor demanding and we cannot do it for every tumor,” says Dr. Potapova. Cureline is developing several primary cell-line systems from different tumors. For other clients, they collect pieces of primary tumors, which are implanted into laboratory animals for experimentation.
The next area for growth will be expansion of blood specimens. “We are seeing an increased demand for blood component specimens,” says Dr. Potapova. The various components in blood will be isolated and preserved. Cureline also is setting up a new cell culture laboratory to isolate molecular components like RNA and DNA from specimens. By doing this in-house, “we will have full control of timelines and quality,” she adds.
Only a few companies supply tissue specimens and related services, and they are specialized and limited in scope. “Not a single company has more than three percent of the market,” says Dr. Potapova. She plans to combine products and services to offer more comprehensive products to the biotechnology and pharmaceutical community.
As a scientist, Dr. Potapova readily sees the need for certain types of tissues and related services at various stages of research. “I love interacting with scientists to help to make better products for them.” She invites researchers to give her feedback to guide the company’s plans for future services. “We want to contribute to what companies need.”
Correction: In the print issue of GEN we inadvertently listed the wrong phone number for Cureline. The correct phone number is 650-875-6400.
© 2016 Genetic Engineering & Biotechnology News, All Rights Reserved