We use cookies to understand how you use our site and to improve your experience. This includes personalizing content and advertising. To learn more, click here. By continuing to use our site, you accept our use of cookies. Cookie Policy.

LabMedica

Download Mobile App
Recent News Expo
Medica 2024
Clinical Chem. Molecular Diagnostics Hematology Immunology Microbiology Pathology Technology Industry Focus

Chronic Anemia Cured by Gene Therapy Using Genetically Engineered Blood Vessels

By LabMedica International staff writers
Posted on 29 Nov 2011
A novel gene therapeutic method employing genetically engineered blood vessels to deliver erythropoietin (EPO) to anemic mice was described in a proof-of-concept study.

Investigators at Harvard Medical School (Boston, MA, USA) created a new type of blood vessel by isolating endothelial colony-forming cells from human blood and then inserting into these cells the gene that encodes EPO. The gene that was inserted was part of a complex that included an “off/on switch” activated by the drug doxycycline.

The genetically engineered colony-forming cells were injected under the skin of immunodeficient mice that had been rendered anemic by radiation treatment (as often occurs in cancer patients) or through loss of kidney tissue (modeling chronic kidney failure).

Results published in the November 17, 2011, issue of the journal Blood revealed that the transplanted cells spontaneously formed networks of blood vessels that became integrated into the animals' own circulatory system. EPO produced by the genetically engineered cells was then released directly into the bloodstream. EPO production could be controlled by administrating or withholding doxycycline.

“Blood-vessel implants are an ideal platform technology for gene therapy applications whose goal is systemic drug delivery,” said senior author Dr. Juan M. Melero-Martin, assistant professor of surgery at Harvard Medical School. “Blood vessels are one of the few tissues where we have good control over engraftment. Endothelial cells are easily isolated from blood, are good at assembling themselves into blood vessels, and are ideal for releasing compounds into the bloodstream, since they line the blood vessels.”

“Such drugs are currently made in bioreactors by engineered cells, and are very expensive to make in large amounts. The paradigm shift here is, why we do not instruct your own cells to be the factory?” said Dr. Melero-Martin.

If this approach can be applied in humans, it would relieve patients from having to receive frequent EPO injections, thus reducing the medical costs associated with the management of anemia.

Related Links:
Harvard Medical School


Gold Member
Troponin T QC
Troponin T Quality Control
Automated Blood Typing System
IH-500 NEXT
New
Sulfidoleukotrienes (sLT) Assay
CAST ELISA
New
Leishmania Test
Leishmania Real Time PCR Kit

Latest BioResearch News

Genome Analysis Predicts Likelihood of Neurodisability in Oxygen-Deprived Newborns

Gene Panel Predicts Disease Progession for Patients with B-cell Lymphoma

New Method Simplifies Preparation of Tumor Genomic DNA Libraries