Sickle Cell News for February 2013
Could an old antidepressant treat sickle cell disease?
Tests in mice & human blood cells look promising http://www.eurekalert.org/pub_releases/2013-02/uomh-cao021913.php
An antidepressant drug used since the 1960s may also hold promise for treating sickle cell disease, according to a surprising new finding made in mice and human red blood cells by a team from the University of Michigan Medical School.
The discovery that tranylcypromine, or TCP, can essentially reverse the effects of sickle cell disease was made by U-M scientists who have spent more than three decades studying the basic biology of the condition, with funding from the National Institutes of Health.
Their findings, published in Nature Medicine, pave the way for a clinical trial now being planned for adult patients who have the life-threatening condition. The discovery may also lead to other treatments for the disease, which leads misshapen red blood cells to cause vascular damage and premature death.
But the researchers caution it is too soon for the drug to be used in routine treatment of sickle cell anemia, an inherited genetic disease that affects tens of thousands of Americans and millions of others worldwide.
The climax of a decade of discovery
In the new paper, the researchers describe a painstaking effort to test TCP's effect on the body's production of a particular form of hemoglobin – the key protein that allows red blood cells to carry oxygen.
The drug acts on a molecule inside red blood cells called LSD1, which is involved in blocking the production of the fetal form of hemoglobin. The U-M team zeroed in on the importance of LSD1 as a drug target after many years of research.
Then, they literally did a Google search to find drugs that act on LSD1. That's how they found TCP, which since 1960 has been used to treat severe depression.
In the new paper, they describe how TCP blocked LSD1 and boosted the production of fetal hemoglobin -- offsetting the devastating impact of the abnormal "adult" form of hemoglobin that sickle cell patients make.
"This is the first time that fetal hemoglobin synthesis was re-activated both in human blood cells and in mice to such a high level using a drug, and it demonstrates that once you understand the basic biological mechanism underlying a disease, you can develop drugs to treat it," says Doug Engel, Ph.D., senior author of the study and chair of U-M's Department of Cell & Developmental Biology. "This grew out of an effort to discover the details of how hemoglobin is made during development, not with an immediate focus on curing sickle cell anemia, but just toward understanding it."
Engel credits the dedication and persistence of his team, including a former research assistant professor, Osamu Tanabe, M.D., Ph.D., now at Japan's Tohoku University, U-M postdoctoral fellow, Lihong Shi, Ph.D., first author of the study, and research instructor Shuaiying Cui, Ph.D..
Together, they have identified LSD1's crucial role, and its epigenetic interaction with two nuclear receptors in the nuclei of red blood cell precursors called TR2 and TR4. Working in tandem, they repress the expression of the gene that makes fetal hemoglobin – an effect called gene silencing. So, interfering with this repression allows the fetal hemoglobin subunits to be made.
Treatment with TCP caused fetal hemoglobin to be produced at such high abundance that it made up 30 percent of all hemoglobin in cultured human blood cells – a finding Engel called "startling." TCP is FDA-approved, though patients taking it need to follow strict dietary guidelines to avoid drug interactions with certain naturally occurring chemicals in some foods.
Reference: Nature Medicine, http://dx.doi.org/10.1038/nm.3101
I have always felt that the cure/treatment for Sickle Cell would come from a discovery like this. Where researchers find out that a drug being used for some common disease has a side effect that cures sickled cells...I pray that this is it.
My daughter...this week...2 years post bone marrow transplant...and going strong.