More About ​Sickle Cell Anemia

Written by: nanjowe • edited by: Leigh A. Zaykoski 

Sickle cell disease symptoms can be debilitating, interfering with daily life. In 2008 there were a number of studies that laid the groundwork for advances in disease treatment options. Sickle cell anemia is a disease that affects 500 million people around the world annually. The disease is caused by a mutation in the gene that makes hemoglobin. The abnormal hemoglobin causes an individual's red blood cells to sickle and clump which clogs blood vessels causing the characteristic debilitating symptoms and pain. The pain affects an individual's day to day life and as such researchers are constantly working on ways to alleviate the symptoms or cure the disease.

Bone Marrow & Umbilical Cord Stem Cells Transplant

Bone marrow transplants have been used as a safe permanent cure for sickle cell anemia. In a study that appeared in the journal Biology of Blood and Marrow Transplantation in 2008 researchers performed reduced intensity conditioning (a less toxic procedure) bone marrow transplants that are safer and more effective for people afflicted with severe sickle cell anemia. Traditional bone transplants can be a life-threatening procedure for patients whose health is already compromised by the sickle cell disease. Generally speaking transplants are rare because of the difficulty of finding a compatible donor but this may be a hurdle of the past because of a new transplant procedure called sickle cell unrelated transplants (discussed below).

Gene Therapy

Researchers are studying and identifying the genes that are related to the abnormal hemoglobin production in patients suffering from the disease. This new treatment's precept is based on the fact that it may be possible to repair the damaged gene or restore the function of the gene used to produce fetal hemoglobin. Fetuses produce a type of hemoglobin called fetal hemoglobin which has a high affinity for oxygen and is found in individuals with both the normal and abnormal adult hemoglobin gene. In sickle cell anemia patients whose bodies continued producing fetal hemoglobin, disease symptoms were not as severe. Normally, fetal hemoglobin disappears soon after birth, and in an individual with the sickle cell anemia, disease symptoms start appearing. Gene therapy can be used to allow the body to continue producing fetal hemoglobin which can alleviate the disease associated symptoms. In another study that appeared in the journal Molecular Therapy, December 2008, a group of scientists used gene therapy to introduce the normal gene into the mice’s hemoglobin genetic code to produce fetal hemoglobin. This procedure still requires more testing before it can be attempted in the human population.

Future Sickle Cell Therapies

In another study that appeared in the journal Science in December 2008 researchers suppressed the gene BCL11A which lead to an increase in fetal hemoglobin production. The newly discovered gene promises to be a target site for future gene therapy. Increasing levels of fetal hemoglobin have successfully alleviated symptoms associated with sickle cell anemia. Advances in transplant cures are also coming down the pike; a recent US National Phase II clinical trial, donor marrow and umbilical cord from an unrelated individual will be transplanted into patients with severe sickle cell disease. The results of this study will hopefully pave the way for Sickle Cell Unrelated Transplants (SCURT) cutting the wait time for suitable bone marrow matches.

Sickle Cell Advances