Hope for Sickle Cell

Imagine a water balloon traveling down a narrow pipe when suddenly a pole inside begins expanding, stretching the balloon and slowing it down. This describes red blood cells in people with sickle cell disease. Their red blood cells are sickle shaped rather than the normal, donut shaped disks. The misshapen cells are rigid, don't flow easily through blood vessels, stick together, and block blood flow causing pain, anemia and organ damage.

Millions of people around the world suffer from sickle cell disease with few treatment options. But a recent discovery could ease the severity of this disorder.

After studying seven thousand mice engineered with sickle cell disorder, researchers keyed in on a molecule called S1P which was elevated. The molecule is generated by an enzyme called SphK1. The researchers tried inhibiting the enzyme to see if it would lower S1P levels. Not only were fewer S1P produced, the mice's symptoms were improved. Their red blood cells had less sickling and lived longer.

Healthy red blood cells live 120 days compared to sickled cells which live just ten to twenty days. That means the bone marrow can't keep up production which leads to anemia. These mice also had less tissue damage and inflammation.

The researchers found the same results when they worked with samples of human sickle cells. S1P has other roles in the body, so we'd have to see if inhibitors to SphK1 can safely and effectively be used in humans.

Up to this point, the only cure for sickle cell disease is a bone marrow transplant which is only available for a small number of people. Studies like these are needed to ease the burdens of sickle cell disease which is a lifelong illness.