New research suggests that synthetic peptides called minihepcidins may potentially treat two serious genetic blood diseases in children and adults. Although those diseases, beta-thalassemia and polycythemia vera, have opposite effects on red blood cell production, treating animals with minihepcidin helps to restore normal levels of red blood cells and reduces spleen enlargement. It also controls the accumulation of excess levels of iron in beta-thalassemia that often causes severe toxic effects.
"It seems counterintuitive that one compound could treat two diseases that are quite different, but by restricting iron absorption, it also helps to normalize red blood cell levels in animals," said study leader Stefano Rivella, Ph.D. (pictured), a hematology researcher and holder of the Kwame Ohene-Frempong Chair in Sickle Cell Anemia at The Children's Hospital of Philadelphia (CHOP). "If these preclinical results translate to humans, this could represent a new treatment for both disorders."
The researchers used minihepcidins, modified versions of the naturally occurring hormone hepcidin that regulates iron. Minihepcidins are smaller than the full-length hormone but have long-term stability and long-lasting biological activity when administered to animals. Previous researchers showed that minihepcidin treatment can prevent iron overload in mouse models of hemochromatosis, a disease of excess iron absorption associated with low hepcidin production.
First author Carla Casu, Ph.D. from CHOP, along with Rivella and colleagues, investigated in the current study how minihepcidins affected beta-thalassemia and polycythemia vera (PV) in mice separately engineered to model each human disease.
In beta-thalassemia, a long-studied genetic disorder, a mutation impairs hemoglobin production, resulting in defective red blood cells (RBCs). Those cells have a reduced ability to carry oxygen, resulting in anemia. However, the body continues to accumulate iron, because of low levels of hepcidin, generating a vicious cycle that destroys more RBCs and also may cause severe damage in the liver and heart.
In PV, rare mutations drive the overproduction of RBCs, gradually thickening the blood into a ketchup-like consistency. This raises the risk of high blood pressure and thrombosis (clotting), which may cause a stroke. PV also causes a painfully enlarged spleen. The standard treatment for PV is phlebotomy--puncturing a vein to remove blood. However, removing blood does not stop the body from keeping RBC production in overdrive.
Rivella and colleagues bred mouse models of both diseases, first at Weill Cornell Medical College in New York, where their study began, and subsequently at CHOP.
The study team found that, in young mice that modeled beta-thalassemia, minihepcidins normalized RBC levels and relieved both anemia and iron overload. In older mice, the compound improved RBC production and did not interfere with a chelating drug used to remove excess iron deposits.
In mice expressing the gene mutation that causes PV, minihepcidins also normalized RBC production. Because increased iron absorption in PV keeps RBC production in overdrive, when minihepcidins curtailed iron absorption, they lowered the abnormally high numbers of RBCs--which also reduced spleen enlargement.
Rivella noted that if minihepcidins prove successful in clinical trials, they may provide an important tool in treating these blood disorders. "In animal affected by beta-thalassemia, the compound blocks iron from getting into organs, but doesn't remove excess iron already in organs and tissues. If minihepcidins are used in older patients, they would need to be combined with existing chelating drugs that remove the already-accumulated iron." However, he added that in beta-thalassemia, providing minihepcidins in childhood might halt iron accumulation and prevent more severe adult disease. In PV, minihepcidins may help normalize a patient's RBC production, but, as in beta-thalassemia, would not treat the underlying disease-causing mutations.
Illustration: The Children’s Hospital of Philadelphia.
The Children’s Hospital of Philadelphia News Release (05/06/16)
Science Daily (05/06/16)
Abstract (Blood; May 2016.)