Nutritional Supplements, Ginseng and Leucine, Increase Erythropoiesis in Diamond Blackfan Anemia Models through Inhibition of Nemo-like Kinase

Diamond Blackfan Anemia (DBA) is an inherited bone marrow failure syndrome that is typically associated with mutations in one of at least 20 ribosomal genes and is associated with anemia, congenital abnormalities, and cancer predisposition. The current treatment for DBA is associated with toxicities including iron overload from repeated transfusions, immune suppression from chronic corticosteroid therapy or consequences from stem cell transplantation. Developing new therapies for DBA remains a challenge, since it is a rare disease and the connection between faulty ribosomes and defects in erythropoiesis is still being explored. As such, repurposing existing, approved drugs is one approach to find new ways to treat this disease.

We recently identified that Nemo-like Kinase (NLK) is hyper-activated and contributes to disease pathogenesis in the erythroid progenitors of patients with DBA, irrespective of the genetic mutation. NLK is an atypical member of the MAPK family of kinases. Due to a high degree of conservation, kinase inhibitors that specifically target NLK are not currently available, although several small molecules inhibit NLK as an off-target. We are actively pursuing a number of these compounds as potential therapies for DBA. In addition to known kinase inhibitors, we have examined the active components of widely available nutritional supplements. Although rigorous clinical evaluation is required, these supplements are well tolerated and offer an alternative or a complement to conventional drug therapy for DBA.

Ginsenoside Rb1, an active component of ginseng, increases erythropoiesis in in vitro models of DBA (2.6-fold) at 50mM (p=0.048) with an EC ₅₀ of 2.3mM. Importantly, ginsenoside Rb1 does not impact healthy erythropoiesis or other hematopoietic lineages and is nontoxic to normal cells. Our results demonstrate that ginsenoside Rb1 does not inhibit NLK kinase activity directly, but rather induces a microRNA (miR-208) that binds to NLK mRNA leading to degradation of transcript by 35.9% (p=0.007) before the protein can be translated.

Another nutritional supplement that has been indicated to improve erythropoiesis (in DBA and non-diseased models) and is currently in clinical trials is the amino acid leucine. In DBA progenitors, 5mM leucine increases erythropoiesis from 8.8 to 16.3% of healthy controls. Leucine acts by stimulating the activity of mTORC1 but similar to erythropoiesis, mTORC1 activity is only stimulated from 26.4 to 57.2% of controls in DBA progenitors.

Our results demonstrate that leucine does not impact NLK expression or activity directly. Aberrantly activated NLK phosphorylates and inhibits the activation of mTORC1 (target of leucine). The suppression of NLK by 50mM ginsenoside Rb1 restored mTORC1 activity to basal (94.7% of non-diseased control) but also restored leucine sensitivity (from 57.2 to 88.1% of non-diseased controls). Importantly, combining 5mM leucine and 50mM ginsenoside Rb1 increased erythropoiesis from 1.9-fold and 2.6-fold when used alone, to 8.9-fold (or 78.3% of healthy controls) together in our in vitro models of DBA (CI=0.31).

Ginseng and leucine offer promising alternatives to steroids and other immunosuppressive drugs for DBA patients. The goal of these studies is to raise the hemoglobin in DBA patients to avoid the need for red cell transfusions. As nutritional supplements are widely available and well tolerated, this class of compounds provides alternatives to currently approved drugs to treat DBA.