Eltrombopag, a thrombopoietin mimetic, crosses the blood–brain barrier and impairs iron‐dependent hippocampal neuron dendrite development

Autor:	Kari A. Duck, Thomas W. Bastian, James R. Connor, Michael J. Chen, Michael K. Georgieff, Martha Sola-Visner, Zhi-Jian Liu, Lorene M. Lanier, George C. Michalopoulos
Rok vydání:	2017
Předmět:	0301 basic medicine Iron Green Fluorescent Proteins Eltrombopag Thrombopoietin mimetics Dendrite Deferoxamine Pharmacology Biology Blood–brain barrier Benzoates Hippocampus Article Mice 03 medical and health sciences chemistry.chemical_compound 0302 clinical medicine Biomimetics Dopamine CAMK2A medicine Animals Thrombopoietin Chelating Agents Neurons Anemia Iron-Deficiency Microcirculation Biological Transport Dendrites Hematology Thrombocytopenia Hydrazines 030104 developmental biology medicine.anatomical_structure nervous system chemistry Blood-Brain Barrier Immunology Pyrazoles Cattle Neuroglia 030217 neurology & neurosurgery medicine.drug
Zdroj:	Journal of Thrombosis and Haemostasis. 15:565-574
ISSN:	1538-7836
DOI:	10.1111/jth.13602
Popis:	Essentials Potential neurodevelopmental side effects of thrombopoietin mimetics need to be considered. The effects of eltrombopag (ELT) on neuronal iron status and dendrite development were assessed. ELT crosses the blood-brain barrier and causes iron deficiency in developing neurons. ELT blunts dendrite maturation, indicating a need for more safety studies before neonatal use. Summary Background Thrombocytopenia is common in sick neonates. Thrombopoietin mimetics (e.g. eltrombopag [ELT]) might provide an alternative therapy for selected neonates with severe and prolonged thrombocytopenia, and for infants and young children with different varieties of thrombocytopenia. However, ELT chelates intracellular iron, which may adversely affect developing organs with high metabolic requirements. Iron deficiency (ID) is particularly deleterious during brain development, impairing neuronal myelination, dopamine signaling and dendritic maturation and ultimately impairing long-term neurological function (e.g. hippocampal-dependent learning and memory). Objective To determine whether ELT crosses the blood-brain barrier (BBB), causes neuronal ID and impairs hippocampal neuron dendrite maturation. Methods ELT transport across the BBB was assessed using primary bovine brain microvascular endothelial cells. Embryonic mouse primary hippocampal neuron cultures were treated with ELT or deferoxamine (DFO, an iron chelator) from 7 days in vitro (DIV) through 14 DIV and assessed for gene expression and neuronal dendrite complexity. Results ELT crossed the BBB in a time-dependent manner. 2 and 6 μm ELT increased Tfr1 and Slc11a2 (iron-responsive genes involved in neuronal iron uptake) mRNA levels, indicating neuronal ID. 6 μm ELT, but not 2 μm ELT, decreased BdnfVI, Camk2a and Vamp1 mRNA levels, suggesting impaired neuronal development and synaptic function. Dendrite branch number and length were reduced in 6 μm ELT-treated neurons, resulting in blunted dendritic arbor complexity that was similar to DFO-treated neurons. Conclusions Eltrombopag treatment during development may impair neuronal structure as a result of neuronal ID. Preclinical in vivo studies are warranted to assess ELT safety during periods of rapid brain development.
Databáze:	OpenAIRE
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