For the first time, Cincinnati Children's Hospital Medical Center researchers have shown how developing red blood cells could be used to produce lysosomal enzymes.
Researchers transplanted genetically modified hematopoietic stem cells into mice so that their developing red blood cells produce a critical lysosomal enzyme, preventing or reducing organ and central nervous system damage from the often-fatal genetic disorder Hurler's syndrome.
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"The idea behind this is gene insertion so that after one treatment a person would be cured. In the mouse models receiving this treatment, the pathology of the peripheral organs tested was completely normalized. And although not as complete, we also saw significantly improved neurological function and brain pathology," said Pan.
Hurler's syndrome is the severe form of MPS type1, or mucopolysaccharidoses.
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The lysosomes in the cells of children with Hurler syndrome do not have a vital enzyme called IDUA (/a-/L-idunronidase), which causes their cells to accumulate too much of a class of biochemical known as mucopolysaccharides, in this instance dermatan sulfate and heparin sulfate.
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Initially, the researchers experimented on the cells of patients with Hurler syndrome that were cultured in the laboratory.
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This could allow the enzyme to be absorbed by a patient's other cells to correct functional defects in the lysosomes.
Encouraged by the initial cell experiments, the research team next cultured hematopoietic stem cells taken from mouse models of MPS I by using the same hybrid promoter gene from the earlier experiments to reprogram the stem cells to produce IDUA.
They then performed bone marrow transplantation on the MPS I mice with the reprogrammed cells.
The developing red blood cells in these mice produced large amounts of IDUA in the blood stream, which was absorbed by other cells that help make tissues for vital organs and the central nervous system.
The researchers said that IDUA could circulate blood to somehow bypass the blood brain barrier - normally a severe limitation in treating diseases that affect the central nervous system.
Besides Hurler syndrome, Pan said the study will have positive implications in the treatment of many other lysosomal storage diseases, which affect different parts of the body, depending on the specific enzyme deficiency.
She also said this particular approach to gene therapy carries considerably less risk of stimulating cancer genes, which has been a concern with some forms of gene therapy.
The study has been published in the early edition of Proceedings of the National Academy of Sciences.
Source-ANI
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