An AAV capsid reprogrammed to bind human transferrin receptor mediates brain-wide gene delivery

An AAV capsid reprogrammed to bind human transferrin receptor mediates brain-wide gene delivery

Developing vehicles that efficiently deliver genes throughout the human central nervous system (CNS) will broaden the range of treatable genetic diseases. We engineered an adeno-associated virus (AAV) capsid, BI-hTFR1, that binds human transferrin receptor (TfR1), a protein expressed on the blood-br...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2024-06, Vol.384 (6701), p.1220-1227
Hauptverfasser: Huang, Qin, Chan, Ken Y, Wu, Jason, Botticello-Romero, Nuria R, Zheng, Qingxia, Lou, Shan, Keyes, Casey, Svanbergsson, Alexander, Johnston, Jencilin, Mills, Allan, Lin, Chin-Yen, Brauer, Pamela P, Clouse, Gabrielle, Pacouret, Simon, Harvey, John W, Beddow, Thomas, Hurley, Jenna K, Tobey, Isabelle G, Powell, Megan, Chen, Albert T, Barry, Andrew J, Eid, Fatma-Elzahraa, Chan, Yujia A, Deverman, Benjamin E
Format: Artikel
Sprache:eng
Schlagworte:
Animal models
Animals
Antigens, CD - genetics
Antigens, CD - metabolism
Blood-brain barrier
Blood-Brain Barrier - metabolism
Brain - metabolism
Capsid - metabolism
Capsid Proteins - genetics
Capsid Proteins - metabolism
Central nervous system
Dependovirus - genetics
Endothelial Cells - metabolism
Expression vectors
Gaucher's disease
Gene Knock-In Techniques
Gene therapy
Gene transfer
Gene Transfer Techniques
Genetic Therapy
Genetic Vectors
Humans
Mice
Proteins
Receptors
Receptors, Transferrin - genetics
Receptors, Transferrin - metabolism
Transferrin
Transferrins
Transgenic mice
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Zusammenfassung:Developing vehicles that efficiently deliver genes throughout the human central nervous system (CNS) will broaden the range of treatable genetic diseases. We engineered an adeno-associated virus (AAV) capsid, BI-hTFR1, that binds human transferrin receptor (TfR1), a protein expressed on the blood-brain barrier. BI-hTFR1 was actively transported across human brain endothelial cells and, relative to AAV9, provided 40 to 50 times greater reporter expression in the CNS of human knockin mice. The enhanced tropism was CNS-specific and absent in wild-type mice. When used to deliver , mutations of which cause Gaucher disease and are linked to Parkinson's disease, BI-hTFR1 substantially increased brain and cerebrospinal fluid glucocerebrosidase activity compared with AAV9. These findings establish BI-hTFR1 as a potential vector for human CNS gene therapy.
ISSN:0036-8075
1095-9203
1095-9203
DOI:10.1126/science.adm8386