TY - JOUR
T1 - Corneal gene therapy
AU - Klausner, Eytan A.
AU - Peer, Dan
AU - Chapman, Robert L.
AU - Multack, Richard F.
AU - Andurkar, Shridhar V.
PY - 2007/12/20
Y1 - 2007/12/20
N2 - Gene therapy to the cornea can potentially correct inherited and acquired diseases of the cornea. Factors that facilitate corneal gene delivery are the accessibility and transparency of the cornea, its stability ex vivo and the immune privilege of the eye. Initial corneal gene delivery studies characterized the relationship between intraocular modes of administration and location of reporter gene expression. The challenge of achieving effective topical gene transfer, presumably due to tear flow, blinking and low penetration of the vector through epithlelial tight junctions left no alternative but invasive administration to the anterior chamber and corneal stroma. DNA vaccination, RNA interference and gene transfer of cytokines, growth factors and enzymes modulated the corneal microenvironment. Positive results were obtained in preclinical studies for prevention and treatment of corneal graft rejection, neovascularization, haze and herpetic stromal keratitis. These studies, corneal gene delivery systems and modes of administration, and considerations regarding the choice of animal species used are the focus of this review. Opportunities in the field of corneal gene therapy lie in expanding the array of corneal diseases investigated and in the implementation of recent designs of safer vectors with reduced immunogenicity and longer duration of gene expression.
AB - Gene therapy to the cornea can potentially correct inherited and acquired diseases of the cornea. Factors that facilitate corneal gene delivery are the accessibility and transparency of the cornea, its stability ex vivo and the immune privilege of the eye. Initial corneal gene delivery studies characterized the relationship between intraocular modes of administration and location of reporter gene expression. The challenge of achieving effective topical gene transfer, presumably due to tear flow, blinking and low penetration of the vector through epithlelial tight junctions left no alternative but invasive administration to the anterior chamber and corneal stroma. DNA vaccination, RNA interference and gene transfer of cytokines, growth factors and enzymes modulated the corneal microenvironment. Positive results were obtained in preclinical studies for prevention and treatment of corneal graft rejection, neovascularization, haze and herpetic stromal keratitis. These studies, corneal gene delivery systems and modes of administration, and considerations regarding the choice of animal species used are the focus of this review. Opportunities in the field of corneal gene therapy lie in expanding the array of corneal diseases investigated and in the implementation of recent designs of safer vectors with reduced immunogenicity and longer duration of gene expression.
KW - Cornea
KW - Corneal graft rejection
KW - Corneal neovascularization
KW - Eye
KW - Gene therapy
KW - Herpetic stromal keratitis
UR - http://www.scopus.com/inward/record.url?scp=36048975465&partnerID=8YFLogxK
U2 - 10.1016/j.jconrel.2007.05.041
DO - 10.1016/j.jconrel.2007.05.041
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AN - SCOPUS:36048975465
SN - 0168-3659
VL - 124
SP - 107
EP - 133
JO - Journal of Controlled Release
JF - Journal of Controlled Release
IS - 3
ER -