TY - JOUR
T1 - Regulation of corneal repair by particle-mediated gene transfer of opioid growth factor receptor complementary DNA
AU - Zagon, Ian S.
AU - Sassani, Joseph W.
AU - Malefyt, Kristin J.
AU - McLaughlin, Patricia J.
PY - 2006/11
Y1 - 2006/11
N2 - Objective: To determine whether molecular manipulation of the opioid growth factor receptor (OGFr) alters corneal reepithelialization following central corneal abrasion in rats. Methods: The plasmid pcDNA3.1 + OGFr, carrying the rat OGFr complementary DNA in both the sense and antisense orientations, and empty vector (EV), were delivered by gene gun to the rat cornea. After 24 hours, corneas were abraded and reepithelialization was documented by fluorescein photography. Twenty-four hours after wounding,DNAsynthesis (with bromodeoxyuridine) was examined. Results: Eyes transfected with sense constructs of OGFr had corneal defects that were 24%, 52%, and 50% larger than the EV group at 16, 24, and 28 hours, respectively. Conversely, corneas transfected with antisense constructs of OGFr had corneal defects that were 56% and 48% smaller than the EV group at 16 and 24 hours, respectively. Bromodeoxyuridine labeling in the basal and suprabasal layers of the antisense group were increased 3.3- and 3.7-fold, respectively, in DNA synthesis from corresponding EV layers; DNA synthesis was comparable in the sense and EV groups. Conclusions: Excess OGFr delays reepithelialization, whereas attenuation of OGFr accelerates repair of the corneal surface. Clinical Relevance: Inhibition of opioid growth factor action using gene therapy could be important in the treatment of corneal diseases such as nonhealing and recurrent erosions, diabetic keratopathy, and neurotrophic keratitis.
AB - Objective: To determine whether molecular manipulation of the opioid growth factor receptor (OGFr) alters corneal reepithelialization following central corneal abrasion in rats. Methods: The plasmid pcDNA3.1 + OGFr, carrying the rat OGFr complementary DNA in both the sense and antisense orientations, and empty vector (EV), were delivered by gene gun to the rat cornea. After 24 hours, corneas were abraded and reepithelialization was documented by fluorescein photography. Twenty-four hours after wounding,DNAsynthesis (with bromodeoxyuridine) was examined. Results: Eyes transfected with sense constructs of OGFr had corneal defects that were 24%, 52%, and 50% larger than the EV group at 16, 24, and 28 hours, respectively. Conversely, corneas transfected with antisense constructs of OGFr had corneal defects that were 56% and 48% smaller than the EV group at 16 and 24 hours, respectively. Bromodeoxyuridine labeling in the basal and suprabasal layers of the antisense group were increased 3.3- and 3.7-fold, respectively, in DNA synthesis from corresponding EV layers; DNA synthesis was comparable in the sense and EV groups. Conclusions: Excess OGFr delays reepithelialization, whereas attenuation of OGFr accelerates repair of the corneal surface. Clinical Relevance: Inhibition of opioid growth factor action using gene therapy could be important in the treatment of corneal diseases such as nonhealing and recurrent erosions, diabetic keratopathy, and neurotrophic keratitis.
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U2 - 10.1001/archopht.124.11.1620
DO - 10.1001/archopht.124.11.1620
M3 - Article
C2 - 17102011
AN - SCOPUS:33750997296
SN - 0003-9950
VL - 124
SP - 1620
EP - 1624
JO - Archives of Ophthalmology
JF - Archives of Ophthalmology
IS - 11
ER -