BDNF and cAMP are neuroprotective in a porcine model of traumatic optic neuropathy
Kathleen Heng, Brent K. Young, BaoXiang Li, Ashley D. Nies, Xin Xia, Runxia R. Wen, Roopa Dalal, Gregory T. Bramblett, Andrew W. Holt, Jeffery M. Cleland, Jason N. Harris, Albert Y. Wu, Jeffrey L. Goldberg
Kathleen Heng, Brent K. Young, BaoXiang Li, Ashley D. Nies, Xin Xia, Runxia R. Wen, Roopa Dalal, Gregory T. Bramblett, Andrew W. Holt, Jeffery M. Cleland, Jason N. Harris, Albert Y. Wu, Jeffrey L. Goldberg
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Research Article Ophthalmology

BDNF and cAMP are neuroprotective in a porcine model of traumatic optic neuropathy

Abstract

Traumatic optic neuropathy (TON) is a devastating condition that can occur after blunt or penetrating trauma to the head, leading to visual impairment or blindness. Despite these debilitating effects, no clinically available therapeutic targets neuroprotection or promotes axon regeneration in this or any optic neuropathy. Limited data in large-animal models are a major obstacle to advancing treatments toward clinical therapeutics. To address this issue, we refined a surgical model of TON in Yucatan minipigs. First, we validated the model by demonstrating visual impairment by flash visual-evoked potential and retinal ganglion cell degeneration and death. Next, we developed and optimized a delivery method and nontoxic dosing of intravitreal brain-derived neurotrophic factor (BDNF) and cAMP. Finally, we showed that intravitreal injection of BDNF and cAMP rescued visual function and protected against retinal ganglion cell death and optic nerve axon degeneration. Together these data in a preclinical large-animal model advance our understanding of and ability to model TON and further identify and develop candidate clinical therapeutics.

Authors

Kathleen Heng, Brent K. Young, BaoXiang Li, Ashley D. Nies, Xin Xia, Runxia R. Wen, Roopa Dalal, Gregory T. Bramblett, Andrew W. Holt, Jeffery M. Cleland, Jason N. Harris, Albert Y. Wu, Jeffrey L. Goldberg

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Figure 9

Retinal ganglion cell body survival after optic nerve injury.

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Retinal ganglion cell body survival after optic nerve injury. (A) Quanti...
(A) Quantification of RGC density at each retinal position indicated in Figure 4A in vehicle and BDNF- and cAMP-treated retinas. Vehicle control data has been reproduced from Figure 4D. P < 0.0001, 2-way ANOVA; P < 0.5; Student’s t test (n = 5). (B) Quantification of RGC density summed over 20 positions in vehicle- as well as BDNF- and cAMP-treated retinas (11,494 cells/mm2 and 6,440 cells/mm2, respectively; n = 5, P = 0.0261, Student’s t test). (C) Pseudocolored topographic distribution of RGC density in naive animals, vehicle-treated animals 4 weeks after crush, and BDNF- and CPT-cAMP–treated animals 4 weeks after crush. Black lines represent isodensity contours. (D) Visualization of survival compared with baseline (naive, no injury retinas) after injury in vehicle- or BDNF- and cAMP-treated eyes. (E) Visualization of BDNF and cAMP treatment effect. Scale bar: 500 μm. *P < 0.05.