Purpose: To determine the therapeutic efficacy of intravitreal injections of Noggin in a rodent model of retinitis pigmentosa (RP). Noggin is expressed by Myo/Nog cells which are critical for eye morphogenesis and have been shown to be both neuroprotective and a source of contractile myofibroblasts in ocular diseases. Noggin is a bone morphogenic protein (BMP) inhibitor. BMPs play important roles in eye development but the strength of this signalling pathway must be carefully regulated. Furthermore, BMP levels increase in the central nervous system under stress and injury.Methods: Male and female C3H/HEJ mice (n = 30) exhibiting Pde6b gene mutation, considered a model of RP, were divided into 3 experimental groups (n = 10 each). At week 2.5 post birth, mice received either a bilateral, single intravitreal injection (1 μL) of phosphate buffer saline (PBS; Control 1), mouse serum albumin (MSA; Control 2), or human recombinant Noggin (25 ng; Treatment). At weeks 3 and 5, electroretinograms (ERGs) were performed to assess retinal function, and mice were sacrificed. Then, eyes were enucleated, fixed, frozen, cryosectioned, and immunolabelled to evaluate apoptosis (TUNEL), Myo/Nog cells (BAI1), and neuroretinal thickness.Results: Apoptosis was significantly decreased in the Noggin treated group compared to controls (PBS and MSA) at both time points. Noggin treatment also resulted in increased thickness of the neuroretina. The number of Noggin producing Myo/Nog cells was higher in the retinas of all the control groups compared to the Noggin‐injected group. ERGs showed significant improvement of the A‐ and B‐waves in Noggin injected mice when compared to control groups at 3‐ and 5‐weeks post‐birth.Conclusions: Intravitreal injection of Noggin in a RP rodent model improved retinal function and decreased apoptosis and retinal thinning. Myo/Nog cells increase in number in response to stress and injury. The decrease in the number of Myo/Nog cells in response to Noggin treatment further supports the conclusion that this BMP inhibitor reduced tissue damage. These results suggest that inhibition of BMP signalling may be a therapeutic approach to reducing retinal degeneration in RP.
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