Neurturin-mediated ret activation is required for retinal function.

The glial cell line-derived neurotrophic factor (GDNF) family ligands (GFLs) [GDNF, NRTN (neurturin), ARTN (artemin), and PSPN (persephin)] interact with GDNF family receptors (GFRalphas) and activate intracellular signaling through the Ret receptor tyrosine kinase. To characterize the role of Ret signaling in retinal activity, we examined Ret hypomorphic and Ret conditional mice using electroretinography. We found that aberrant Ret function resulted in markedly diminished scotopic and photopic responses. Using mice deficient in individual GFLs, we found that only NRTN deficiency led to reduced retinal activity. To determine the potential target cell type for NRTN, we examined the retinal expression of its coreceptors (GFRalpha1 and GFRalpha2) and Ret using mice expressing fluorescence reporter enhanced green fluorescent protein from their respective loci. We found robust GFRalpha1 and Ret expression in horizontal, amacrine, and ganglion cells, whereas GFRalpha2 expression was only detected in a subset of amacrine and ganglion cells. In contrast to previous studies, no expression of GFRalpha1, GFRalpha2, or Ret was detected in photoreceptors or Müller cells, suggesting that these cells are not directly affected by Ret. Finally, detailed morphologic analyses of retinas from NRTN- and Ret-deficient mice demonstrated a reduction in normal horizontal cell dendrites and axons, abnormal extensions of horizontal cell and bipolar cell processes into the outer nuclear layer, and mislocalized synaptic complexes. These anatomic abnormalities indicate a possible basis for the abnormal retinal activity in the Ret and NRTN mutant mice.

Safety of intravitreal injection of bevacizumab in rabbit eyes.

PURPOSE: To evaluate the safety of intravitreal injection of bevacizumab in rabbits using electrophysiological testing and histopathologic analysis. METHODS: New Zealand albino rabbits were injected in one eye with control antibody (n = 2), 0.05 mL of bevacizumab (n = 3), or 0.2 mL of bevacizumab (n = 3). Electroretinograms were obtained 1 week and 4 weeks after injection. Histologic analysis was performed after completion of the electroretinographic studies. RESULTS: No statistical differences were seen in scotopic and photopic a- and b-wave amplitudes between untreated control and bevacizumab-injected eyes. No histopathologic differences were identified between untreated control and bevacizumab-injected eyes. CONCLUSION: Our study did not find evidence of retinal toxicity from a single intravitreal injection of bevacizumab in rabbits.