Intraocular injection of APB decreases the metabolic response of the rat superior colliculus

The functional activity of the superior colliculus (SC) following flash stimulation was examined by means of 2-deoxyglucose (2DG) method in monocularly enucleated Long-Evans rats intraocularly injected with a solution of 2-amino-4-phosphonobutyric acid (APB), able to silence the ON retinal activity. After APB injection SC layers recipient of retinal axons suffered a sustained 2DG decrease as compared to controls. Moreover, whereas glucose utilization in normal rat SC appears unevenly distributed and closely related to retinal axon density, by contrast, APB-treated rats showed a rather uniform metabolic activity throughout the SC surface. Furthermore, we calculated the 2DG uptake percentage reduction in 12 SC loci of APB rats in respect to homologous loci of controls: glucose utilization decreases at the loci largely differ from each other, showing that retinal axons carrying ON activity are dispersed over the SC in a mosaic pattern. Thus, the SC metabolic map should be representative of its retinotopic organization which, in turn, depends on the asymmetric distribution in the rat's retina of W-like as well as of other ganglion cell types.