Subcellular localization of PKA catalytic subunits provides a basis for their distinct functions in the retina

PKA signaling is essential for numerous processes but the subcellular localization of specific PKA isoforms has yet to be explored comprehensively in tissues. Expression of the C{beta} protein, in particular, has not been mapped previously at the tissue level. In this study we used retina as a window into PKA signaling in the brain and characterized localization of PKA C, C{beta}, RII, and RII{beta} subunits. Each subunit presented a distinct localization pattern. C and C{beta} were localized in all tissue layers, while RII and RII{beta} were enriched in the photoreceptor cells in contrast to the cell body and retinal portion of retinal ganglion cells. Only C was observed in photoreceptor outer segments and the cilia transition zone, while C{beta} was localized primarily to mitochondria and was especially prominent in the ellipsoid of the cone cells. In contrast to C, C{beta} also never colocalized with RII or RII{beta}. Using BaseScope technology to track expression of the C{beta} isoforms we find that C{beta}4 and C{beta}4ab are prominently expressed and, therefore, likely code for mitochondrial-C{beta} proteins. Our data indicates that PKA subunits are functionally nonredundant in the retina and suggesting that C{beta} might be important for mitochondrial-associated neurodegenerative diseases previously linked to PKA dysfunction.