Subcellular compartmentalization of two calcium binding proteins, calretinin and calbindin-28 kDa, in ganglion and amacrine cells of the rat retina

There is a clear compartmentalization of calbindin-28 kDa and calretinin distribution in retinal ganglion cells. This suggests that the two calcium binding proteins perform distinct functions in localized calcium signaling. It also indicates that rather than freely diffusing through the cytoplasm to attain a homogeneous distribution, calbindin-28 kDa and calretinin must be bound to cellular structures through interactions that are likely important for their functions.

This study used immunohistochemistry to investigate the subcellular expression patterns of calretinin and calbindin-28 kDa, in the soma, dendrites, and the axonal compartment of rat retinal ganglion cells.

Intracellular free calcium ions (Ca(2+)) are an important element in retinal ganglion cell response. Two major EF-hand (E-helix-loop-F-helix-hand) calcium binding proteins in the retina, calretinin and calbindin-28 kDa, are important buffers of intracellular free Ca(2+) in neurons, and may also serve as Ca(2+)-dependent regulators of enzymes and ion channels.

Antibodies for calretinin and calbindin-28 kDa labeled different cell populations in the retinal ganglion cell layer. In this layer, calretinin labeled a larger number of cells compared to calbindin-28 kDa, many, but not all, of which were displaced amacrine cells. The calbindin-28 kDa immunopositive neurons were distinct in that their somata were peripherally encircled by microtubule associated protein 1 (MAP-1) or neurofilament-200 kDa subunit (NF-200 kDa) immunofluorescence. Although somata of retinal ganglion cells contained these calcium binding proteins, neither protein was found in the dendrites or initial segments of the axons. However, both were expressed in the ganglion cell axons in nerve fiber layer. Calretinin and calbindin-28 kDa staining overlapped in some fibers and not in others. Calretinin immunofluorescence was concentrated in discrete axonal regions, which showed limited staining for calbindin-28 kDa or for NF200 kDa, suggesting its close proximity to the plasma membrane. Conclusions: There is a clear compartmentalization of calbindin-28 kDa and calretinin distribution in retinal ganglion cells. This suggests that the two calcium binding proteins perform distinct functions in localized calcium signaling. It also indicates that rather than freely diffusing through the cytoplasm to attain a homogeneous distribution, calbindin-28 kDa and calretinin must be bound to cellular structures through interactions that are likely important for their functions.