Endocannabinoids (eCBs) are retrograde neurotransmitters that modulate the function of many types of synapses. The presence of eCBs, their CB1 receptor (CB1R), and metabolizing enzymes at embryonic and early postnatal periods have been linked to developmental processes such as neuronal proliferation, differentiation, and migration, axon guidance, and synaptogenesis. Here, we demonstrate the presence of a functional eCB system in the developing visual system and the role of CB1R during axon growth and retinothalamic development. Pharmacological treatment of retinal explants and primary cortical neuron cultures with ACEA, a selective CB1R agonist, induced a collapse of the growth cone (GC). Furthermore the application of AM251, a CB1R inverse agonist, to the neuronal cultures increased the surface area of GC. In vivo, intraocular injection of ACEA diminished retinal projection growth, while AM251 promoted growth and caused aberrant projections. In addition, compared with their wild-type littermates, CB1R-deficient adult mice revealed a lower level of eye-specific segregation of retinal projections in the dorsal lateral geniculate nucleus. Finally, we found that pharmacological modulation of CB1R affected the trafficking of Deleted in colorectal cancer (DCC) receptor to the plasma membrane in a PKAdependent manner. Moreover, pharmacological inhibition or genetic inactivation of DCC abolished the CB1R-induced reorganization of the GC. Overall, these findings establish a mechanism by which the CB1R influences GC behavior and nervous system development in concerted action with DCC.
Several studies have shown the importance of calcium channels in the development and/or maturation of synapses. The CaV1.4(α1F) knockout mouse is a unique model to study the role of calcium channels in photoreceptor synapse formation. It features abnormal ribbon synapses and aberrant cone morphology. We investigated the expression and targeting of several key elements of ribbon synapses and analyzed the cone morphology in the CaV1.4(α1F) knockout retina. Our data demonstrate that most abnormalities occur after eye opening. Indeed, scaffolding proteins such as Bassoon and RIM2 are properly targeted at first, but their expression and localization are not maintained in adulthood. This indicates that either calcium or the CaV1.4 channel, or both are necessary for the maintenance of their normal expression and distribution in photoreceptors. Other proteins, such as Veli3 and PSD-95, also display abnormal expression in rods prior to eye opening. Conversely, vesicle related proteins appear normal. Our data demonstrate that the CaV1.4 channel is important for maintaining scaffolding proteins in the ribbon synapse but less vital for proteins related to vesicular release. This study also confirms that in adult retinae, cones show developmental features such as sprouting and synaptogenesis. Overall we present evidence that in the absence of the CaV1.4 channel, photoreceptor synapses remain immature and are unable to stabilize.
The data indicated that CB2R is likely to be involved in shaping retinal responses to light and suggest that CB1 and CB2 receptors could have different roles in visual processing.
Cannabinoid receptor type 1 (CB1R) participates in developmental processes in the central nervous system (CNS). The rodent retina represents an interesting and valuable model for studying CNS development, because it contains well-identified cell types with clearly established and distinct developmental timelines. Very little is known about the distribution or function of CB1R in the developing retina. In this study, we investigated the expression pattern of CB1R in the rat retina during all stages of postnatal development. Western blots were performed on retinal tissue at different time points between P1 and adulthood. In order to identify the cells expressing the receptor and the age at which this expression started, immunohistochemical co-staining was carried out for CB1R and markers of the different cell types comprising the retina. CB1R was already present at P1 in various cell types, i.e., ganglion, amacrine, horizontal, and mitotic cells. In the course of development, it appeared in cone photoreceptors and bipolar cells. For some cell types (bipolar, Müller, and some amacrine cells), CB1R was transiently expressed, suggesting a potential role of this receptor in developmental processes, such as migration, morphological changes, sub-identity acquisition, and patterned retinal spontaneous activity. Our results also indicated that CB1R is largely expressed in the adult retina (cone photoreceptors and horizontal, most amacrine, and retinal ganglion cells), and may therefore contribute to retinal functions. Overall these results indicate that, as shown in other structures of the brain, CB1R could play an instrumental role in the development and function of the retina.
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