Inherited retinal degeneration: T-type voltage-gated channels, Na+/Ca2+-exchanger and calpain-2 promote photoreceptor cell death

Abstract

ABSTRACTInherited retinal degeneration (IRD) refers to a group of untreatable blinding diseases characterized by a progressive loss of photoreceptors. IRD pathology is often linked to an excessive activation of cyclic nucleotide-gated channels (CNGC) leading to Na+– and Ca2+-influx, subsequent activation of voltage-gated Ca2+-channels (VGCC), and further Ca2+influx. However, whether and how exactly intracellular Ca2+overload contributes to photoreceptor degeneration is still controversial.Here, we used whole-retina and single-cell RNA-sequencing to compare gene expression between therd1mouse model for IRD and wild-type (wt) mice. Differentially expressed genes were linked to several Ca2+–signalling related pathways. To explore this further, organotypic retinal explant cultures derived fromrd1andwtmice were treated with the intracellular Ca2+-chelator BAPTA-AM and with inhibitors for different Ca2+-permeable channels, including CNGC, L-type VGCC, T-type VGCC, Ca2+-release-activated channel (CRAC), and Na+/Ca2+exchanger (NCX). Moreover, we employed the compound NA-184 to selectively inhibit the Ca2+-dependent protease calpain-2. The overall activity of poly(ADP-ribose) polymerases (PARPs), sirtuin-type histone-deacetylases, calpains, as well as the activation of calpain-1, and –2 were analysedin situon retinal tissue sections. Cell viability was assessedviathe TUNEL assay.Whilerd1photoreceptor cell death was reduced by BAPTA-AM, the effects of Ca2+-channel blockers were ambiguous, with T-type VGCC and NCX inhibition showing protection, while blocking CNGC and CRAC was detrimental. Activity of calpains and PARPs generally followed similar trends as cell death. Remarkably, sirtuin activity and calpain-1 activation was associated with photoreceptor protection, while calpain-2 activity was linked to degeneration. Accordingly, the calpain-2 inhibitor NA-184 protectedrd1photoreceptors.Together, these results indicate that Ca2+overload inrd1photoreceptors may be triggered by T-type VGCC in conjunction with NCX. High Ca2+-levels likely suppress the protective activity of calpain-1 and promote neurodegeneration via activation of calpain-2. Our study details the complexity of Ca2+-signalling in photoreceptors and emphasizes the importance of identifying and targeting degenerative processes to achieve a therapeutic benefit for IRD.