Sfrp1 deficiency makes retinal photoreceptors prone to degeneration

Abstract: Background: Genetic and age-related photoreceptor degeneration impairs vision in millions of individuals worldwide, often enhanced by factors that modify the genotype-phenotype correlation, independently of the primary cause of the disease. Secreted Frizzled Related Protein 1 (SFRP1), a modulator of Wnt signalling and of the enzymatic activity of the αsheddase ADAM10, seems to be upregulated in human retinas affected by retinitis pigmentosa, a genetic disease leading to photoreceptors' degeneration. Here we ha… Show more

“…CDHR1 forms physical connections between nascent, evaginating OS discs and the periciliary ridge of the IS of rod and cone photoreceptors. The characterisation of genes that regulate expression of retinal cadherins are candidate genes for unsolved cases of retinal degeneration; ADAM10 and SFRP1 may regulate cleavage of the CDHR1 ectodomain (Cisneros et al, 2020) necessary to uncouple mature OS discs from the IS throughout life, although confirmation is required. The identification of the IS binding partner of CDHR1 may provide an additional candidate gene for retinal degeneration and provide important information to further unravel the molecular basis of OS disc morphogenesis (Goldberg et al, 2016).…”

“…ADAM10 cleaves the ectodomains of a number of cadherins and protocadherins, and is co-expressed with a number of retinal cadherins in the developing chicken retina (Yan et al, 2011). An increased proportion of cleaved, C-terminal CDHR1 fragments were identified in Sfrp1 -/-(Secreted Frizzled Related Protein 1) mice when compared to wildtype and rd10 mice (Cisneros et al, 2020). As SFRP1 can act as a negative regulator of ADAM10 (Esteve et al, 2011), this suggests that CDHR1 could be a substrate for ADAM10.…”

“…It was recently suggested that ADAM10 (disintegrin and metalloproteinase family member 10), an alpha-secretase enzyme that forms part of the ADAM family that have known roles in cell partitioning during development, may be a candidate for the enzyme responsible for the cleavage of the CDHR1 ectodomain (Cisneros et al, 2020). ADAM10 cleaves the ectodomains of a number of cadherins and protocadherins, and is co-expressed with a number of retinal cadherins in the developing chicken retina (Yan et al, 2011).…”

“…The mapping of degenerative pathways may suggest therapeutic opportunities for intervention. Moreover, they may suggest other candidate genes for retinal degeneration (such as ADAM10, and its regulators such as SFRP1) (Cisneros et al, 2020). Sfrp1 -/mice have been shown to have disorganised OS which is thought in part due to increased proteolysis of CDHR1 through potentiation of the activity of ADAM10 (Cisneros et al, 2020).…”

“…Moreover, they may suggest other candidate genes for retinal degeneration (such as ADAM10, and its regulators such as SFRP1) (Cisneros et al, 2020). Sfrp1 -/mice have been shown to have disorganised OS which is thought in part due to increased proteolysis of CDHR1 through potentiation of the activity of ADAM10 (Cisneros et al, 2020). Further work is required to confirm these interactions, which if confirmed, may present the possibility of digenic inheritance in unsolved cases of retinal degeneration (as identified similarly with ROM1 and PRPH2).…”

Retinal cadherins and the retinal cadherinopathies: Current concepts and future directions

“…CDHR1 forms physical connections between nascent, evaginating OS discs and the periciliary ridge of the IS of rod and cone photoreceptors. The characterisation of genes that regulate expression of retinal cadherins are candidate genes for unsolved cases of retinal degeneration; ADAM10 and SFRP1 may regulate cleavage of the CDHR1 ectodomain (Cisneros et al, 2020) necessary to uncouple mature OS discs from the IS throughout life, although confirmation is required. The identification of the IS binding partner of CDHR1 may provide an additional candidate gene for retinal degeneration and provide important information to further unravel the molecular basis of OS disc morphogenesis (Goldberg et al, 2016).…”

“…ADAM10 cleaves the ectodomains of a number of cadherins and protocadherins, and is co-expressed with a number of retinal cadherins in the developing chicken retina (Yan et al, 2011). An increased proportion of cleaved, C-terminal CDHR1 fragments were identified in Sfrp1 -/-(Secreted Frizzled Related Protein 1) mice when compared to wildtype and rd10 mice (Cisneros et al, 2020). As SFRP1 can act as a negative regulator of ADAM10 (Esteve et al, 2011), this suggests that CDHR1 could be a substrate for ADAM10.…”

“…It was recently suggested that ADAM10 (disintegrin and metalloproteinase family member 10), an alpha-secretase enzyme that forms part of the ADAM family that have known roles in cell partitioning during development, may be a candidate for the enzyme responsible for the cleavage of the CDHR1 ectodomain (Cisneros et al, 2020). ADAM10 cleaves the ectodomains of a number of cadherins and protocadherins, and is co-expressed with a number of retinal cadherins in the developing chicken retina (Yan et al, 2011).…”

“…The mapping of degenerative pathways may suggest therapeutic opportunities for intervention. Moreover, they may suggest other candidate genes for retinal degeneration (such as ADAM10, and its regulators such as SFRP1) (Cisneros et al, 2020). Sfrp1 -/mice have been shown to have disorganised OS which is thought in part due to increased proteolysis of CDHR1 through potentiation of the activity of ADAM10 (Cisneros et al, 2020).…”

“…Moreover, they may suggest other candidate genes for retinal degeneration (such as ADAM10, and its regulators such as SFRP1) (Cisneros et al, 2020). Sfrp1 -/mice have been shown to have disorganised OS which is thought in part due to increased proteolysis of CDHR1 through potentiation of the activity of ADAM10 (Cisneros et al, 2020). Further work is required to confirm these interactions, which if confirmed, may present the possibility of digenic inheritance in unsolved cases of retinal degeneration (as identified similarly with ROM1 and PRPH2).…”

Retinal cadherins and the retinal cadherinopathies: Current concepts and future directions

Inhibition of Epigenetic Modifiers LSD1 and HDAC1 Blocks Rod Photoreceptor Death in Mouse Models of Retinitis Pigmentosa