Batten disease or JNCL, is the juvenile form of Neuronal Ceroid Lipofuscinosis (NCL) an autosomal recessive neurodegenerative disorder. Since retinal degeneration is an early consequence of Batten dis Show more
Batten disease or JNCL, is the juvenile form of Neuronal Ceroid Lipofuscinosis (NCL) an autosomal recessive neurodegenerative disorder. Since retinal degeneration is an early consequence of Batten disease, we examined the eyes of Cln3 knockout mice (1-20 months of age), along with heterozygotes and appropriate controls, to determine whether or not the Cln3 defect would lead to characteristic retinal degeneration and visual loss. Accumulation of autofluorescent material and intracellular inclusions were markedly increased in Cln3 knockout retinal ganglion cells, as well as most other nuclear layers. Nerve fiber density was also significantly decreased in Cln3 knockout retinae. Apoptosis was observed in the photoreceptor layer of Cln3 knockout. However, the degree of retinal degeneration up to age 20 months was not extensive. Fundus examinations of Cln3 knockout mice showed no significant abnormalities, while electroretinograms remained robust through 11 months of age. In summary, it appears that accumulation of autofluorescent material, carbohydrate storage material, as well as apoptotic cell death are retinal manifestations of the Cln3 defect that do not appear to extinguish retinal function in this mouse model of Batten disease. Show less
Juvenile neuronal ceroid lipofuscinosis is a lysosomal storage disease that causes visual impairment, progressive mental deterioration, and eventually death. A predominant 1.02-kb deletion as well as Show more
Juvenile neuronal ceroid lipofuscinosis is a lysosomal storage disease that causes visual impairment, progressive mental deterioration, and eventually death. A predominant 1.02-kb deletion as well as other mutations have been described in the CLN3 gene. Lacking significant identity with proteins of known function and no overt targeting signals within the primary amino acid sequence, accurate predictions of the intracellular location and function could not be made. Further, recent conflicting reports identified CLN3 as either a lysosomal or a mitochondrial protein. Transfection experiments using native and epitope-tagged fusion proteins were evaluated to help delineate CLN3 localization. We confirmed by immunohistochemistry and brefeldin A treatment that NH2-terminal green fluorescence protein (GFP)-CLN3 fusion proteins were retained in the Golgi apparatus, with no colocalization with mitochondrial markers. Anti-CLN3 antibodies directed against amino acids 67-90 of CLN3 were generated and shown to be specific for a 50-kDa protein in HEK 293 cells and GFP-CLN3 in transfected cells. However, cells transfected with nontagged CLN3 or carboxyl-terminal-tagged CLN3 were not immunoreactive with anti-CLN3 antibodies, suggesting that normally, the amino terminus interacts with other molecules. Thus, tags on the NH2-terminus probably inhibited these interactions and movement of CLN3 from the Golgi to more distal compartments. Also, CLN3 tagged at the COOH-terminus with either GFP or FLAG epitopes were retained in the ER, indicating a role for the COOH-terminus in trafficking. Taken together, these data confirm that CLN3 traffics through the ER and Golgi. Show less