Lipofuscin and ceroid are usually held responsible for impaired cellular performance, via oxidative damage and the irreversible accumulation of fluorescent products of lipid peroxidation. The neuronal ceroid lipofuscinoses (NCLs, Batten disease) are inherited neurodegenerative diseases characterized by intracellular accumulation of fluorescent lipofuscin-like bodies. However these bodies are lysosomes packed with a particular protein, subunit c of mitochondrial ATP synthase; not the result of oxidative damage. No individual storage body component was fluorescent nor were solutions of total storage bodies. UV-vis spectra confirmed the lack of a fluorophor. Crystals of non-fluorescent albumin and reconstituted storage bodies were fluorescent in glycerol suspensions. This fluorescence is probably caused by interference of light reflected from the protein array, as is often observed in protein crystals. Other lipofuscins may be secondary lysosomes with a high protein content and the source of fluorescence the same. The neurodegeneration associated with lipofuscin accumulation may be caused by that accumulation, or may be a separate manifestation of aging. Neuronal cell cultures offer a way to study these processes. Subunit c accumulation has been observed in cerebral bipolar neurons cultured from 90 day NCL affected sheep foetuses. Neurons from different parts of the brain behave differently. Normal 108 day cerebellar granule neurons migrated into clumps when cultured with tri-iodothyronine, but affected cerebellar neurons did not, nor did normal or affected cerebral neurons.