Ser55 within the head domain of neurofilament light chain (NF-L) is a target for phosphorylation by protein kinase A. To understand further the physiological role(s) of NF-L Ser55 phosphorylation, we generated transgenic mice with a mutant NF-L transgene in which Ser55 was mutated to Asp so as to mimic permanent phosphorylation. Two lines of NF-L(Asp) mice were created and these animals express the transgene in many neurones of the central and peripheral nervous systems. Both transgenic lines display identical, early onset, and robust pathological changes in the brain. These involve the formation of NF-L(Asp)-containing perikaryal neurofilament inclusion bodies and the development of swollen Purkinje cell axons. Development of these pathologies was rapid and fully established in mice as young as 4 weeks of age. The two transgenic lines show no elevation of NF-L, neurofilament middle chain (NF-M), or neurofilament heavy chain (NF-H), and transgenic NF-L(Asp) represents only a minor proportion of total NF-L protein. Because other published transgenic lines expressing higher levels of wild-type NF-L do not exhibit phenotypic changes that in any way resemble those in the NF-L(Asp) mice and because the two different NF-L(Asp) transgenic lines display identical neuropathological changes, it is likely that the pathological alterations observed in the NF-L(Asp) mice are the result of properties of the mutant NF-L. These results support the notion that phosphorylation of Ser55 is a mechanism for regulating neurofilament organisation in vivo.