Elevated Stimulatory and Reduced Inhibitory G Protein α Subunits in Cerebellar Cortex of Patients with Dominantly Inherited Olivopontocerebellar Atrophy

Abstract: Although guanine nucleotide binding proteins (G proteins) are one of the critical components of signal transduction units for various membrane receptor-mediated responses, little information is available regarding their status in brain of patients with neurodegenerative illnesses. We measured the immunoreactivity of G protein subunits (G_sα, G_iα, G_oα, G_q/11α, and Gβ) in autopsied cerebellar and cerebral cortices of 10 end-stage patients with dominantly inherited olivopontocerebellar atrophy (OPCA) who all had severe loss of Purkinje cell neurons and climbing fiber afferents in cerebellar cortex. Compared with the controls, the long-form G_sα (52-kDa species) immunoreactivity was significantly elevated by 52% (p < 0.01) in the cerebellar cortex of the OPCA patients, whereas the G_i1α concentration was reduced by 35% (p < 0.02). No statistically significant differences were observed for G_oα, G_i2α, G_β1, G_β2, or G_q/11α in cerebellar cortex or for any G protein subunit in the two examined cerebral cortical subdivisions (frontal and occipital). The cerebellar G_sα elevation could represent a compensatory response (e.g., sprouting, reactive synaptogenesis) by the remaining cerebellar neurons (granule cells?) to neuronal damage but also might contribute to the degenerative process, as suggested by the ability of G_sα, in some experimental preparations, to promote calcium flux. Further studies will be required to determine the actual functional consequences of the G protein changes in OPCA and whether the elevated G_sα is specific to OPCA cerebellum, because of its unique cellular pattern of morphological damage, or is found in brain of patients with other progressive neurodegenerative disorders.