Fig 1.
Sequential and comparative MRI.
(A) Axial T1-weighted images from successive MRI scans acquired from 2008 (year of onset) to 2014 demonstrate the progressive development of cerebellar atrophy. (B) Coronal (top row) and sagittal (bottom row) T1-weighted images from MRI demonstrate relatively normal cerebellar structure and volume of a representative RDP patient (left images) in contrast to marked cerebellar atrophy of the patient in 2014 (right images).
Table 1.
Neurological evaluation.
Table 2.
Candidate variants detected by exome sequencing.
Fig 2.
Stereo images of Gly316 and Phe780 in the K+ and Na+ conformations.
The structures can be viewed in stereo by focusing the eyes behind the plane of the top or bottom image pair and letting the eyes drift separately until a central image fuses. On the top, the transmembrane domain of Na,K-ATPase is shown from a crystal structure in the E2 (K+-bound) conformation. Gold spheres are K+ ions in the ion binding pocket. The yellow space-fill residue is Gly316. Opposite it, the blue-green residue is Phe780, mutated to leucine in RDP. On the bottom, red spheres are Na+ ions in the ion binding pocket of a crystal structure in the E1 (Na+ bound) conformation. The rearrangement of transmembrane helices has separated Gly316 and Phe780 significantly.
Fig 3.
Impairment of Na,K-ATPase function.
(A-C) Ouabain is a specific Na,K-ATPase inhibitor. HEK293 cells are shown 5 d after they were transfected and 4 d after 0.5 μM ouabain was added. In A, mock-transfected HEK cells had all died. In B, transfection was with unmutated ATP1A3. Cells survived and divided, becoming crowded (asterisks), medium acidified overnight, and some death due to overcrowding was apparent (arrows). Cells at the edge of open spaces were flattened (white arrowheads). In C, the p.Gly316Ser mutation was transfected. Many cells survived, but were unable to divide, and the medium did not acidify. Over the subsequent two weeks there was a slow attrition of cells and no detectable division of the remaining living p.Gly316Ser cells. (D) Na,K-ATPase α3 western blot of equal amounts of total protein from cell homogenates demonstrating that the mutant protein is expressed at levels comparable to controls. A stable WT ATP1A3-transfected cell line was a positive control for optimal ATP1A3 expression. The visible molecular weight marker (Amersham Rainbow) was 102 kDa, and α3 migrates at ~93 kDa (faster than its molecular mass). HEK cells express only ATP1A1, which is not detected by the specific antibody (Santa Cruz Biotechnology sc-16052). The other lanes show transient expression of WT ATP1A3, p.Gly316Ser, and p.Glu815Lys, an inactive mutation found in AHC [28]. The expression results and the failure to support cell growth are representative of three experiments.
Fig 4.
GPRIN1 (formerly known as GRIN1 until the name conflicted with the official gene name of an NMDA glutamate receptor) has sequence characteristics of a relatively unstructured protein, and in human it has 23 copies, of differing fidelity, of a six amino acid motif typified by KEDPGS. The diagram shows the distribution of motifs (red bars) and the location of an abrupt change of the degree of conservation between human and mouse. The less-conserved segment is likely to be relatively unstructured, and the conserved segment is likely to be compactly folded. One motif copy (green bar) is homozygously deleted in the patient.