Abstract
SUMMARY: Oculodentodigital dysplasia is an autosomal dominant disorder due to GJA1 variants characterized by dysmorphic features. Neurologic symptoms have been described in some patients but without a clear neuroimaging pattern. To understand the pathophysiology underlying neurologic deficits in oculodentodigital dysplasia, we studied 8 consecutive patients presenting with hereditary spastic paraplegia due to GJA1 variants. Clinical disease severity was highly variable. Cerebral MR imaging revealed variable white matter abnormalities, consistent with a hypomyelination pattern, and bilateral hypointense signal of the basal ganglia on T2-weighted images and/or magnetic susceptibility sequences, as seen in neurodegeneration with brain iron accumulation diseases. Patients with the more prominent basal ganglia abnormalities were the most disabled ones. This study suggests that GJA1-related hereditary spastic paraplegia is a complex neurodegenerative disease affecting both the myelin and the basal ganglia. GJA1 variants should be considered in patients with hereditary spastic paraplegia presenting with brain hypomyelination, especially if associated with neurodegeneration and a brain iron accumulation pattern.
ABBREVIATIONS:
- Cx43
- connexin 43
- Cx47
- connexin 47
- ODDD
- oculodentodigital dysplasia
Oculodentodigital dysplasia (ODDD, Online Mendelian Inheritance in Man, No. 164200) is an autosomal dominant disorder due to GJA1 variants1 and characterized by dysmorphic features involving the eyes (microphthalmia and microcornea), the nose (narrow, pinched nose with hypoplastic alae nasi), the teeth (small and carious), and limb extremities (syndactyly, camptodactyly). Some patients may present with neurosensory deficits such as spastic paraplegia, ataxia, decreased visual acuity, and hearing loss, possibly associated with white matter and/or basal ganglia signal abnormalities on brain MR imaging.2,3 However, there is no comprehensive overview of the neuroimaging features of ODDD besides isolated case reports. Therefore, to improve the accuracy of clinical diagnosis and better understand the pathophysiology underlying neurologic symptoms in ODDD, we wished to define key brain imaging findings in 8 consecutive patients presenting with spastic paraplegia due to GJA1 variants.
Materials and Methods
We retrospectively studied 8 patients from 5 families presenting with hereditary spastic paraplegia. Patients were referred to reference centers for neurogenetic and neurometabolic diseases. Patients were informed and gave their consent to this study.
GJA1 variants were suspected on the basis of the co-occurrence of hereditary spastic paraplegia with dysmorphic features in all patients. These dysmorphic features included ocular abnormalities (short palpebral fissures, microphthalmia), nasal abnormalities (long and narrow nose, hypoplastic alae nasi), dental abnormalities (microdontia, abnormal coloration of the enamel, multiple caries), and bone extremity abnormalities (syndactyly of the fourth and fifth fingers, clinodactyly, camptodactyly, and aphalangia). Clinical examination was performed by experts in rare neurologic diseases (P.C., C.V., M.C., and F.M.). Disease severity was estimated by a disability stage index: 0, no functional handicap; 1, no functional handicap but signs at examination; 2, mild, able to run, walking unlimited; 3, moderate, unable to run, limited walking without aid; 4, severe, walking with 1 cane; 5, walking with 2 canes; 6, unable to walk, requiring a wheelchair; 7, confined to bed.
MR imaging was performed with a 1.5T (patients 1, 3, 5, 7, 8) or 3T (patients 2, 4, and 6) magnetic field and included at least 1 axial T1- and T2-weighted sequence and 1 sagittal sequence. CT scans were obtained in all patients except patients 1 and 3. Cerebral MR imaging and CT scans were qualitatively reviewed by 3 leukodystrophy experts (R.S., O.B.-T., and F.M.). Visual, brain stem auditory, and somatosensory and motor-evoked potentials were available for 4 patients.
Results
Clinical findings are presented in Table 1. Most patients were women (6/8) and had a family history of the disease (5/8). The age at onset was variable, from 14 to 50 years of age, and symptoms at onset were gait difficulties (4/8) and urinary dysfunction (4/8). Disease severity was highly variable with a disability stage index ranging from 1 to 6. All patients presented with spastic paraplegia associated with reduced muscle strength in 4 patients and decreased vibration sense, more pronounced in the lower limbs, in 6 patients. Six patients presented with signs of neurogenic bladder with variable severity: mild (1/8), moderate (3/8), and severe (2/8). One patient required self-catheterization several times a day (patient 3), and 1 had a cystectomy with enterocystoplasty (patient 4). Five patients had mild cerebellar signs.
Clinical and molecular characteristics of 8 patients with GJA1 variantsa
Cerebral MR imaging revealed white matter abnormalities in all patients, consisting mainly of mild-to-moderate symmetric and diffuse hyperintensities of the corticospinal tracts on T2- and FLAIR-weighted sequences associated with hyper- or isointense T1-weighted signal (Table 2 and Fig 1), consistent with a hypomyelination pattern.4 Most patients also presented with variable degrees of cerebral and cerebellar atrophy (Table 2 and Fig 1). Furthermore, all patients presented with basal ganglia abnormalities—that is, bilateral T2-hypointense signal of the pallidum and, in some instances, substantia nigra, red nucleus, and dentate nucleus, associated with bilateral hypointense signal of the pallidum on T2*- or magnetic susceptibility-weighted images (Table 2, Fig 2, and On-line Figure) as seen in neurodegeneration with brain iron accumulation diseases. One patient presented with a central region of hyperintensity within the T2-weighted hypointense signal in the globus pallidus, the so-called eye of the tiger sign (Table 2 and Fig 2). CT showed bilateral or unilateral calcifications of the basal ganglia in 2 of 5 patients (Table 2 and Fig 2). Patients with the more prominent basal ganglia abnormalities were the most disabled ones. When performed, visual, brain stem auditory, and somatosensory and motor-evoked potentials showed diffuse and pronounced central conduction anomalies (4/4), compatible with a hypomyelinating process.
Brain imaging characteristics of 8 patients with GJA1 variantsa
Axial scans of patients 8 (A–C) and 7 (E and F) show isointense-to-mild hyperintense T1-weighted signal (A and E) associated with mild-to-moderate hyperintense T2- (B and F) and FLAIR-weighted (C) signal of the white matter, especially the internal capsules (arrows) and optic radiations (arrowheads). Sagittal T1-weighted image of patient 8 (D) shows atrophy of the corpus callosum and the vermis. T2-weighted images of patients 2 (G) and 4 (H) show mild hyperintense signal of the corticospinal tract in the ventral pons (arrows) and cerebellar peduncles (arrowheads).
Basal ganglia abnormalities of patients 4 (A–C) and 7 (D–F). Axial T2- (A and D) and magnetic susceptibility- (B and E) weighted images show bilateral hypointensities of the pallidum (arrows) and the eye of the-tiger sign (arrowhead). Axial CT scans (C and F) show unilateral (C) and bilateral (F) calcifications.
Molecular analyses revealed 4 previously reported GJA1 variants (c.93T>G, c.412G>A, c.428G>A, and c.443G>A)5 and one novel heterozygous GJA1 variant (c.634T>A). Of note, the mother of patient 4 carried the heterozygous c.428 G>A variant but without any ODDD symptoms, including normal bone extremities.
Discussion
This series of 8 patients with ODDD presenting with hereditary spastic paraplegia shows that the neurologic symptoms associated with GJA1 variants are related to a complex neurodegenerative process affecting both the white matter and the basal ganglia. Therefore, GJA1 variants should be considered in all patients with hereditary spastic paraplegia presenting with brain hypomyelination, especially when associated with neurodegeneration with a brain iron accumulation pattern. The early occurrence of urinary symptoms in more than half of the patients suggests an ascending process affecting the corticospinal tracts. Of note, most patients were female, while men presented with a later onset of disease.
Indeed, the GJA1 gene encodes connexin 43 (Cx43), a transmembrane protein acting in intercellular communication.1 Cx43 is expressed in astrocytes and plays a role in astrocyte-oligodendrocyte communication by heterotypic Cx43/connexin 47 (Cx47) channels. Some studies have suggested that Cx43/Cx47 channels participate in myelin maintenance.6,7 Cx47, encoded by GJA12, is deficient in Pelizaeus-Merzbacher-like disease,8 a hypomyelinating disorder characterized by nystagmus, delayed psychomotor development, and cerebellospastic signs. Some data suggest that the total loss of function of Cx47/Cx43 is implicated in the pathophysiology of part of GJA12 variants.6,7 Similarities among neurologic and imaging characteristics between Pelizaeus-Merzbacher-like disease and ODDD could underlie common molecular mechanisms involving the Cx43/Cx47 channels. However, unlike most hypomyelinating disorders such as Pelizaeus-Merzbacher-like disease, the perception of neurologic symptoms by patients with GJA1 variants usually occurs in adulthood, which may be related to the haploinsufficiency (instead of a loss of function) of Cx43 in ODDD.
In our series, all patients had abnormal MR imaging signal of the basal ganglia, as seen in neurodegeneration with brain iron accumulation disorders. We also observed calcifications of the basal ganglia as previously reported.9,10 One patient even had an eye of the tiger sign described as a hallmark of pantothenate kinase–associated neurodegeneration.11 Basal ganglia involvement is observed in other hypomyelinating leukodystrophies, including patients with POLR3A/B and TUBB4 variants.12,13 In our series, the extent of basal ganglia abnormalities was associated with the degree of the patient's disability. Given our limited number of patients, this observation requires further validation in a larger group of patients.
Disease severity was extremely variable with symptom onset from adolescence to adulthood and pyramidal symptoms ranging from very mild to very disabling. In addition, the mother of patient 4 - bearing the c.428 G>A variant - had a complete normal phenotype despite the penetrance of ODDD is classically qualified as high.1 These findings emphasize that intra- and interfamilial expression of the disease is highly variable, without genotype-phenotype correlation. Therefore, it appears difficult to predict the risk of developing neurologic symptoms in patients with GJA1 variants, a major pitfall for genetic counseling.
Acknowledgments
We thank all our colleagues who provided the radiologic data used in this study. We thank Dr Pascal Hilbert (Institut de Pathologie et Génétique, Gosselies, Belgique) for performing the genetic analyses of patients 1, 2, 4, 5, and 6, as well as Dr Corinne Magdelaine (Centre Hospitalier Universitaire, Limoges, France) for performing the genetic analyses of patients 3 and 7.
Footnotes
Disclosures: Martin Catala—UNRELATED: Expert Testimony: Agence Nationale de Sécurité du Médicament.
REFERENCES
- Received November 26, 2018.
- Accepted after revision February 27, 2019.
- © 2019 by American Journal of Neuroradiology
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