The pleiotropic movement disorders phenotype of adult ataxia-telangiectasia

International audienceOBJECTIVE:To assess the clinical spectrum of ataxia-telangiectasia (A-T) in adults, with a focus on movement disorders.METHODS:A total of 14 consecutive adults with A-T were included at 2 tertiary adult movement disorders centers and compared to 53 typical patients with A-T. Clinical evaluation, neurophysiologic and video-oculographic recording, imaging, laboratory investigations, and ATM analysis were performed.RESULTS:In comparison with typical A-T cases, our patients demonstrated later mean age at onset (6.1 vs 2.5 years, p < 0.0001), later loss of walking ability (p = 0.003), and longer survival (p = 0.0039). The presenting feature was ataxia in 71% and dysarthria and dystonia in 14% each. All patients displayed movement disorders, among which dystonia and subcortical myoclonus were the most common (86%), followed by tremor (43%). Video-oculographic recordings revealed mostly dysmetric saccades and 46% of patients had normal latencies (i.e., no oculomotor apraxia) and velocities. The α-fetoprotein (AFP) level was normal in 7%, chromosomal instability was found in 29% (vs 100% of typical patients, p = 0.0006), and immunoglobulin deficiency was found in 29% (vs 69%, p = 0.057). All patients exhibited 2 ATM mutations, including at least 1 missense mutation in 79% of them (vs 36%, p = 0.0067).CONCLUSION:There is great variability of phenotype and severity in A-T, including a wide spectrum of movement disorders. Karyotype and repeated AFP level assessments should be performed in adults with unexplained movement disorders as valuable clues towards the diagnosis. In case of a compatible phenotype, A-T should be considered even if age at onset is late and progression is slo

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CCMC Evaluation Report 12833-RPeer reviewed: NoNRC publication: Ye

PROMIDISα: A T-cell receptor α signature associated with immunodeficiencies caused by V(D)J recombination defects

Background: V(D)J recombination ensures the diversity of the adaptive immune system. Although its complete defect causes severe combined immunodeficiency (ie, T-B- severe combined immunodeficiency), its suboptimal activity is associated with a broad spectrum of immune manifestations, such as late-onset combined immunodeficiency and autoimmunity. The earliest molecular diagnosis of these patients is required to adopt the best therapy strategy, particularly when it involves a myeloablative conditioning regimen for hematopoietic stem cell transplantation. Objective: We aimed at developing biomarkers based on analysis of the T-cell receptor (TCR) alpha repertoire to assist in the diagnosis of patients with primary immunodeficiencies with V(D) J recombination and DNA repair deficiencies. Methods: We used flow cytometric (fluorescence-activated cell sorting) analysis to quantify TCR-V alpha 7.2-expressing T lymphocytes in peripheral blood and developed PROMIDIS alpha, a multiplex RT-PCR/next-generation sequencing assay, to evaluate a subset of the TCR alpha repertoire in T lymphocytes. Results: The combined fluorescence-activated cell sorting and PROMIDISa analyses revealed specific signatures in patients with V(D) J recombination-defective primary immunodeficiencies or ataxia telangiectasia/Nijmegen breakage syndromes. Conclusion: Analysis of the TCR alpha repertoire is particularly appropriate in a prospective way to identify patients with partial immune defects caused by suboptimal V(D) J recombination activity, a DNA repair defect, or both. It also constitutes a valuable tool for the retrospective in vivo functional validation of variants identified through exome or panel sequencing. Its broader implementation might be of interest to assist early diagnosis of patients presenting with hypomorphic DNA repair defects inclined to experience acute toxicity during prehematopoietic stem cell transplantation conditioning

Germline \textitBAP1 mutations predispose to renal cell carcinomas

The genetic cause of some familial nonsyndromic renal cell carcinomas (RCC) defined by at least two affected first-degree relatives is unknown. By combining whole-exome sequencing and tumor profiling in a family prone to cases of RCC, we identified a germline BAP1 mutation c.277A>G (p.Thr93Ala) as the probable genetic basis of RCC predisposition. This mutation segregated with all four RCC-affected relatives. Furthermore, BAP1 was found to be inactivated in RCC-affected individuals from this family. No BAP1 mutations were identified in 32 familial cases presenting with only RCC. We then screened for germline BAP1 deleterious mutations in familial aggregations of cancers within the spectrum of the recently described BAP1-associated tumor predisposition syndrome, including uveal melanoma, malignant pleural mesothelioma, and cutaneous melanoma. Among the 11 families that included individuals identified as carrying germline deleterious BAP1 mutations, 6 families presented with 9 RCC-affected individuals, demonstrating a significantly increased risk for RCC. This strongly argues that RCC belongs to the BAP1 syndrome and that BAP1 is a RCC-predisposition gene