Intermediate repeat expansions of TBP and STUB1: genetic modifier or pure digenic inheritance in spinocerebellar ataxias?

Archive ouverte

Barbier, Mathieu | Davoine, Claire-Sophie | Petit, Emilien | Porche, Maximilien | Guillot-Noel, Léna | Sayah, Sabrina | Fauret, Anne-Laure | Neau, Jean-Philippe | Guyant- Marechal, Lucie | Deffond, Didier | Tranchant, Christine | Goizet, Cyril | Coarelli, Giulia | Castrioto, Anna | Klebe, Stephan | Ewenczyk, Claire | Heinzmann, Anna | Charles, Perrine | Tchikviladzé, Maya | van Broeckhoven, Christine | Brice, Alexis | Durr, Alexandra | Durr, Pr, Alexandra

Edité par CCSD -

International audience. Purpose: CAG/CAA repeat expansions in TBP>49 are responsible for spinocerebellar ataxia type 17 (SCA17). We previously detected co-segregation of STUB1 variants causing SCA48 with intermediate alleles of TBP in two families. This co-segregation questions the existence of SCA48 as a monogenic disease. Methods: We systematically sequenced TBP repeats in 34 probands of dominant ataxia families with STUB1 variants. In addition, we searched for pathogenic STUB1 variants in probands with expanded alleles of TBP>49 (n=2) or intermediate alleles of TBP≥40 (n=47). Results: STUB1 variants were found in half of the TBP40-49 cohort. Mirroring this finding, TBP40-49 alleles were detected in 40% of STUB1 probands. The longer the TBP repeat length the more likely the occurrence of cognitive impairment (p = 0.0129) and the faster the disease progression until death (p = 0.0003). Importantly, thirteen STUB1 probands presenting with the full SCA48 clinical phenotype had normal TBP37-39 alleles, excluding digenic inheritance as the sole mode.Conclusion: We show that intermediate TBP40-49 alleles act as disease modifiers of SCA48 rather than a STUB1/TBP digenic model. This distinction from what has been proposed before has crucial consequences for genetic counseling in SCA48.

• Description
• Sujet/Public
• Outil
• Outil d'anticipation
• Mémoire et thèse
• Gestion