BACKGROUND: Hereditary spastic paraplegia (HSP) is characterised in its pure form by slowly progressive spastic paraparesis. Around 40% of autosomal dominant (AD) cases are caused by mutations in SPAST, encoding spastin. PATIENTS AND METHODS: The clinical and investigation details of all patients with a SPAST mutation identified through our centre were reviewed. All published reports of SPAST mutations where the sex of patients was given were subsequently analysed in order to determine whether there is evidence of one sex being preferentially affected. RESULTS: In total 22 probable pathogenic changes were detected, including 11 novel ones. One patient carried two adjacent missense mutations. The pathogenicity of a further novel missense mutation is uncertain. Most patients had a pure phenotype, although mild peripheral neuropathy was sometimes present. The total number of patients with SPAST mutations was 27, as three of the previously known mutations were present in more than one person. The excess of males over females in our population (17:10) prompted us to review all published studies where the sex of the patients was given (n=31). A significant excess of males was identified (ratio 1.29, p=0.0007). CONCLUSIONS: Our results are consistent with data suggesting that SPAST mutations mostly cause a pure HSP phenotype. The excess of males in our sample and in published reports suggests that penetrance or severity may be sex-dependent, and merits further investigation as it may have important implications for counselling.
BACKGROUND:Hereditary spastic paraplegia (HSP) is characterised in its pure form by slowly progressive spastic paraparesis. Around 40% of autosomal dominant (AD) cases are caused by mutations in SPAST, encoding spastin. PATIENTS AND METHODS: The clinical and investigation details of all patients with a SPAST mutation identified through our centre were reviewed. All published reports of SPAST mutations where the sex of patients was given were subsequently analysed in order to determine whether there is evidence of one sex being preferentially affected. RESULTS: In total 22 probable pathogenic changes were detected, including 11 novel ones. One patient carried two adjacent missense mutations. The pathogenicity of a further novel missense mutation is uncertain. Most patients had a pure phenotype, although mild peripheral neuropathy was sometimes present. The total number of patients with SPAST mutations was 27, as three of the previously known mutations were present in more than one person. The excess of males over females in our population (17:10) prompted us to review all published studies where the sex of the patients was given (n=31). A significant excess of males was identified (ratio 1.29, p=0.0007). CONCLUSIONS: Our results are consistent with data suggesting that SPAST mutations mostly cause a pure HSP phenotype. The excess of males in our sample and in published reports suggests that penetrance or severity may be sex-dependent, and merits further investigation as it may have important implications for counselling.
Authors: Anna Uhrová Mészárosová; Martina Putzová; Marie Čermáková; Dagmar Vávrová; Kateřina Doležalová; Irena Smetanová; David Stejskal; Christian Beetz; Pavel Seeman Journal: J Hum Genet Date: 2016-06-23 Impact factor: 3.172
Authors: Colby R Sandate; Agnieszka Szyk; Elena A Zehr; Gabriel C Lander; Antonina Roll-Mecak Journal: Nat Struct Mol Biol Date: 2019-07-08 Impact factor: 15.369
Authors: Silke Nuber; Molly Rajsombath; Georgia Minakaki; Jürgen Winkler; Christian P Müller; Maria Ericsson; Barbara Caldarone; Ulf Dettmer; Dennis J Selkoe Journal: Neuron Date: 2018-10-10 Impact factor: 17.173
Authors: Eleanna Kara; Arianna Tucci; Claudia Manzoni; David S Lynch; Marilena Elpidorou; Conceicao Bettencourt; Viorica Chelban; Andreea Manole; Sherifa A Hamed; Nourelhoda A Haridy; Monica Federoff; Elisavet Preza; Deborah Hughes; Alan Pittman; Zane Jaunmuktane; Sebastian Brandner; Georgia Xiromerisiou; Sarah Wiethoff; Lucia Schottlaender; Christos Proukakis; Huw Morris; Tom Warner; Kailash P Bhatia; L V Prasad Korlipara; Andrew B Singleton; John Hardy; Nicholas W Wood; Patrick A Lewis; Henry Houlden Journal: Brain Date: 2016-05-23 Impact factor: 15.255