BACKGROUND: Cerebral palsy is a heterogeneous group of neurodevelopmental brain disorders resulting in motor and posture impairments often associated with cognitive, sensorial, and behavioural disturbances. Hypoxic-ischaemic injury, long considered the most frequent causative factor, accounts for fewer than 10% of cases, whereas a growing body of evidence suggests that diverse genetic abnormalities likely play a major role. METHODS AND RESULTS: This report describes an autosomal recessive form of spastic tetraplegic cerebral palsy with profound intellectual disability, microcephaly, epilepsy and white matter loss in a consanguineous family resulting from a homozygous deletion involving AP4E1, one of the four subunits of the adaptor protein complex-4 (AP-4), identified by chromosomal microarray analysis. CONCLUSION: These findings, along with previous reports of human and mouse mutations in other members of the complex, indicate that disruption of any one of the four subunits of AP-4 causes dysfunction of the entire complex, leading to a distinct 'AP-4 deficiency syndrome'.
BACKGROUND:Cerebral palsy is a heterogeneous group of neurodevelopmental brain disorders resulting in motor and posture impairments often associated with cognitive, sensorial, and behavioural disturbances. Hypoxic-ischaemic injury, long considered the most frequent causative factor, accounts for fewer than 10% of cases, whereas a growing body of evidence suggests that diverse genetic abnormalities likely play a major role. METHODS AND RESULTS: This report describes an autosomal recessive form of spastic tetraplegic cerebral palsy with profound intellectual disability, microcephaly, epilepsy and white matter loss in a consanguineous family resulting from a homozygous deletion involving AP4E1, one of the four subunits of the adaptor protein complex-4 (AP-4), identified by chromosomal microarray analysis. CONCLUSION: These findings, along with previous reports of human and mouse mutations in other members of the complex, indicate that disruption of any one of the four subunits of AP-4 causes dysfunction of the entire complex, leading to a distinct 'AP-4 deficiency syndrome'.
Authors: Clare N Lynex; Ian M Carr; Jack P Leek; Rajgopal Achuthan; Simon Mitchell; Eamonn R Maher; C Geoffrey Woods; David T Bonthon; Alex F Markham Journal: BMC Neurol Date: 2004-11-30 Impact factor: 2.474
Authors: M Hashim Raza; Rafael Mattera; Robert Morell; Eduardo Sainz; Rachel Rahn; Joanne Gutierrez; Emily Paris; Jessica Root; Beth Solomon; Carmen Brewer; M Asim Raza Basra; Shaheen Khan; Sheikh Riazuddin; Allen Braun; Juan S Bonifacino; Dennis Drayna Journal: Am J Hum Genet Date: 2015-11-05 Impact factor: 11.025
Authors: G McMichael; M N Bainbridge; E Haan; M Corbett; A Gardner; S Thompson; B W M van Bon; C L van Eyk; J Broadbent; C Reynolds; M E O'Callaghan; L S Nguyen; D L Adelson; R Russo; S Jhangiani; H Doddapaneni; D M Muzny; R A Gibbs; J Gecz; A H MacLennan Journal: Mol Psychiatry Date: 2015-02-10 Impact factor: 15.992
Authors: Paulo Victor Sgobbi de Souza; Wladimir Bocca Vieira de Rezende Pinto; Gabriel Novaes de Rezende Batistella; Thiago Bortholin; Acary Souza Bulle Oliveira Journal: Cerebellum Date: 2017-04 Impact factor: 3.847
Authors: Rafael Mattera; Sang Yoon Park; Raffaella De Pace; Carlos M Guardia; Juan S Bonifacino Journal: Proc Natl Acad Sci U S A Date: 2017-11-27 Impact factor: 11.205
Authors: Andrés Moreno-De-Luca; Francisca Millan; Denis R Pesacreta; Houda Z Elloumi; Matthew T Oetjens; Claire Teigen; Karen E Wain; Julie Scuffins; Scott M Myers; Rebecca I Torene; Vladimir G Gainullin; Kevin Arvai; H Lester Kirchner; David H Ledbetter; Kyle Retterer; Christa L Martin Journal: JAMA Date: 2021-02-02 Impact factor: 56.272