BACKGROUND: Classical lissencephaly is a disorder of neuroblast migration with most patients having mutations of either the LIS1 or DCX genes. Most patients with lissencephaly secondary to LIS1 mutations have a severe malformation consisting of generalized agyria and pachygyria. However, increasing experience suggests that the phenotypic spectrum is wider than previously thought. METHODS: The authors describe the clinical and imaging features and mutation data of the five known patients with missense mutations of the LIS1 gene and emphasize one patient with normal intelligence. RESULTS: Patients with a missense mutation of the LIS1 gene have a wider and milder spectrum of cortical malformations and clinical sequelae compared with patients with other mutation types. CONCLUSION: Milder and more variable phenotypes seen in patients with missense mutations of LIS1 are likely a consequence of suboptimal function of the mutant LIS1 protein, rather than complete loss of function of this protein. The authors suggest that the few patients found thus far with missense mutations of LIS1 results from an underascertainment of patients with more subtle malformations and that abnormalities of the LIS1 gene may account for a greater spectrum of neurologic problems in childhood than has previously been appreciated.
BACKGROUND:Classical lissencephaly is a disorder of neuroblast migration with most patients having mutations of either the LIS1 or DCX genes. Most patients with lissencephaly secondary to LIS1 mutations have a severe malformation consisting of generalized agyria and pachygyria. However, increasing experience suggests that the phenotypic spectrum is wider than previously thought. METHODS: The authors describe the clinical and imaging features and mutation data of the five known patients with missense mutations of the LIS1 gene and emphasize one patient with normal intelligence. RESULTS:Patients with a missense mutation of the LIS1 gene have a wider and milder spectrum of cortical malformations and clinical sequelae compared with patients with other mutation types. CONCLUSION: Milder and more variable phenotypes seen in patients with missense mutations of LIS1 are likely a consequence of suboptimal function of the mutant LIS1 protein, rather than complete loss of function of this protein. The authors suggest that the few patients found thus far with missense mutations of LIS1 results from an underascertainment of patients with more subtle malformations and that abnormalities of the LIS1 gene may account for a greater spectrum of neurologic problems in childhood than has previously been appreciated.
Authors: Nataliya Di Donato; Sara Chiari; Ghayda M Mirzaa; Kimberly Aldinger; Elena Parrini; Carissa Olds; A James Barkovich; Renzo Guerrini; William B Dobyns Journal: Am J Med Genet A Date: 2017-04-25 Impact factor: 2.802
Authors: Carlos Cardoso; Richard J Leventer; Heather L Ward; Kazuhito Toyo-Oka; June Chung; Alyssa Gross; Christa L Martin; Judith Allanson; Daniela T Pilz; Ann H Olney; Osvaldo M Mutchinick; Shinji Hirotsune; Anthony Wynshaw-Boris; William B Dobyns; David H Ledbetter Journal: Am J Hum Genet Date: 2003-03-05 Impact factor: 11.025
Authors: Eden V Haverfield; Amanda J Whited; Kristin S Petras; William B Dobyns; Soma Das Journal: Eur J Hum Genet Date: 2008-12-03 Impact factor: 4.246