Molecular genetic analysis of the FMR-1 gene in a large collection of autistic patients

Abstract A genetic etiology in autism is now strongly supported by family and twin studies. A 3:1 ratio of affected males to females suggests the involvement of at least one X-linked locus in the disease. Several reports have indicated an association of the fragile X chromosomal anomaly at Xq27.3 (FRAXA) with autism, whereas others have not supported this finding. We have so far collected blood from 105 simplex and 18 multiplex families and have assessed 141 patients by using the Autism Diagnostic Interview-Revised (ADI-R), the Autism Diagnostic Observation Scale, and psychometric tests. All four ADI-R algorithm criteria were met by 131 patients (93%), whereas 10 patients (7%) showed a broader phenotype of autism. Southern blot analysis was performed with three different enzymes, and filters were hybridized to an FMR-1-specific probe to detect amplification of the CCG repeat at FRAXA, to the complete FMR-1 cDNA probe, and to additional probes from the neighborhood of the gene. No significant changes were found in 139 patients (99%) from 122 families, other than the normal variations in the population. In the case of one multiplex familiy with three children showing no dysmorphic features of the fragile X syndrome (one male meeting 3 out of 4 ADI-algorithm criteria, one normal male with slight learning disability but negative ADI-R testing, and one fully autistic female), the FRAXA full-mutation-specific CCG-repeat expansion in the genotype was not correlated with the autism phenotype. Further analysis revealed a mosaic pattern of methylation at the FMR-1 gene locus in the two sons of the family, indicating at least a partly functional gene. Therefore, we conclude that the association of autism with fragile X at Xq27.3 is non-existent and exclude this location as a candidate gene region for autism.

[1]  A. Couteur,et al.  Autism diagnostic interview: A standardized investigator-based instrument , 1989, Journal of autism and developmental disorders.

[2]  S. Thibodeau,et al.  High functioning fragile X males: demonstration of an unmethylated fully expanded FMR-1 mutation associated with protein expression. , 1994, American journal of medical genetics.

[3]  L. Lotspeich,et al.  Austism and the X Chromosome: Multipoint sib-Pair Analysis , 1996 .

[4]  Point mutation analysis of the FMR-1 gene in autism. , 1996, Molecular psychiatry.

[5]  A. Monaco,et al.  Molecular cloning and analysis of the fragile X region in man. , 1991, Nucleic acids research.

[6]  D. Schlessinger,et al.  Fragile X genotype characterized by an unstable region of DNA , 1991, Science.

[7]  K. Davies,et al.  A new DNA marker tightly linked to the fragile X locus (FRAXA). , 1989, Science.

[8]  B. Freeman,et al.  Concordance for the syndrome of autism in 40 pairs of afflicted twins. , 1985, The American journal of psychiatry.

[9]  A. Poustka,et al.  A microdeletion of less than 250 kb, including the proximal part of the FMR-I gene and the fragile-X site, in a male with the clinical phenotype of fragile-X syndrome. , 1992, American journal of human genetics.

[10]  M. Spence,et al.  Autism and genetics. A decade of research. , 1988, Archives of general psychiatry.

[11]  A. Bailey,et al.  Prevalence of the fragile X anomaly amongst autistic twins and singletons. , 1993, Journal of child psychology and psychiatry, and allied disciplines.

[12]  H. Smeets,et al.  Normal phenotype in two brothers with a full FMR1 mutation. , 1995, Human molecular genetics.

[13]  S. Folstein,et al.  Etiology of autism: genetic influences. , 1991, Pediatrics.

[14]  P Bolton,et al.  A case-control family history study of autism. , 1994, Journal of child psychology and psychiatry, and allied disciplines.

[15]  L. Lotspeich,et al.  Male-to-male transmission in extended pedigrees with multiple cases of autism. , 1996, American journal of medical genetics.

[16]  F. Poustka,et al.  The standardized diagnosis of autism, Autism Diagnostic Interview-Revised: interrater reliability of the German form of the interview. , 1996, Psychopathology.

[17]  R. Hagerman Clinical conundrums in fragile X syndrome , 1992, Nature Genetics.

[18]  C. Gillberg,et al.  A twin study of autism in Denmark, Finland, Iceland, Norway and Sweden. , 1989, Journal of child psychology and psychiatry, and allied disciplines.

[19]  S. Folstein,et al.  Infantile autism: a genetic study of 21 twin pairs. , 1977, Journal of child psychology and psychiatry, and allied disciplines.

[20]  F. Volkmar,et al.  Fragile X in a survey of 75 autistic males. , 1984, The New England journal of medicine.

[21]  J. Sutcliffe,et al.  Identification of a gene (FMR-1) containing a CGG repeat coincident with a breakpoint cluster region exhibiting length variation in fragile X syndrome , 1991, Cell.

[22]  Edwin Reyniers,et al.  A point mutation in the FMR-1 gene associated with fragile X mental retardation , 1993, Nature Genetics.

[23]  S. Einfeld,et al.  Autism is not associated with the fragile X syndrome. , 1989, American journal of medical genetics.

[24]  D E Weeks,et al.  Polygenic disease: methods for mapping complex disease traits. , 1995, Trends in genetics : TIG.

[25]  A. Poustka,et al.  Fragile X syndrome without CCG amplification has an FMR1 deletion , 1992, Nature Genetics.

[26]  H. Kraemer,et al.  Molecular analysis and test of linkage between the FMR-1 gene and infantile autism in multiplex families. , 1994, American journal of human genetics.

[27]  J. Mandel,et al.  Instability of a 550-base pair DNA segment and abnormal methylation in fragile X syndrome , 1991, Science.

[28]  A. Reiss,et al.  Contribution of the FMR1 gene mutation to human intellectual dysfunction , 1995, Nature Genetics.

[29]  A. Bailey,et al.  Autism as a strongly genetic disorder: evidence from a British twin study , 1995, Psychological Medicine.

[30]  C. Gillberg,et al.  Frequency of the fragile X syndrome in infantile autism , 1985, Clinical genetics.

[31]  I L Cohen,et al.  Why are autism and the fragile-X syndrome associated? Conceptual and methodological issues. , 1991, American journal of human genetics.